AIR CONDITIONING UNITS - Technical installa on manual TUN. ITUNPY _ replace _

AIR ONDITIONING UNITS - Technical installa on manual TUN ITUNPY. 68080_0.09 replace 68080_00.06

Dear ustomer, Thank you for choosing an AERME product. This product is the result of many years of experience and indepth engineering research, and it is built using top quality materials and advanced technologies. In addition, the E mark guarantees that our appliances fully comply with the requirements of the European Machinery Directive in terms of safety. We constantly monitor the quality level of our products, and as a result they are synonymous with Safety, Quality, and Reliability. Product data may be subject to modifications deemed necessary for improving the product without the obligation to give prior notice. Thank you again. AERME S.p.A AERME S.p.A. reserves the right to make any modifications considered necessary to improve its products at any moment and is not obliged to add these modifications to machines that have already been fabricated, delivered or are under construction. 2 Aermec cod. 68080_0.09

. General standards... 2. Descrip on of the unit... 6. Descrip on of components... 6 4. onfigurator... 6. Accessories... 6. Accessory coupling... 8 6.. Horizontal installa on 2 dampers... 8 6.2. Horizontal installa on single flow 2 front dampers... 0 6.. Horizontal installa on dampers... 2. Technical data... 6 8. Weight of accessories... 9. Yields and temperatures different from the nominal func oning value in cooling mode... 8 9.. TUN 0 with 4-row coil... 8 9.2. TUN 0 with 6-row coil... 9 9.. TUN 0p with 4-row coil... 20 9.4. TUN 0p with 6-row coil... 2 9.. TUN with 4-row coil... 22 9.6. TUN with 6-row coil... 2 9.. TUN 20 with 4-row coil... 24 9.8. TUN 20 with 6-row coil... 2 9.9. TUN 2 with 4-row coil... 26 9.0. TUN 2 with 6-row coil... 2 9.. TUN 40 with 4-row coil... 28 9.2. TUN 40 with 6-row coil... 29 9.. TUN 40P with 4-row coil... 0 9.4. TUN 40P with 6-row coil... 0. Yields and temperatures different from the nominal func oning value in hea ng mode... 2. Ven la on characteris c curves... 4.. TUN 0-4 rows... 4.2. TUN 0P - 4 rows..... TUN 4 rows... 6.4. TUN 20-4 rows..... TUN 2-4 rows... 8.6. TUN 40-4 rows... 9.. TUN 40P - 4 rows... 40 2. Pressure drops of filters due to fouling... 4 2.. Pressure drop of flat filters due to fouling:... 4 2.2. Pressure drop of bag filters due to fouling:... 4. Opera onal limits... 42 4. Sound data... 42. Dimensional data... 4 6. General warnings for installer... 44 6.. Preserva on of the documenta on... 44 6.2. Warnings regarding safety and installa on standards... 44. General safety prescrip ons... 44 8. Installa on... 4 8.. Minimum technical spaces... 4 8.2. Installa on of the unit... 4 8.. Aeraulic connec ons... 4 8.4. Hydraulic connec ons: draining condensa on... 4 8.. Hydraulic connec ons: water coil... 4 9. Reposi oning of internal components... 46 9.. Water hea ng or cooling coil... 46 20. Electric connec ons... 46 20.. Specifica ons of the connec on cables... 46 20.2. onnec on to mains power supply... 46 20.. Electric ba ery connec on... 4 20.4. Electric motor connec on... 4 20.. onnec on with electronic thermostat WMT0... 4 20.6. onnec on with control panel WMT0... 4 2. Maintenance... 48 2.. Rou ne maintenance... 48 2.2. Maintenance of filters if present... 48 2.. Maintenance of fans... 48 2.4. Maintenance of coils... 48 22. Disposal of unit... 48 2. Accessory dimensional data... 49 2.. Mixing chamber 2 dampers M2S... 49 2.2. Mixing chamber dampers MS... 0 2.. So bag filter sec on FTF... 2.4. Sec on with post-hea ng coil PBE... 2.. Module with silencer baffles SSL... 2 2.6. Return ven la ng sec on with a g4 filter VRF... 2 2.. Intake damper SAS... 2.8. 2-Area damper S2Z (0-0%)... 2.9. Flow grid with adjustable louvers GMD... 4 2.0. Intake grid GAP... 4 2.. Plenum with circular flow a achments PMM... 2.2. losed flow plenum PM... 24. Motor/s wiring diagram... 6 24.. TUN 0... 6 24.2. TUN 0P... 6 24.. TUN 20 2... 24.4. TUN 40 40P... 2. ontrol panel wiring diagram... 8 2.. TUN 0 with WMT... 8 2.2. TUN 0 with WMT0... 8 2.. TUN 0P - with WMT... 9 2.4. TUN 0P - with WMT0... 9 2.. TUN 20 with WMT... 60 2.6. TUN 20-2 with WMT0... 60 2.. TUN 40 with WMT... 6 2.8. TUN 40 with WMT0... 6 26. A er-sales services... 62 Aermec cod. 68080_0.09

AERME S.p.A. 040 Bevilacqua (VR) Italy Via Roma, 996 Tel. (+9) 0442 6 www.aermec. com DIHIARAZIONE DI ONFORMITA DELARATION OF ONFORMITY DÉLARATION DE ONFORMITÉ KONFORMITÄTSERKLÄRUNG Tipo macchina / Type of unit / Type de machine / Maschinentyp Unità di condizionamento, Air conditioning units Unités de conditionnement d'air, Klimageräte Modello / Model / Modèle / Modell Matricola / Serial Nr / Numéro de série / Seriennummer La macchina è conforme alle disposizioni contenute nelle seguenti direttive: / The unit complies with the provisions contained in the following directives: / La machine est conforme aux dispositions contenues dans les directives suivantes: / Das Gerät entspricht den Bestimmungen der folgenden Richtlinien enthaltenen: 2006/42/E Direttiva Macchine / Machine Directive / Machine Directive / Maschinenrichtlinie 2006/9/E Direttiva Bassa Tensione / Low voltage Directive / Basse Tension / Niederspannungsrichtlinie 2004/08/E Direttiva EM / EM Directive / EM Directive / EMV-Richtlinie La persona autorizzata a costituire il fascicolo tecnico è: / The person authorized to compile the technical file is: / La personne autorisée à constituer le dossier technique est: / Die Person berechtigt, die technischen Unterlagen zusammenzustellen: Alberto Foroni: via a' Magre, 4-06 Isola della Scala (VR) Bevilacqua, 2/02/20 Luigi Zucchi 4 Aermec cod. 68080_0.09

. GERAL STANDARDS ATTTION The manufacturer reserves the right to make any modifications, at any time, considered necessary to improve the products and is not obliged to add these modifications to machines that have already been fabricated, delivered or are under construction. Warranty conditions are however subject to general sale conditions envisioned at the time the contact is drawn up. ATTTION The appliance cannot be used:. for outdoor air handling 2. for installation in humid environments. for installation in explosive atmospheres 4. for installation in corrosive atmospheres. Make sure the environment where the appliance is installed has no substances which could corrode the aluminium fins. This manual is an integral part of the documentation attached to the unit. It must be kept for future reference and accompany the unit during its whole lifetime. The manual defines the purpose for which the unit was built, establishes its correct installation and its use restrictions.. This manual describes all the use, installation and maintenance instructions for the unit and the main accident-prevention standards. 2. Read all the information provided in this manual carefully before installing, commissioning, using, servicing or cleaning the unit. Pay particular attention to the user regulations accompanied by DANGER or ATTTION in so much as, if not complied with, the machine or objects may be damaged and/or persons injured.. For the anomalies not contemplates by this manual, contact the area After-sales Service as soon as possible. 4. Aermec S.p.A. declines all responsibility for any damage due to improper use of the machine, partial or hasty reading of the information contained in this manual.. Installation and maintenance must be carried out by expert and qualified personnel for electric/electronic installations and air conditioning, with the requisites foreseen by law 46/90 and/or by DPR 80/200, registered at the local HAMBER OF OMMERE.I.A.A. Otherwise Aermec S.p.A. declines all responsibility for the safety of the product. THE MANUFATURING OMPANY DELINES ALL LIABILITY FOR INJURY/DAMAGE AUSED TO PERSONS/ANIMALS OR OBJETS DUE TO FAILURE TO OMPLY WITH THE INSTRUTIONS AND STANDARDS ONTAINED IN THIS MANUAL. Though an adequate risk analysis has been carried out during designing of TUN units, PAY ATTTION to pictograms on the unit which make it easier to read the manual, quickly catching the reader's attention concerning risk situations which cannot be prevented or sufficiently limited through use of technical protective measures and equipment. GERI DANGER SIGN Meticulously observe all the indications placed next to the pictogram. Failure to comply with these indications can trigger dangerous situations with possible consequent harm to the health of the operator and of the user in general. DANGEROUS ELETRIAL VOLTAGE SIGN Meticulously observe all the indications placed next to the pictogram. The sign indicates components of the unit or, in this manual, identifies actions which could trigger risks of an electric nature. GERI PROHIBITION SIGN Meticulously observe all the indications placed next to the pictogram which limits some actions in order to provide the operator with greater safety. MAIN WARRANTY ONDITIONS The warranty does not cover damage caused by incorrect installation of the unit by the installer. The warranty does not cover damage caused by improper use. The manufacturer is not responsible for injuries to the installer or user caused by incorrect installation or improper use of the unit. The appliance must be installed in such a way as to make maintenance and/or repairs to be carried out possible. The warranty does not cover the costs for ladders, scaffolding or other elevation systems that may become necessary for carrying out servicing under warranty. The warranty is void in the following cases: service and repairs carried out by personnel or companies that are not authorised; the unit has been previously repaired or modified using non-original spare parts; the unit has not undergone suitable maintenance; whenever the instructions explained in this manual are not followed; whenever unauthorised modifications are made. Aermec cod. 68080_0.09

2. DESRIPTION OF THE UNIT The air-conditioning units of the TUN series are intended for civil, commercial and hotel systems in small to medium sized environments. The units are arranged to be installed:. VERTIALLY ¹ 2. HORIZONTALLY ¹ in order to be more versatile. This type of unit can serve several rooms by means of a distribution plenum. The units in this series are distinguished by their compactness, low noise and wide range of accessories.. DESRIPTION OF OMPONTS FRAMEWORK Support structure made of galvanised steel panels insulated internally and also externally on demand. Specific brackets supplied with the unit facilitate wall fastening. The galvanised steel condensation drip tray is provided with a drain fitting on both sides and is suitable both for horizontal and vertical installation of the unit. 4. ONFIGURATOR Field Description,2, TUN 4, SIZE 0 - - 20-2 - 40 6 VERSION 4 4-row water coil 6 6-row water coil ONFIGURATION Standard P Powered (only for sizes 0-40) HORIZONTAL INSTALLATION Flow ELETRI FAN UNIT This consists in high performance double intake centrifugal fans with blades facing forwards. The electric motor is coupled directly to the fans. It is multispeed, three of which can be selected on the control panel (AESSORY). HEAT EXHANGE OIL Made with copper pipes and aluminium louvered fins blocked by mechanical expansion of the pipes. They are supplied with threaded sleeves for the hydraulic connections. A version is also available with direct expansion coils made with copper pipes and aluminium louvered fins blocked by mechanical expansion of the pipes (2 rows). Intake O Lower intake losing panel with filter support G2 Filter G4 Filter (accessory) FILTRATION Air-filtering relies on class G2 synthetic filters positioned on intake. The filters are easily accessible for maintenance and cleaning. For the FTF accessory, filtering is carried out through F6 filtering degree soft bag filters. For higher filtering degrees, please contact our Sales Technical Dept. VERTIAL INSTALLATION Flow Side intake Key to reading When placing an order, you must specify.. The type of installation (horizontal or vertical) 2. Insulated panels of support structure. ONLY EXTERNALLY (standard) OR ALSO INTERNALLY on demand Lower intake O 6 Aermec cod. 68080_0.09

. AESSORIES M2S MIXING HAMBER 2 DAMPERS Section made of galvanised steel sheet with two air calibration dampers and louvers made of galvanised sheet steel. 0 mm louver pitch; 8 mm motorised regulation pin made of galvanised steel. MS MIXING HAMBER DAMPERS Section made of galvanised steel sheet with three air calibration dampers and louvers made of galvanised sheet steel. 0 mm louver pitch; 8 mm motorised regulation pins made of galvanised steel. It must be coupled with the VRF accessory. FTF SOFT BAG FILTER SETION Section made of galvanised steel sheet with F6 filtering degree soft bag filters. For different filtering degrees, please contact the Aermec Sales Technical Dept. It must be coupled with a powered unit. B2R 2 ROW WATER OIL For 4-pipe systems, positioned internally, downstream the main coil. The threaded sleeves for the hydraulic connections and the air bleeding valve are supplied. PBE SETION WITH POST HEATING OIL The electric coil consists of armoured resistances fitted with a twin safety thermostat. SSL MODULE WITH SILER BAFFLES Section made of galvanised steel sheet with mineral wool silencer baffles covered in a polyethylene film in order to prevent flaking. S2Z 2 AREA DAMPER 0 0% Damper made of galvanised steel sheet with opposite louvers for the external air flow to blend with the air circulation flow. 0 mm louver pitch; 8 mm motorised regulation pin made of galvanised steel. VRF RETURN VTILATING SETION WITH A G4 FILTER Ventilating unit equipped with an electronic rev shifter, contained in a galvanised steel sheet section with flat filters having a G4 efficiency (9). PMM PLUM WITH MULTIPLE IRULAR FLOW ATTAHMTS. mm Plenum made of hot galvanised sheet metal. The plenum has multi-diameter circular plastic fittings (200 mm, 80 mm and 0 mm) for circular pipes to be connected. PM LOSED FLOW PLUM. mm Plenum made of hot galvanised sheet metal. The plenum allows the flow to turn 90. The installer must make the flow aperture. SAS INTAKE DAMPER Air calibration damper with louvers made of galvanised sheet steel. 0 mm louver pitch; 8 mm motorised regulation pin made of galvanised steel. GMD FLOW GRID WITH ADJUSTABLE LOUVERS Grid with double row adjustable louvers for air to be introduced in the relative room. It can be installed directly on to the appliance by removing the flanges or on to the wall. GAP INTAKE GRID With louvers tilted at 4 ; it can be installed directly on to the appliance by removing the flanges or on to the wall. FPI DOOR FLANGE SUTION FILTERS G4 ONTROL PANELS PX ONTROL PANEL WITH ONLY THE SWITH OVER WMT 0 ELETRO MEHANIAL THERMOSTAT For fan coils installed in 2-pipe systems. The panel must be installed on the wall and protected electrically with an internal fuse. It has the following functions: on / off switch; cursor to select the heating / cooling modes (manual season change); cursor to select the fan speed (high, medium and low); temperature selector (+ to 0 ). WMT 0 ONTROL PANEL For fan coils installed on the wall. ontrols the fan coil operation according to the set mode. The panel must be wall mounted; it is to be used in 4-pipe and 2-pipe systems and systems with 2-pipes with resistance, with the possibility of connecting two ON - OFF type valves for the cut-off of the coil supply water. The panel is protected electrically by an internal fuse. The control has the following functions: ) cursor to select the cooling or heating mode; 2) manual season change; ) manual selection of the fan speed; 4) selection of the desired room temperature (+ 0 to 0 ); ) 2-pipe system management; 6) 4-pipe system management; ) 2-pipe system management (cooling) + electrical resistance (heating); 8) thermostatic ventilation; 9) continuous ventilation; 0) continuous ventilation in cooling mode and thermostatic in heating mode. ompatibility TUN0 TUN TUN20 TUN2 TUN40 TUN40P M2S M2S M2S2 M2S M2S4 M2S4 M2S MS MS MS2 MS MS4 MS4 MS FTF FTF FTF2 FTF FTF4 FTF4 FTF B2R B2R B2R2 B2R B2R4 B2R4 B2R PBE PBE PBE PBE4 PBE PBE6 PBE SSL SSL SSL2 SSL SSL4 SSL4 SSL S2Z S2Z S2Z2 S2Z S2Z4 S2Z4 S2Z VRF VRF VRF VRF4 VRF VRF6 VRF PMM PMM PMM2 PMM PMM4 PMM4 PMM PM PM PM2 PM PM4 PM4 PM SAS SAS SAS2 SAS SAS4 SAS4 SAS GMD GMD GMD2 GMD GMD4 GMD4 GMD GAP GAP GAP2 GAP GAP4 GAP4 GAP FPI FPI FPI2 FPI FPI4 FPI4 FPI PX (2) (2) WMT 0 () () () (2) (2) WMT 0 () () () (2) (2) Key to reading. SIT is to be used and the 2A fuse is to be replaced with a 4A fuse 2. Install a relay, one per speed Aermec cod. 68080_0.09

6. AESSORY OUPLING 6.. HORIZONTAL INSTALLATION 2 DAMPERS ATTTION The photograph is only intended to highlight how the accessories can be coupled and is not an example of the system. INTAKE TUN TUN M2S SSL FTF 8 Aermec cod. 68080_0.09

FLOW HOOSE BETWE PBE SSL FTF PM PMM SAS GMD Aermec cod. 68080_0.09 9

6.2. HORIZONTAL INSTALLATION SINGLE FLOW 2 FRONT DAMPERS INTAKE TUN HOOSE BETWE GAP TUN SAS SSL FTF S2Z ATTTION The photograph is only intended to highlight how the accessories can be coupled and is not an example of the system. 0 Aermec cod. 68080_0.09

FLOW HOOSE BETWE PBE SSL FTF PM PMM SAS GMD Aermec cod. 68080_0.09

6.. HORIZONTAL INSTALLATION DAMPERS INTAKE TUN HOOSE BETWE GAP TUN SAS SSL VRF MS FTF ATTTION The photograph is only intended to highlight how the accessories can be coupled and is not an example of the system. 2 Aermec cod. 68080_0.09

FLOW HOOSE BETWE PBE SSL FTF PM PMM SAS GMD Aermec cod. 68080_0.09

S2Z 2-are SAS Damper FLOW FTF Soft bag filter section SSL Module with silencer baffles SAS Damper FTF Soft bag filter section SSL Module with silencer baffles TUN PBE Section with postheating coil PM losed flow plenum PMM Plenum with multiple circular flow attachments GMD Flow grid with adjustable louvers 4 Aermec cod. 68080_0.09

a damper (0-0%) GAP Intake grid M2S Mixing chamber 2 dampers GAP Intake grid SAS Damper SSL Module with silencer baffles FTF Soft bag filter section VRF Return ventilating section with a G4 filter SSL Module with silencer baffles MS Mixing chamber dampers FTF Soft bag filter section INTAKE Aermec cod. 68080_0.09

. TEHNIAL DATA Model TUN0 TUN0P TUN TUN20 TUN2 TUN40 TUN40P 4-row coil ¹ total kw 4. 4. 9. 2. 6. 2. 26.4 sensitive kw.6.6 6.6 8..4 6. 8.2 ooling capacity 6-row coil ¹ total kw 6.2 6.2. 4. 8. 26.6 29.4 sensitive kw 4.4 4.4.6 9.8 2. 8. 20. 4-row direct expansion coil total kw 6.6 6.6.0 4.2 9.2 0. 4. sensitive kw 4.2 4.2.0 9. 2. 9.4 22. Water flow rate 4-row coil l/h 804 804 99 24 282 4002 46 6-row coil l/h 02 02 90 2420 84 42 0 Pressure drops 4-row coil kpa 6 60 6 6-row coil kpa 9 9 4 20 20 28 4-row coil kw.2 6.6 9.0 24.9 2. 46.. Heating capacity 6-row coil kw 2. 8. 2. 2..4 2.2 6. 4-row coil kw. 6.4 9. 2. 6.0 2.9 0.8 6-row coil kw 6..2 0..6.6 28.9 4.8 Water flow rate 4-row coil l/h 98 98 66 28 28 4089 44 6-row coil l/h 09 09 849 240 0 4 4909 Pressure drops 4-row coil kpa 4 4 2 24 46 4 6-row coil kpa 24 4 28 20 4 PIPE SYSTEM YIELDS Heating capacity 2-row water coil kw.. 20. 2.9.8 Water flow rate l/h 609 609 026 9 92 2444 286 Pressure drop kpa 4 4 0 0 Nominal air flow rate m /h 900 900 00 2000 200 4000 4000 l/s 20 06 4 28 66 Useful static pressure Pa 0 0 0 0 0 20 220 FANS Fans N 2 2 2 2 Motors N 2 2 2 2 Poles N 2 2 2 4 4 4 4 Total input power W 886 84 Input current A.6...9.8.. Fan power supply V/Ph/Hz 20V//0Hz ELETRI OIL Electric coil capacity kw 4 6 8 0 2 20 20 electric coil stages n 2 2 2 2 2 2 2 Electric power supply V/Ph/Hz 400V//0Hz FILTERS Efficiency of flat filters G2 or G4 G2 or G4 G2 or G4 G2 or G4 G2 or G4 G2 or G4 G2 or G4 Efficiency of soft bag filters F6 F6 F6 F6 F6 F6 F6 SOUND DATA Sound Pressure db(a) Sound power db(a) 68,0,0 2,0,0 8,0 9,0 80,0 ONNETIONS oil collectors Ø Direct expansion coil pipes IN Øi mm 6 6 6 6 6 22 22 OUT Øi mm 22 22 22 22 22 28 28 ondensate drain Ø /4 /4 /4 /4 /4 /4 /4 Nominal reference conditions. Entering air temperature 2 d.b. 9 w.b. Inlet water temperature Outlet water temperature 2 2. Entering air temperature 2 d.b. 9 w.b. Average evaporation temperature 2. Entering air temperature 0 Inlet water temperature 0 Outlet water temperature 60 4. Entering air temperature 20 Inlet water temperature 4 Outlet water temperature 0. Entering air temperature Inlet water temperature 0 Outlet water temperature 60 6. At nominal air flow rate with a 4-row coil. In compliance with standard 9 8. In compliance with standard UNI ISO 964-2 6 Aermec cod. 68080_0.09

DIMSIONS WEIGHTS with packaging Height mm Width mm Depth mm Weight kg DIMSIONS WEIGHTS unit without packaging (HORIZONTAL ONFIGURATION AND EXTRATOR ONFIGURATION) Height mm 00 00 00 90 90 90 90 Width mm 00 00 00 00 4 4 200 Depth mm 00 00 00 80 80 80 000 onnection projection Mm 82 82 82 82 82 82 82 NET WEIGHT UNITS WITH OILS EXTRATOR With 4-row coil kg 4 9 88 88 08 With 6-row coil kg 8 49 6 92 92 08 Extractor kg 8. WEIGHT OF AESSORIES Sheaves DESRIPTION TDA0 TDA0P TDA TDA20 TDA2 TDA40 TDA40P Intake grid GAP kg 2 2 2 4 4 Flow grid with adjustable louvers GMD kg 4 4 4 6 6 Intake damper SAS kg.. 4.8 6.9.9.9.86 2-area damper 0-0 S2Z kg.0.0 4. 6.0 8.2 8.2 2. Mixing chamber 2 dampers M2S kg 9 9 22.60.2.2 4.26 Mixing chamber dampers MS kg 2. 2. 4.0 4.0 6.88 6.88 8.4 Soft bag filters section FTF kg.9.9 2.29.48 4.9 4.9 9.60 losed flow plenum PM kg 2.0 28.0 6. 6. 49.4 Return ventilating section with filter VRF kg.9.9 0.49 8.42.6.6.49 Plenum with multiple circular flow attachments PMM kg 22.90 28 6. 6. 4. Modules with silencer baffles SSL kg.0.0 4. 42.90 2.96 2.96 2. Section with electric post-heating coil PBE kg 6 6 2 2 29 8 4-pipe systems 2 R water post-heating coil B2R kg 9 2 Door flange suction filters G4 FPI kg.48.48 2.4 2.4 2.22 2.22 4.20 ontrol panel with switch-over PX kg 0.0 0.0 0.0 0.0 0.0 0.0 0.0 ontrol panel with thermostat WMT0 kg 0.0 0.0 0.0 0.0 0.0 0.0 0.0 ontrol panel with thermostat WMT0 kg 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Aermec cod. 68080_0.09

9. YIELDS AND TEMPERATURES DIFFERT FROM THE NOMINAL FUNTIONING VALUE IN OOLING MODE HEATING MODE OOLING MODE 9.. TUN 0 WITH 4 ROW OIL Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).8 2.9.8.4.8.8.9.9 4. 4. 4.4 4.4 4.9 2.9 4.9. 4.9.8 4.8 4.2 4.8 4.6 4.8 4.8 9 6. 2.9 6.0. 6.0. 6.0 4. 6.0 4. 6.0 4. 2..... 4.. 4..2 4. 2 8.. 8.6 4. 8.6 4. 8.6 4.. 2....... 4. 4. 4. 4. 4.4 2. 4.4. 4.4. 4.4.9 4. 4.4 4. 4. 9.6 2..6..6..6.9.6 4..6 4. 2 6.9. 6.9. 6.9.9 6.8 4. 6.8 4. 2 8.2. 8.2.9 8.2 4. 8.2 4. 2.6 2. 2.9 2.8.....9.9 4. 4..8 2.4. 2.8.8.2.9. 4. 4. 4.2 4.2 9. 2.4. 2.9...0.. 4.. 4. 2 6.4 2.9 6.4. 6.4. 6.4 4. 6. 4. 2.8.2.8.. 4.. 4. 2.9 2..0 2.9.....9.9 4. 4. 4.0 2. 4.0 2.9 4.0. 4.0. 4. 4. 4. 4. 9.2 2..2 2.9.2..2..2 4..2 4. 2 6. 2.9 6.4..2. 6.4 4. 6.4 4. 2.8..8..8 4..8 4. 2.4 2.2 2.6 2.6 2.9 2.9.....9.9. 2.. 2....6..8.8.9.9 9 4. 2. 4. 2. 4.. 4.. 4..9 4. 4. 2 6.0 2. 6.0. 6.0. 6.0.9 6.0 4. 2.4..4...9. 4..9.9 2. 2. 2. 2....... 2.6.9 2.8 2..0 2.8.2.2.... 9 4. 2.0 4. 2.4 4. 2.8 4..2 4.2. 4.2.9 2.4 2.4.4 2.8.4.2.4.6.4.9 2 6.8 2.8 6.8.2 6.8.6 6.8.9 2. 2. 2.4 2.4 2. 2........ 2.. 2..2 2.9...... 9 4. 2. 4. 2. 4. 2.9 4.. 4.. 4..9 2.6 2..6 2.9......9 2 6.9 2.9 6.9. 6.9. 6.9.9.8.8 2. 2. 2. 2. 2.9 2.9.... 2..8 2.6 2.2 2. 2..0.0.... 9.8.8.8 2.. 2..8..8..9. 2. 2..0 2..0..0..0. 2 6.4 2. 6.4. 6.4. 6.4....8.8 2. 2. 2. 2......6.4 2.0.9 2. 2. 2. 2..... 9 2.9. 2.9.9.0 2..2 2.8.4... 2 4.4 2.0 4.4 2.4 4.4 2.8 4.4.2 4.4.4 2.8 2.4.8 2.8.8.2.8.4 R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).6.6 2.0 2.0 2.4 2.4 2. 2..... 2.2. 2.2 2. 2.4 2.4 2. 2..... 9.4..4 2.. 2.. 2.9.4... 2 4.6 2. 4.6 2. 4.6 2.9 4.6. 4.6. 2 6.0 2..9 2.9.9..9..... 2. 2. 2. 2. 2.9 2.9.....8.8 2. 2. 2. 2. 2.9 2.9.. 9 2..4 2..8 2. 2.2 2.9 2....2.2 2 4.0.8 4.0 2.2 4.0 2.6 4.0.0 4.0. 2.4 2.2.4 2.6.4.0.4.2 0.8 0.8.4.4.8.8 2. 2. 2. 2. 2.9 2.9 0.8 0.8.4.4.8.8 2. 2. 2. 2. 2.9 2.9 9. 0.8..4 2..9 2.4 2.4 2. 2. 2.9 2.9 2....9.2 2..4 2.8..0 2 4. 2.0 4. 2.4 4. 2.8 4..0.2.2.6.6 2.0 2.0 2. 2. 2. 2. 2.9 2.9..2.6.6 2.0 2.0 2.4 2.4 2. 2. 2.9 2.9 9 2..2 2..6 2.4 2. 2. 2. 2. 2. 2.9 2.9 2.6..6 2..6 2..6 2.9.6. 2 4.9 2. 4.9 2. 4.9 2.9 4.9. 0.8 0.8.... 2. 2. 2. 2. 2. 2. 0.8 0.8.... 2. 2. 2. 2. 2. 2. 9. 0.8.6..9.8 2.2 2.2 2. 2. 2. 2. 2 2.9.4 2.9.8 2.9 2.2. 2.6. 2.9 2 4..8 4. 2.2 4. 2.6 4. 2.8 0.4 0.4 0.8 0.8.4.4.9.9 2. 2. 2. 2. 0.4 0.4 0.8 0.8.4.4.9.9 2. 2. 2. 2. 9 0.4 0.4 0.8 0.8.4.4.9.9 2. 2. 2. 2. 2. 0.9.9.4 2.2.9 2. 2.4 2. 2.6 2.4..4.9. 2.. 2. 0.8 0.8.2.2.6.6 2.0 2.0 2. 2. 2. 2. 0.8 0.8.2.2.6.6 2.0 2.0 2. 2. 2. 2. 9. 0.8..2.6.6 2.0 2.0 2. 2. 2. 2. 2 2..2 2..6 2. 2.0 2.6 2. 2. 2. 2.8.6.8 2.0.8 2.4.8 2.6 0. 0. 0.8 0.8.... 2. 2. 2. 2. 0. 0. 0.8 0.8.... 2. 2. 2. 2. 9 0. 0. 0.8 0.8.... 2.2 2.2 2. 2. 2.4 0.8.. 2.0.8 2. 2. 2.4 2.4 2..4..8. 2.2.2 2.4 0. 0. 0.4 0.4 0.8 0.8.4.4.9.9 2. 2. 0. 0. 0.4 0.4 0.8 0.8.4.4.9.9 2. 2. 9 0. 0. 0.4 0.4 0.8 0.8.4.4.9.9 2. 2. 2 0.4 0.4 0.8 0.8...9.9 2. 2. 2.6 0.9 2.0.4 2..9 2. 2. R.t. w.b. ( ) Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) 8 Aermec cod. 68080_0.09

9.2. TUN 0 WITH 6 ROW OIL Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 4.. 4.. 4. 4.2 4. 4. 4.9 4.9...6..6..6 4.2.6 4.6...6. 9.0.2 6.9. 6.9 4.2 6.9 4.6 6.9. 6.9. 2 8.4. 8.4 4. 8.4 4.6 8..0 8.. 2 9.9 4. 9.9 4. 9.9.0 9.9.2..0.8. 4.0 4.0 4. 4. 4. 4. 4.9 4.9..0...0.9. 4.4. 4.9.2. 9 6..0 6.4. 6.4.9 6.4 4.4 6.4 4.8 6.4.0 2.9.4.9.9.9 4.4.9 4.8.9.0 2 9..9 9. 4. 9.4 4.8 9.4.0.0 2.6...6.6 4.0 4.0 4.4 4.4 4. 4. 4. 2. 4.. 4.4.6 4. 4. 4. 4.6 4.8 4.8 9.8 2..8.2.8.6.8 4..8 4..8 4.8 2.4.2..6. 4.. 4.. 4.8 2 8.9.6 8.9 4. 8.9 4. 8.9 4.8.4 2.8.4..6.6 4.0 4.0 4. 4. 4. 4. 4.6 2.8 4.6. 4.6. 4.6 4.2 4. 4.6 4. 4. 9 6.0 2.8 6.0.2 6.0..9 4.2.9 4.6.9 4.8 2.4.2.4..9 4.2.4 4.6.4 4.8 2 9.0.6 9.0 4. 8.9 4.6 8.9 4.8 2.8 2..0.0.4.4.8.8 4. 4. 4. 4. 4.0 2. 4.0.0 4..4 4.2.9 4.4 4.4 4. 4. 9.4 2..4.0.4..4.9.4 4.4.4 4.6 2 6.9.0 6.9.4 6.9.9 6.9 4. 6.9 4.6 2 8..4 8..9 8.4 4. 8.4 4. 2.2 2. 2.6 2.6.... 4.0 4.0 4.2 4.2.0 2..2 2.6.4... 4.0 4.0 4.2 4.2 9 4. 2.2 4. 2. 4.. 4..6 4.8 4. 4.9 4. 2 6. 2. 6.2.2 6.2.6 6.2 4. 6.2 4. 2.9.2.9.6.8 4..8 4. 2. 2. 2. 2..2.2.6.6 4.0 4.0 4.2 4.2.6 2..6 2.8.6.2.. 4.0 4.0 4.2 4.2 9.0 2..0 2.8 4.9.2 4.9. 4.9 4. 4.9 4.4 2 6.4 2.8 6.4.2 6.4. 6.4 4. 6.4 4. 2.9.2.9.6.9 4..9 4. 2.0 2.0 2. 2. 2.9 2.9.4.4.8.8 4.0 4.0 2.8 2.0.0 2..2.0.4.4.8.8 4.0 4.0 9 4. 2. 4. 2. 4..0 4..4 4.4.9 4. 4. 2.8 2..8.0.8.4.8.9.8 4. 2.4.0.4.4.4.9.4 4... 2. 2. 2.6 2.6.....8.8.8. 2. 2. 2. 2....6.6.8.8 9..6. 2..4 2.6.6..9.6 4.0.9 2.0 2.2.0 2..0..0.6..8 2 6. 2. 6.. 6..6 6..8 R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).8.8 2. 2. 2. 2....6.6.8.8 2..8 2.6 2. 2.8 2.8...6.6.8.8 9.9.9.9 2..8 2.8.8.2.9. 4.0.9 2. 2.. 2.8..2....9 2 6.9 2. 6.8.2 6.8.6 6.8.9.. 2.0 2.0 2. 2. 2.9 2.9.4.4.6.6.. 2. 2.0 2. 2. 2.9 2.9.4.4.6.6 9.0.. 2.0. 2...0.... 2 4.6 2.0 4.6 2. 4.6 2.9 4.6.4 4.6.6 2 6.2 2. 6.2 2.9 6.2.4 6.2.6 0.9 0.9.6.6 2. 2. 2.6 2.6.... 0.9 0.9.6.6 2. 2. 2.6 2.6.... 9.4 0.9 2.0. 2.4 2. 2.8 2..2.2.4.4 2.6.6.6 2.. 2.6.9. 4.0. 2.4 2.2.4 2.6.4..4..4.4.8.8 2. 2. 2. 2.......4.8.8 2. 2. 2. 2..... 9 2..4 2..8 2. 2. 2.9 2.8...4.4 2 4..8 4. 2. 4. 2. 4..2 4..4 2. 2.. 2...2.6.4 0.9 0.9.. 2.0 2.0 2. 2. 2.9 2.9.. 0.9 0.9.. 2.0 2.0 2. 2. 2.9 2.9.. 9.4 0.9.8. 2.2 2.0 2. 2. 2.9 2.9.2.2 2... 2.0.4 2.. 2.9.6.2 2.0 2.0 4.9 2. 4.9 2.9 4.9. 0.4 0.4 0.9 0.9.6.6 2. 2. 2.6 2.6 2.9 2.9 0.4 0.4 0.9 0.9.6.6 2. 2. 2.6 2.6 2.9 2.9 9 0. 0.4 0.9 0.9.6.6 2. 2. 2.6 2.6 2.9 2.9 2..0 2.. 2. 2. 2.9 2.. 2.9 2.9..9 2. 4.0 2.6 4. 2.8 0.9 0.9.4.4.8.8 2. 2. 2. 2. 2.9 2.9 0.9 0.9.4.4.8.8 2. 2. 2. 2. 2.9 2.9 9. 0.9..4.8.8 2. 2. 2. 2. 2.9 2.9 2 2.8.4 2.8.8 2.9 2..0 2.8..0 2 4.4.8 4.4 2. 4.4 2. 4.4 2.9 0.4 0.4.0.0.. 2.0 2.0 2. 2. 2. 2. 0.4 0.4.0.0.. 2.0 2.0 2. 2. 2. 2. 9 0.4 0.4.0.0.. 2.0 2.0 2. 2. 2. 2. 2.6 0.9.9. 2. 2.0 2.6 2. 2.8 2.8 2... 2.0.6 2.4.6 2. 0. 0. 0.4 0.4 0.9 0.9.6.6 2. 2. 2.4 2.4 0. 0. 0.4 0.4 0.9 0.9.6.6 2.2 2.2 2.4 2.4 9 0. 0. 0.4 0.4 0.9 0.9.6.6 2.2 2.2 2.4 2.4 2 0. 0.4 0.9 0.9.. 2.2 2.2 2.4 2.4 2.9.0 2.. 2. 2. 2.9 2.4 R.t. w.b. ( ) HEATING MODE OOLING MODE Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) Aermec cod. 68080_0.09 9

9.. TUN 0P WITH 4 ROW OIL HEATING MODE OOLING MODE Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 4.6. 4.6 4.0 4.6 4. 4. 4..2.2.4.4.9..9 4.0.9 4..9.0.9..9. 9... 4.0. 4...0.... 2 8.9 4.0 8.8 4.4 8.8 4.9 8.8.4 8.8. 2 0. 4.4 0. 4.9 0.4.4 0.4.6 4.0.2 4.0. 4.2 4.2 4. 4..0.0.2.2.4.2... 4.2. 4..4.2.. 9 6.8.2 6.8. 6.8 4.2 6.8 4. 6.8.2 6..4 2 8.4. 8. 4.2 8. 4. 8..2 8..4 2 0.0 4.2 0.0 4. 0.0. 9.9.4.2 2.8..4.8.8 4.2 4.2 4. 4. 4.9 4.9 4.6 2.9 4..4 4.6.9 4.8 4.4.0 4.9.. 9 6.2 2.9 6.2.4 6..9 6. 4.4 6. 4.9 6.. 2.8.4..9. 4.4. 4.9.. 2 9.4.9 9.4 4.4 9.4 4.9 9.4..6.0.6..8.8 4. 4. 4. 4. 4.9 4.9 4.9.0 4.9. 4.9 4.0 4.9 4. 4.9 4.9.0.0 9 6..0 6.. 6. 4.0 6. 4. 6..0 6..2 2.8..8 4.0 6. 4..8 4.9.8.2 2 9..9 9. 4.4 9.4 4.9 9.4. 2.9 2..2.2.6.6 4.0 4.0 4. 4. 4. 4. 4. 2. 4.2.2 4.. 4.4 4.2 4.6 4.6 4.8 4.8 9. 2...2... 4.2. 4.. 4.9 2..2... 4.2.2 4..2 4.9 2 8.9. 8.9 4.2 8.9 4. 8.9 4.9 2. 2. 2.8 2.8.2.2.. 4.2 4.2 4. 4..2 2.2.4 2.8.6.4.9.9 4. 4. 4. 4. 9 4.9 2.4 4.9 2.9 4.9.4.0.9. 4.4. 4.6 2 6.6 2.9 6.6.4 6.6.9 6.6 4.4 6.6 4.6 2 8..4 8..9 8. 4.4 8. 4.6 2.6 2. 2.9 2.9...8.8 4.2 4.2 4. 4..8 2..8.0.8..9.9 4.2 4.2 4. 4. 9.2 2..2.0.2..2 4.0.2 4..2 4. 2 6.8.0 6.. 6. 4.0 6. 4.4 6. 4. 2 8.4.4 8.4.9 8.4 4.4 8. 4. 2. 2. 2.6 2.6...6.6 4.0 4.0 4. 4..0 2.. 2...2.6.6 4.0 4.0 4. 4. 9 4.6 2.2 4.6 2. 4..2 4.6. 4. 4.2 4. 4. 2 6. 2. 6..2 6.. 6. 4.2 6. 4.4 2.8.2.8..8 4.2.8 4.4.6.6 2.2 2.2 2.8 2.8.... 4.0 4.0.9. 2.4 2. 2.8 2.8...8.8 4.0 4.0 9..8. 2..6 2.8.9. 4..9 4.2 4.2 2. 2.4. 2.9....8.4 4. 2. 2.9..4..9.0 4. R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).9.9 2.4 2.4 2.9 2.9...8.8 4.0 4.0 2.6 2.0 2. 2. 2.9 2.9...8.8 4.0 4.0 9 4. 2.0 4. 2. 4..0 4.. 4. 4.0 4.2 4.2 2.6 2..6.0.6..6.9.6 4.2 2.2 2.9.2.4.2.9.2 4.2.6.6 2. 2. 2.6 2.6...6.6.8.8.8.6 2.2 2.2 2.6 2.6...6.6.8.8 9.2..2 2.. 2...2...9.9 2 4.9 2.2 4.9 2. 4.9.2 4.9. 4.9.9 2 6.6 2. 6.6.2 6.. 6..9 0.9 0.9.6.6 2.2 2.2 2.8 2.8.... 0.9 0.9.. 2.2 2.2 2.8 2.8.... 9..0 2.. 2. 2. 2.9 2.9.... 2.8.8.8 2..9 2.8 4.. 4.2.6 2. 2.4. 2.8....6.4.4.9.9 2.4 2.4 2.8 2.8.......9.9 2.4 2.4 2.9 2.9.... 9 2.8. 2.8 2.0 2.9 2..0.0.... 2 4.4 2.0 4.4 2. 4..0 4..4 4.4. 2 6.0 2. 6.0 2.9 6.0.4 6.0..0.0.6.6 2. 2. 2.6 2.6.....0.0.6.6 2. 2. 2.6 2.6.... 9..0.9.6 2. 2.2 2. 2..... 2... 2..6 2.6..2.8.4 2.2 2.2.2 2..2..2.4 0. 0. 0.9 0.9.. 2. 2. 2.8 2.8.0.0 0. 0. 0.9 0.9.. 2. 2. 2.8 2.8.0.0 9 0. 0. 0.9 0.9.. 2. 2. 2.8 2.8.0.0 2.8.0 2.. 2. 2.. 2.9.2. 2 4..8 4. 2. 4.2 2.8 4..0 0.9 0.9.4.4.9.9 2.4 2.4 2.8 2.8.. 0.9 0.9.4.4.9.9 2.4 2.4 2.8 2.8.. 9. 0.9.6. 2.0 2.0 2.4 2.4 2.8 2.8.. 2.0..0 2.0.0 2..2.0..2 2 4. 2.0 4. 2. 4.6 2.9 4.6.2 0.4 0.4.0.0.6.6 2. 2. 2.6 2.6 2.8 2.8 0.4 0.4.0.0.6.6 2. 2. 2.6 2.6 2.8 2.8 9 0.4 0.4.0.0.6.6 2. 2. 2.6 2.6 2.8 2.8 2..0 2.0.6 2.4 2.2 2. 2. 2.9 2.9 2..6. 2..8 2.6.8 2.9 0. 0. 0. 0..0.0.. 2. 2. 2. 2. 0. 0. 0. 0..0.0.. 2. 2. 2. 2. 9 0. 0. 0. 0..0.0.. 2. 2. 2. 2. 2 0. 0..0.0.8.8 2. 2. 2. 2. 2 2.0. 2.4. 2.8 2..0 2. R.t. w.b. ( ) Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) 20 Aermec cod. 68080_0.09

9.4. TUN 0P WITH 6 ROW OIL Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).4 4.0.4 4..4... 6. 6. 6. 6. 6.9.9 6.9 4. 6.9.0 6.9.6 6.9 6. 6.9 6.4 9 8.6.9 8.6 4. 8.6.0 8.6.6 8. 6. 8. 6.4 2 0.4 4.4 0.4.0 0.4. 0. 6. 0. 6. 2 2. 4.9 2.. 2. 6.0 2. 6. 4.6.6 4. 4.2.0 4.8...8.8 6. 6. 6..6 6. 4.2 6. 4. 6.. 6.4.8 6.4 6. 9 8.0.6 8.0 4.2 8.0 4. 8.0..9.8.9 6. 2 9.8 4. 9.8 4. 9.8.2 9.8.8 9. 6. 2.8 4...2..8. 6.0.. 4..8 4.4 4.4.0.0...8.8.4.2..8.4 4..6 4.9.8. 6.0.8 9...2.8.2 4.4.2 4.9.2..2.8 2 9..8 9. 4.4 9. 4.9 9.. 9..8 2. 4.4. 4.9.0..0. 4.2.4 4.2.9 4. 4..0.0...8.8.8.4..9. 4...0.8.6.9.9 9.4.4.4.9.4 4..4.0.4...8 2 9.2.9 9.2 4.4.4.0 9.. 9..8 2. 4.4. 4.9....8.4.0.8.6 4.2 4.2 4. 4......0.0.0.6.0 4.2.2 4..4..6.6 9 6.. 6..6 6. 4.2 6. 4. 6..2 6.. 2 8.6.6 8. 4. 8. 4. 8..2 8.. 2 0. 4. 0. 4. 0..2 0.4. 2. 2.6.2.2.8.8 4.4 4.4.0.0.2.2.8 2. 4.0. 4..8 4.6 4.4.0.0.2.2 9.8 2..8.2.8.8.8 4. 6.0 4.9 6.0.2 2.8..8.8. 4.4. 4.9..2 2 9.8.8 9. 4.4 9. 4.9 9..2.0 2.8.4.4.9.9 4.4 4.4.0.0.2.2 4. 2.8 4..4 4..9 4.6 4..0.0.2.2 9 6.2 2.8 6..4 6..9 6. 4.4 6..0 6.. 2.9..9.9.9 4.4.9.0.9.2 2 9.9.8 9.8 4.4 9.8 4.9 9.8.2 2. 2....6.6 4.2 4.2 4. 4..0.0. 2.4..0.9.6 4. 4.2 4. 4..0.0 9.4 2..4.0..6.4 4.. 4..6.0 2.2.0.2.6.2 4..2 4..2 4.9 2 9.2.6 9. 4. 9. 4. 9. 4.9.9.9 2.6 2.6.2.2.8.8 4.4 4.4 4. 4. 2..9 2.8 2.6..2.8.8 4.4 4.4 4. 4. 9 4. 2.0 4. 2. 4.. 4.. 4.8 4.4.0 4. 2 6. 2. 6.2.2 6.2. 6. 4. 6. 4.6 2 8..2 8..8 8. 4. 8. 4.6 R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 2. 2. 2.8 2.8.4.4.9.9 4.4 4.4 4. 4.. 2.2.2 2.8.4.4.9.9 4.4 4.4 4. 4. 9 4.8 2.2 4.8 2.8 4.8. 4.8.9 4.9 4.4 4.9 4. 2 6.6 2.8 6.6. 6.6.9 6. 4.4 6. 4. 2 8.. 8..8 8. 4.4 8. 4..8.8 2. 2....6.6 4.2 4.2 4.4 4.4 2..8 2.6 2....6.6 4.2 4.2 4. 4. 9.8.9.8 2.4.9.0 4..6 4.4 4.2 4.6 4. 2. 2...0... 4..8 4.4 2..0..6. 4.. 4.4...9.9 2.6 2.6.2.2.8.8 4. 4....9.9 2.6 2.6...8.8 4. 4. 9.8. 2..9.0 2.6..2.9.9 4.2 4.2 2 4. 2.0 4. 2. 4.6. 4.8. 4.9 4.0 2 6. 2.6 6..2 6.. 6. 4.0.. 2. 2. 2.8 2.8...9.9 4. 4..8. 2. 2. 2.8 2.8.4.4.9.9 4.2 4.2 9... 2.2.4 2.8.6.4.9.9 4.2 4.2 2. 2.2. 2.8....8. 4. 2.0 2.8.0..0.8.0 4....9.9 2. 2....6.6.9.9...9.9 2. 2....6.6.9.9 9.8. 2.2.8 2. 2.4...6.6.9.9 2 4..9 4. 2.4 4.2.0 4.4. 4..8 2 6. 2.4 6..0 6.. 6..8 0. 0... 2.0 2.0 2.6 2.6...6.6 0. 0... 2.0 2.0 2. 2....6.6 9 0.6 0... 2.0 2.0 2. 2....6.6 2 2..2 2..9. 2..6.2.8. 2 4.9 2.0 4.9 2..0..0.4.... 2.2 2.2 2.8 2.8...6.6.... 2. 2. 2.8 2.8...6.6 9.6.0.9.6 2. 2. 2.8 2.8...6.6 2... 2.2.6 2....8.6 2. 2.2. 2..... 0.4 0.4.2.2.9.9 2. 2..... 0.4 0.4.2.2.9.9 2. 2..... 9 0.4 0.4.2.2.9.9 2. 2..... 2 2.0. 2.4.8 2.8 2.4.2.0.4.4 2 4.4.8 4.4 2.4 4.4 2.9 4..2 0. 0. 0. 0... 2.0 2.0 2. 2..0.0 0. 0. 0. 0... 2.0 2.0 2. 2..0.0 9 0. 0. 0. 0... 2.0 2.0 2. 2..0.0 2 0.6 0..2.2 2. 2.0 2. 2..0.0 2 2..2 2.9.9. 2.. 2.8 R.t. w.b. ( ) HEATING MODE OOLING MODE Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) Aermec cod. 68080_0.09 2

9.. TUN WITH 4 ROW OIL HEATING MODE OOLING MODE Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).0.2.0.9.0 6..2.2.9.9 8.2 8.2 9.0.2 9.0.9 9.0 6. 9.0.4 8.9 8. 8.9 8.4 9.2.2.2.9.2 6.6... 8.. 8.4 2..8. 6.6...4 8.0.4 8.4 2 6.0 6. 6.0.2.9.9.9 8. 6.0 4. 6.2. 6.4 6. 6.9 6.9.6.6.9.9 8.2 4.8 8.2. 8. 6.2 8.2.0 8.. 8. 8. 9 0.4 4.8 0.4. 0.4 6.2 0..0 0.. 0. 8.0 2 2.8. 2. 6.2 2. 6.9 2..6 2. 8.0 2. 6..2 6.9.2.6.2 8.0 4.8 4...0.8.8 6.4 6.4.2.2...0 4.2 6.9 4.9... 6..6..8. 9 9.4 4. 9.4. 9.4.8 9. 6. 9.4.2 9.4.6 2.8..8.8.8 6..8.2.8.6 2 4.4.8 4.4 6. 4..2 4..6.4 4...2.8.8 6. 6..2.2... 4..4.2.4.9.4 6.6..4.6.6 9 9. 4.4 9.6.2 9.6.9 9.6 6.6 9.6. 9.. 2 2.0..9.8 9.6 6.6.9..9.6 2 4..8 4.4 6. 4.4.2 4.4.6 4. 4.0 4.9 4.8.4.4 6.2 6.2 6.9 6.9.2.2 6. 4.0 6. 4. 6.6. 6. 6..0.0.. 9 8.8 4.0 8. 4.8 8.. 8. 6.2 8. 6.9 8.. 2. 4.... 6.2.0 6.9.0. 2.6.4.6 6.2.6 6.9.6.2..4 4.2 4.2.0.0.. 6.4 6.4 6.8 6.8 4.9..2 4..6.0 6.0.8 6. 6. 6.8 6.8 9... 4.2. 4.9.6.. 6..8 6.9 2 0. 4. 0..0 0.. 0.0 6. 0.0 6.8 2 2..0 2.. 2.6 6. 2.6 6.8.9. 4.4 4.4...8.8 6. 6. 6.8 6.8.8..8 4.4.8.2 6.0.9 6. 6. 6.8 6.8 9 8.0. 8.0 4.4 8.0..9.9.9 6.6.9 6.9 2 0. 4.4 0.. 0..8 0.2 6.6 0.2 6.9 2 2.8. 2.8.8 2.8 6. 2. 6.9.2.2 4.0 4.0 4. 4..4.4 6. 6. 6. 6. 4.6.2 4.8 4.0. 4.8.. 6.2 6.2 6. 6. 9.0..0 4.0 6.9 4..0.4. 6.2.2 6.6 2 9.4 4.0 9. 4. 9..4 9. 6.2 9. 6. 2.9 4..9.4.8 6..8 6. 2. 2..4.4 4.2 4.2.0.0.. 6. 6..0 2.4..4 4. 4..0.0.. 6. 6. 9. 2.6...6 4..9 4.9 6..8 6. 6.2 2 8.. 8. 4.2 8. 4.9 8.. 8.2 6.0 2 0.8 4. 0.8.0 0.8. 0.8 6. R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 2.9 2.9.. 4.4 4.4.... 6. 6. 4.0 2.9 4.. 4. 4....8.8 6. 6. 9 6.2.0 6.2. 6.2 4.4 6.2. 6..9 6.4 6.2 2 8.. 8. 4.4 8.. 8..8 8. 6.2 2.0 4.4.0..0.8.0 6. 2.4 2.4.2.2 4.0 4.0 4. 4..4.4.8.8 2.8 2.4..2 4.0 4.0 4. 4..4.4.8.8 9 4.9 2.4 4.9.2..9.4 4....9.9 2.4.2.4 4.0.4 4..4.4..8 2 0.0 4.0 0.0 4. 0.0.4 0.0.8.4.4 2. 2..4.4 4.2 4.2.0.0.4.4.4.4 2. 2..4.4 4.2 4.2.0.0.4.4 9 2...2 2..9.4 4. 4....4.4 2.8 2.6.8. 6.0 4. 6. 4.9 6.4. 2 8.. 8. 4.2 8. 4.9 8.. 2.2 2.2 2.9 2.9.6.6 4. 4..0.0.4.4 2.4 2.2 2.9 2.9.. 4.4 4.4...4.4 9 4. 2.2 4. 2.9 4.4. 4.6 4.4...4.4 2 6. 2.9 6.6. 6.6 4.4 6.6. 6.6.4 2 9..6 9. 4.4 9.. 9..4.. 2.4 2.4.2.2 4.0 4.0 4. 4..... 2.4 2.4.2.2 4.0 4.0 4. 4... 9 2.. 2.9 2.4..2 4. 4. 4. 4... 2. 2.4..2.4.9. 4..8. 2 8.0.2 8.0.9.9 4.6.9.0 0. 0..4.4 2.6 2.6.4.4 4.2 4.2 4.6 4.6 0. 0..4.4 2.6 2.6.. 4.2 4.2 4.6 4.6 9 0. 0..4.4 2.6 2.6.. 4.2 4.2 4.6 4.6 2 2... 2. 4..4 4. 4.2 4.9 4.6 2 6. 2.6 6.. 6.4 4. 6. 4..4.4 2.2 2.2 2.9 2.9.6.6 4. 4. 4. 4..4.4 2.2 2.2 2.9 2.9.6.6 4. 4. 4. 4. 9 2.0.4 2. 2.2.0.0.6.6 4. 4. 4. 4. 2 4.6 2.2 4.6 2.9 4.6.6 4.9 4.4.0 4.8 2. 2.9..6. 4.. 4. 0.6 0.6.. 2.4 2.4.2.2 4.0 4.0 4. 4. 0.6 0.6.. 2.4 2.4.2.2 4.0 4.0 4. 4. 9 0.6 0.6.. 2.4 2.4.2.2 4.0 4.0 4. 4. 2 2.6.. 2..6.2 4.2 4.0 4.4 4.4 2. 2.4...8.9.9 4.2 0. 0. 0. 0... 2.6 2.6...9.9 0. 0. 0. 0... 2.6 2.6...9.9 9 0. 0. 0. 0... 2.6 2.6...9.9 2 0. 0... 2. 2.6...9.9 2.0.6. 2. 4.. 4.6.8 R.t. w.b. ( ) Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) 22 Aermec cod. 68080_0.09

9.6. TUN WITH 6 ROW OIL Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 9.4 6. 9.4.2 9.4 8. 9. 8.9 0.6 9.8. 0.2 2. 6. 2..2 2. 8.0 2. 8.9 2.0 9.8 2.0 0.2 9. 6.2.0..0 8.0.0 8.9 4.9 9. 4.9 0.2 2 8.2. 8..9 8. 8.8 8.0 9. 8.0 0. 2 2..9 2. 8. 2.4 9.6 2.4 0. 8.. 8. 6. 8.6.6 9.2 8. 0.2 9.4 0.6 9.8.0.8.0 6. 0.9..0 8.4. 9..2 9.8 9 4.0.8 4.0 6..9..9 8.4.9 9..8 9. 2. 6.6... 8.4.0 9..0 9. 2 20..4 20. 8. 20.4 9.2 20.4 9.6 6..0. 6..8.0 8. 8.0 9.6 8.9 0. 9. 9.. 9. 6.0 9. 6.9 9.8.9 0.2 8.8 0. 9. 9 2..2 2.6 6. 2.6.0 2.6.9 2.6 8. 2.6 9.2 2.9 6..9.0.9.9.8 8..8 9.2 2 9.4.0 9..8 9. 8. 9. 9.2..4.4 6..8.2 8. 8.0 9.6 8.9 0. 9. 0.0.4 0.0 6. 0.0. 0.0 8.0 0.2 8.9 0. 9. 9.0.4.0 6.2 2.9. 2.9 8.0 2.9 8.9 2.8 9. 2 6. 6.2 6.0. 2.9 8.0 6.0 8.8 6.0 9.2 2 9.4.0 9.4.9 9.4 8.8 9. 9.2 6.0 4.8 6.6.8. 6. 8..6 9.2 8. 9. 8.9 8. 4.9 8.. 8.8 6.6 9..6 9.4 8. 9.8 8.9 9.8 4.9..8. 6.6... 8.4. 8.8 2.0. 4.9 6.6 4.9. 4.9 8.4 4.8 8.8 2 8. 6.6 8..4 8. 8. 8.2 8. 4. 4..6.2 6. 6... 8. 8.0 9. 8.4 6.6 4.0.0.0. 6.0 8.0.0 8. 8.0 9.2 8.4 9 0. 4.2 0.. 0. 6.0 0.2 6.9 0.4.8 0.6 8. 2.6.2. 6.. 6.9..8. 8. 2.0 6..0 6.9.0.8.0 8.. 4..9.4 6.8 6..8. 8. 8.0 9. 8.4.8 4..8.4.8 6.2 8..2 8. 8.0 9.2 8.4 9 0.8 4. 0..4 0. 6.2 0.. 0. 8.0 0. 8.4 2.9..8 6.2.8..8.9.8 8.4 2.2 6..2.0..9. 8. 4.4.9. 4.9 6..8. 6. 8..6 8. 8.0 6..8 6.4 4.8 6.8.8.4 6. 8..6 8. 8.0 9 9.4.9 9. 4.8 9.. 9.4 6.6 9.6. 9. 8.0 2 2.6 4.8 2.6. 2. 6.6 2..4 2..9 2 6.0. 6.0 6.6.9.4.9.9..0 4. 4.2.6.2 6. 6.2.. 8.2. 4.0.0 4.9 4..8.2 6. 6.2.. 8.2. 9...2 4.0..0.9 6.0 8.4.0 8.. 2 0.9 4.2 0.9. 0.9 6.0 0.9 6.9.0. 2 4..2 4. 6.0 4. 6.9 4.. R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).9.6 4.9 4..9.4 6.8 6... 8.2..4..6 4. 6.0.4 6.8 6... 8.2.6 9 8.4.6 8. 4. 8.. 8. 6.2 8.. 8.6. 2. 4.4...4 6.2.4.0.4. 2 4.8. 4.8 6. 4.8.0 4.8.4.2.0 4. 4.0. 4.9 6..8. 6..8.. 2.9 4..9. 4.9 6..8. 6..8.2 9 6.6.0 6.6.8 6.8 4.8.2.. 6. 8.0.2 2 0.0.9 0.0 4.8 0.0. 0.0 6. 0..0 2. 4.8...4 6..4.0.9..4. 4.6 4.2..2 6. 6.2.2 6.6.9..4. 4.6 4.2..2 6. 6.2.2 6.6 9..8 4..0.2 4. 6.0. 6.8 6.2. 6. 2.8.2.8 4.0 8.0.0 8.4.9 8.6 6.4 2.8 4.2....9. 6.4 2.9 2..9.6 4.9 4..8.4 6.8 6.2.2 6..2 2..9.6 4.9 4..9.4 6.8 6.. 6. 9.8 2....9 4.4 6.2. 6.8 6.. 6. 2 8.9.6 8.9 4.4 8.9. 8.9 6. 8.9 6.6 2 2. 4.4 2.. 2.2 6. 2.2 6. 2.0.8.2.0 4. 4.0. 4.9 6..8 6.8 6. 2.0.8..0 4. 4.0. 4.9 6..8 6.8 6. 9..8.9 2.8 4..9. 4.9 6..8 6.8 6. 2..0..8. 4..6..8 6. 2 0..9 0. 4. 0..6 0. 6.0.0 0.9.9...2 4.6 4...2 6.2..0 0.9.9...2 4.6 4... 6.2. 9.0 0.8.9...2 4.6 4... 6.2. 2.6.8 4.6.0. 4. 6.. 6..6 2 8..2 8. 4.0 8.6 4.9 8.8.4.9. 2.9 2..9.6 4.9 4..8.4 6..8.9. 2.9 2..9.6 4.9 4..8.4 6..8 9 2..6. 2.6 4.0.6 4.9 4..8.4 6..8 2 6.2 2.6 6.. 6.2 4.4 6.. 6.. 2 9.6. 9.6 4.4 9..2 9..6 0.8 0. 2..9..0 4. 4.0. 4.9.8.4 0.8 0. 2..9..0 4. 4.0. 4.9.8.4 9 0.8 0. 2..9..0 4. 4.0.4 4.9.8.4 2.4.8 4.2 2.8 4.9.9.6 4.9 6.0.4 2. 2.9..8.8 4..9. 0.2 0..0 0.9 2.0.8..2 4. 4..2 4.8 0.2 0..0 0.9 2.0.8..2 4. 4..2 4.8 9 0.2 0..0 0.9 2.0.8..2 4. 4..2 4.8 2.0 0.8 2.0.8.6.2 4. 4..2 4.8 2 4..9.0.0.8 4.0 6.2 4. R.t. w.b. ( ) HEATING MODE OOLING MODE Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) Aermec cod. 68080_0.09 2

9.. TUN 20 WITH 4 ROW OIL HEATING MODE OOLING MODE Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 0.0.0 9.9 8.0 0.0 8.9 0. 9.9.2 0.8.. 2.9.0 2.8.9 2.8 8.9 2.8 9.9 2. 0.8 2.. 9 6.0 6.9.9.9.9 8.9.9 9.8.8 0.8.8. 2 9..8 9.2 8.8 9.2 9.8 9. 0. 9..2 2 22.8 8. 22.8 9. 22. 0.6 22.. 8.6 6.4 8.8.4 9.2 8.4 9.8 9.4 0.8 0.4. 0.8. 6.4.6.4.6 8.4.6 9..8 0..9 0.8 9 4.8 6.4 4.8.4 4.8 8. 4. 9. 4. 0. 4. 0. 2 8.2. 8. 8. 8. 9. 8. 0.2 8.0 0. 2 2.8 8.2 2. 9.2 2. 0.2 2.6 0. 6.9.. 6. 8.2.8 9.2 8.8 0.2 9.8 0. 0. 9.9. 9.9 6.6 0.0.6 0.4 8. 0.8 9.8. 0. 9.4.8.4 6.8.4.. 8.. 9..4 0.2 2 6.9 6.8 6.8. 6.8 8. 6.8 9. 6.8 0.2 2 20.. 20. 8. 20.4 9.6 20.4 0.. 6.0.8.0 8..9 9. 8.9 0.2 9.8 0. 0. 0.6 6.0 0.6 6.9 0.6.9 0.6 8.9 0.8 9.9 0.9 0. 9.8.9. 6.9..9. 8.8.6 9.8.6 0. 2. 6.8.0.8. 8.8 6.9 9. 6.9 0.2 2 20.6. 20.6 8. 20. 9. 20. 0.2 6.4. 6.9 6.4.8.4 8.8 8.4 9.8 9.4 0. 9.9 9..4 9.2 6. 9.. 9.6 8.4 0.0 9.4 0.4 9.9 9 2..4 2. 6.4 2.4. 2.4 8. 2.4 9. 2.4 9.8 2.8 6..8..8 8.. 9.2. 9. 2 9.4. 9.4 8.2 9.4 9.2 9. 9..0 4. 6.0.. 6.8 8..8 9.2 8.8 9. 9..0 4.4.4..9 6. 8..8 9. 8.8 9. 9. 9 0. 4. 0.. 0. 6.6 0.8.6.0 8..2 9.2 2 4.4. 4. 6. 4.. 4. 8.6 4. 9. 2 8. 6. 8.0. 8.0 8.6 8.0 9..6.0 6.2 6.0.2.0 8.2.9 9.2 8.8 9. 9. 8..0 8.2.9 8. 6.9 8.6.9 9.2 8.9 9. 9. 9.4.0.4.9.4 6.9..8. 8.8. 9. 2 4..9 4. 6.9 4.6.8 4.6 8.8 4.6 9.2 2 8.2 6.8 8.2.8 8.2 8. 8. 9.2 4.6 4.4.6.4 6. 6.4..4 8.8 8.4 9. 8.9 6. 4.2 6.8..2 6.4.9.4 8.8 8.4 9. 8.9 9 9.9 4.4 9.9. 9.9 6. 9.9. 0. 8. 0. 8.8 2... 6.... 8.2. 8. 2.0 6. 6.9. 6.9 8.2 6.9 8...4 4.8 4.6 6.0.8. 6.8 8..8 8. 8. 4.2..2 4. 6.2.. 6.8 8.2.8 8. 8. 9.6..6 4..9. 8.4 6.6 8.9. 9.2 8. 2.6 4..6..6 6.6.6.6. 8. 2.4..4 6..4.6. 8. R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 4.2 4.0.2.0 6.2 6.0.2 6.9 8.2.9 8. 8...9.9 4.9 6. 6.0.2 6.9 8.2.9 8. 8.4 9 8.9 4.0 8.8 4.9 8.8.9 8.8 6.9 9.0.8 9. 8. 2 2.2 4.9 2.2.9 2. 6.8 2..8 2. 8. 2..8. 6.8..8.6 8.2.4. 4.6 4.4..4 6. 6.4..4 8.2.9.9.2 4.8 4...4 6. 6...4 8.2.9 9.0..0 4.2.2..6 6. 8..4 8.4.9 2 0.6 4. 0.6. 0.6 6. 0.6.2 0.. 2 4.. 4. 6. 4.2.2 4.2. 2.0.9.6.4 4.9 4. 6.0.8. 6.8.6. 2.0.9.6. 4.9 4. 6.0.8. 6.8.6. 9. 2.0 4.6.. 4. 6.4.. 6.8..4 2 8.. 8. 4. 8.. 8.9 6.6 9.. 2 2. 4. 2..6 2.4 6.6 2.4.0..0 4.2 4.0.2.0 6.2 6.0.2 6.9..4.4 2.9 4.2 4.0.2.0 6.2 6.0.2 6.9..4 9 6..0 6..9 6.2 4.9 6.6.9.2 6.9..4 2 9..9 9. 4.9 9.4.8 9.4 6.8 9.. 2.0 4.9.0.8.0 6.8.0.2 2. 2.0.4. 4.6 4.4..4 6. 6.4.2 6.9 2. 2.0.4. 4.6 4.4..4 6. 6..2 6.9 9. 2.0 4.2.2.0 4..8.4 6. 6..2.0 2.6..6 4.2..2 8. 6. 8. 6.8 2.4 4..4.. 6.2. 6..0.0 2.0.9.. 4.9 4. 6.0.8 6.6 6..0.0 2.0.9.. 4.9 4. 6.0.8 6.6 6. 9.0 0.9 2.0.9.. 4.9 4. 6..8 6.6 6. 2.8 2.0 4.9..8 4. 6..6.0 6.2 2 9.0. 9.0 4. 9.2. 9. 6.0 2.0.9..0 4.2 4.0.2.0 6.2.9 6. 6.4 2.0.9..0 4.2 4.0.2.0 6.2.9 6. 6.4 9 2.9.8. 2.9 4.2 4.0.2.0 6.2 6.0 6. 6.4 2 6. 2.9 6..9 6.6 4.8 6.9.9. 6.4 2 0..9 0. 4.8 0..8 0. 6.2 0.8 0.8 2.2 2... 4.6 4.4..4 6.2.9 0.8 0.8 2.2 2... 4.6 4.4..4 6.2.9 9 0.8 0.8 2.2 2... 4.6 4.4.. 6.2 6.0 2.6 2.0 4.4..2 4..9.4 6..9 2 8..2 8. 4.2 8.2.2 8.4. 0.2 0.2.0.0 2. 2.0..6 4.9 4... 0.2 0.2.0.0 2. 2.0..6 4.9 4.8.. 9 0.2 0.2.0.0 2. 2.0..6.0 4.8.. 2.0 0.9 2.2 2.0.8..0 4... 2 4. 2... 6.2 4. 6.6.0 R.t. w.b. ( ) Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) 24 Aermec cod. 68080_0.09

9.8. TUN 20 WITH 6 ROW OIL Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 2. 8. 2.4 9.4 2. 0. 2.8. 4.0 2.8 4.. 6. 8.2 6.0 9.4 6.0 0. 6.0..9 2.8.9.4 9 20.0 8. 9.9 9. 9.9 0. 9.8.6 9.8 2. 9.. 2 24. 9.2 24.0 0.4 24.0. 2.9 2. 2.9.2 2 28. 0. 28..4 28.4 2.6 28.4. 0...0 8.. 0.0 2... 2.2 4. 2.8 4.6.6 4. 8. 4. 9.9 4..0 4. 2.2 4.9 2.8 9 8.. 8. 8. 8. 9.9 8.4.0 8.4 2. 8. 2. 2 22. 8.6 22. 9.8 22.6 0.9 22.6 2. 22.6 2. 2 2.2 9. 2. 0.9 2. 2.0 2.0 2.6 8.6 6. 9.4.9 0. 9.2. 0.4 2.8.6.4 2.2 2.4 6. 2.4.8 2.6 9.0.0 0....8 2.2 9 6.8 6.8 6. 8.0 6. 9. 6.6 0. 6..4 6. 2.0 2 2. 8.0 2.0 9. 2.0 0. 2.0.4 20.9 2.0 2 2. 9. 2.6 0. 2.6.4 2. 2.0 9.. 9.8 8.2 0. 9.4.6 0. 2.8.6.4 2.2..0. 8.2.2 9..2 0..4.6.6 2.2 9.2.0.2 8.2. 9.. 0.4.0.6.0 2. 2 2. 8. 2. 9.2. 0.4 2.2. 2. 2. 2 2.8 9. 2. 0. 2..4 2.6 2.0 8.0 6. 8..6 9. 8.8.0 0.0 2.2. 2.8.6.6 6.... 8. 2.0 9.9 2.. 2.9. 9.6 6.4.6.. 8.. 9.8. 0.9.. 2 9.8. 9.8 8.6 9. 9.8 9. 0.9 9.. 2 24. 8.6 24. 9. 24.2 0.9 24.2.4 6.2.. 6.8 8.8 8.0 0.2 9.2. 0.4 2..0 8..2 9.2 6. 9.9.9 0. 9.2.6 0.4 2..0 9.4..4 6..4.8. 9.0.8 0.2 4.0 0.8 2 8.0 6.8.9.9.9 9..9 0.2.9 0.8 2 22.6.9 22.6 9. 22. 0.2 22. 0.8.0.9.8. 9.0 8.2 0. 9.. 0.4 2..0 0..9 0..0 0.4 8.2 0. 9.. 0. 2..0 9 4..9 4.2.0 4.2 8. 4. 9. 4. 0.4 4..0 2 8.4 6.9 8. 8. 8. 9.2 8. 0.4 8.2 0.9 2 22.8 8.0 22.8 9.2 22. 0. 22. 0.9.8.. 6.4 8.4.6 9. 8.8 0.9 9.9.6 0. 8..0 8. 6. 9.. 9.8 8.8.0 0.0.6 0. 9 2.4.2 2.4 6. 2.4.4 2.4 8.6 2. 9.8 2.9 0.4 2 6. 6. 6.6. 6.6 8.6 6.6 9. 6.6 0. 2 2.2.4 2.2 8.6 2. 9. 2. 0. 4.4 4.0 6.0.. 6.8 8.9 8.0 0.2 9.2 0.8 9.8..9 6... 6.8 8.9 8. 0.2 9. 0.9 9.9 9 9. 4. 9.. 9.9 6. 0..8.2 9.. 9.8 2 4.. 4. 6. 4..8 4. 9.0 4.6 9.6 2 9. 6. 9.2.9 9.2 9.0 9.2 9.6 R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).2 4. 6..9.8. 9.0 8.2 0.2 9. 0.9 9.9. 4.6.4.8.9. 9.0 8.2 0. 9. 0.9 9.9 9. 4...8.0 6.9.0 8.. 9..4 9.8 2.2.8.2 6.9.2 8.. 9.2. 9. 2 9. 6.9 9.6 8.0 9.6 9.2 9.6 9. 4..9..2. 6.4 8.4.6 9. 8.8 0. 9. 4.9..9.. 6.4 8.4.6 9. 8.8 0. 9.4 9 8..9 8.8.0 9.0 6.2 9.. 0.2 8. 0.6 9. 2... 6...4. 8.. 9. 2.8 6..8.4.8 8..8 9. 2. 2. 4. 4. 6... 6.8 8.9 8. 9. 8. 2. 2. 4. 4. 6... 6.8 8.9 8. 9.6 8. 9 4. 2...9 6.9. 8.0 6. 9. 8. 9.6 8. 2 0. 4. 0.. 0. 6...8.4 8.4 2.6..6 6.6..8. 8..9..2 4. 6..9..0 9.0 8.2 9.6 8. 4.2..2 4. 6..9.8.0 9.0 8.2 9.6 8. 9.6..6 4.6.8.8 8..0 9.0 8.2 9.6 8. 2.9 4.6.8.8.8 6.9.8 8.0.8 8.6 2 6.. 6. 6.9 6.2 8.0 6.2 8.6 2.6 2.4 4..9..2. 6.4 8.4.6 9.0 8.2 2. 2.4 4..9..2. 6.4 8.4.6 9.0 8.2 9 4. 2..2. 6.2..2 6.4 8.4.6 9.0 8.2 2 9..9 9..0 9. 6.2 0..4 0. 8.0 2 4.2. 4.2 6.2 4.2. 4.2.9.. 2. 2. 4.6 4.2 6..6. 6.9 8.2... 2. 2. 4.6 4.2 6..6.6 6.9 8.2. 9.. 2. 2. 4.6 4.2 6.2.6.6 6.9 8.. 2 4.8 2.4 6..9.. 8. 6. 8.8. 2.2 4.2.2.. 6..6. 2. 2..9..2 4. 6..9..0 8..6 2. 2..9..2 4. 6..9..0 8..6 9.6 2.2 4.4.4. 4. 6..9..0 8.4.6 2 8.2. 8. 4.6 8.. 8.6 6.9 8.9. 2 2. 4.6 2.. 2.6 6.8 2.6.4.0 0.9 2. 2. 4..9..2. 6.4..0.0 0.9 2. 2. 4..9..2. 6.4..0 9.0 0.9 2.8 2. 4..9.8.2. 6.4..0 2 4. 2... 6..0.4 6..9.0 2 0.2.8 0.2.0 0. 6. 0.4 6. 0.2 0.2.. 2.6 2.4 4.6 4.2 6.2.6 6.9 6.2 0.2 0.2.. 2.6 2.4 4. 4.2 6.2.6 6.9 6. 9 0.2 0.2.. 2.6 2.4 4. 4.2 6.2.6 6.9 6. 2.. 2. 2.4 4.8 4.2 6.2.6 6.9 6. 2.4 2. 6.6.9.. 8.2.9 R.t. w.b. ( ) HEATING MODE OOLING MODE Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) Aermec cod. 68080_0.09 2

9.9. TUN 2 WITH 4 ROW OIL HEATING MODE OOLING MODE Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).9 9.4.8 0..9 2.0 4... 4.6 6.4.2.9 9.4.9 0..9 2.0.8..8 4.6.8. 9 22. 9. 22.2 0.6 22.2 2.0 22.. 22. 4.6 22.0.2 2 26.9 0. 26.8.9 26.8.2 26. 4. 26.. 2.8..8.. 4.4..0 2.0 8.6 2. 0.0 2.8.4. 2..0 4.0. 4.6 6. 8. 6.2 0.0 6.2. 6.2 2.6 6.4.9 6.6 4.6 9 20. 8.6 20.6 9.9 20.6. 20.6 2.6 20..9 20. 4. 2 2.4 9.9 2..2 2.2 2. 2.2.8 2.2 4. 2 0.4. 0. 2.4 0.2. 0.2 4.4 9.6. 0. 9.0. 0. 2.8.9 4.2.2.0.9.8.6.8 8.9 4.0 0. 4..8..2..9 9 8..8 8. 9. 8. 0.4 8.6. 8.6.0 8.. 2 2.6 9. 2. 0.4 2.4.8 2.4. 2.4. 2 28.6 0.4 28.6. 28..0 28.. 0.8 8. 0.9 9.4. 0. 2.9 2.0 4.. 4.9.9 4.9 8. 4.8 9.4 4.8 0. 4.8 2.0.0..2.9 9 9.2 8.0 9.2 9. 9. 0.6 9.0.9 9.0.2 9.0.9 2 2.8 9.2 2. 0.6 9.0.9 2.6.2 2.6.8 2 28. 0.4 28..8 28.6. 28.6. 8.9.2 9. 8. 0.8 0. 2.2.4.6 2. 4.. 2.9. 2.9 8.6.0 9.9.4. 4.0 2. 4.4.4 9.4..4 8.6.4 9.9..2. 2...2 2 22. 8.6 22. 9.9 22.0.2 22.0 2. 2.9. 2 2. 9.8 2.. 2.0 2.4 2.0. 6.9 6. 8.. 9.9 9.2.4 0.6 2.8.9. 2.6 9. 6.0 0...0 9.0.9 0. 2.9.9.6 2.6 9.0 6..0.6 4.9 8.9. 0..4..6 2.4 2 20..8 20.0 9. 20.0 0.4 9.9. 9.9 2. 2 2.2 9. 2.2 0.4 2.. 2. 2..9 6. 8. 8. 0. 9.4. 0. 2.8.9. 2.6. 6.. 8.0.6 9. 2.0 0. 2.9 2.0.6 2.6 9.9 6..9 8.0.8 9..8 0.6.8.9.8 2. 2 20..9 20. 9.2 20.4 0. 20.4.8 20. 2. 2 2. 9.2 2.4 0. 2.4.8 2. 2.4 6..9.9. 9.4 8. 0.8 0.0 2.2.4 2.9 2.0 9.. 9.. 0. 8.6.0 0.0 2.2.4 2.9 2.0 9.8.9.8.2.8 8..9 9.8 4..2 4..9 2 8.6.2 8.6 8. 8. 9.8 8.. 8..8 2 2. 8. 2.6 9.8 2.6. 2.6. 4.9 4. 6. 6. 8..8 9.9 9.2.4 0.6 2..2.9 4.4. 6. 8.6. 9.9 9.2.4 0.6 2.. 9 0.6 4. 0.6 6.0.0.4. 8.9 2. 0.4 2.9.2 2 6.2 6. 6..6 6. 8.9 6.2 0.2 6. 0.9 2 2.. 2. 9.0 2.4 0. 2.4 0.9 R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).8.4. 6.8 8. 8. 0. 9..4 0.6 2...9. 8.2 6. 8.9 8. 0. 9.4. 0. 2.. 9 2.4. 2. 6.6 2..9 2. 9.2 2.6 0.6 2.. 2.0 6.6.0.9 6.9 9.2 6.9 0. 6.9. 2 2.9.9 2.9 9.2 2.9 0. 2.8. 4.8 4.4 6.4.9.9. 9.4 8. 0.8 0.0. 0.. 4. 6.6.9.9. 9.4 8. 0.8 0.0. 0. 9 9.8 4.4 9.8. 0.. 0.6 8..4 0.0.8 0. 2 4.8.9 4.8.2 4.8 8.4 4.8 9. 4.9 0.4 2 9.9. 9.9 8. 9.8 9. 9.8 0.4 2.8 2.6.0 4. 6.8 6. 8.4.8 9.9 9.2 0. 9.9 2.8 2.6.0 4. 6.8 6. 8.4.8 9.9 9.2 0. 9.9 9 4.6 2.6 6.4 4.4. 6. 8.9. 0. 9.2 0. 9.9 2. 4.. 6.0.9.4 2.4 8.9 2.8 9.6 2.4 6..4.6.4 8.9. 9. 4. 4.0.8.4. 6. 8.6 8.0 0.0 9. 0. 9.9 4. 4.0.8.4. 6.8 8. 8.0 0.0 9. 0. 0.0 9 8. 4.0 8.. 8. 6.6 9.2 8.0 0. 9.4 0.8 0.0 2.2..2 6.6.2.9.2 9.2.2 9.8 2 8.2 6.6 8.2.9 8. 9. 8. 9.8 2.9 2. 4.8 4. 6.4.9.9. 9. 8. 0. 9..0 2.8 4.8 4. 6.4 6.0.9. 9.4 8. 0. 9.4 9 4.6 2.6.8 4. 6.9.8 8.. 9.4 8. 0. 9.4 2 0.6 4.4 0.6. 0.8.0.2 8.. 9.2 2.9.8.8..8 8.4.8 9.0.4. 2.8 2.6. 4.8 6.8 6.4 8.4.8 9.2 8..4. 2.8 2.6. 4.8 6.9 6.4 8.4.8 9.2 8. 9..2 2.8 2.6.2 4.8 6.9 6.4 8.4.9 9.2 8.6 2.4 2.8 6.9 4.4 8. 6. 9..6 9.8 8.4 2 2. 4. 2. 6.0 2.8.4.0 8. 2.8 2.6 4. 4.0.8.4.2 6. 8.6 8.0 9. 8.6 2.8 2.6 4. 4.0.8.4.2 6. 8.6 8.0 9. 8. 9 4.0 2. 4.9.9.9.4. 6. 8.6 8.0 9. 8. 2 9..9 9..2 9.2 6. 9.6.9 9.9 8.6 2 4.2. 4. 6. 4..8 4. 8.4..0.0 2.8 4.8 4. 6.4 6.0.9. 8.6 8.0..0.0 2.8 4.8 4. 6.4 6.0.9. 8.6 8.0 9..0. 2.8 4.9 4. 6.4 6.0.9.4 8.6 8.0 2. 2. 6.2 4.2.2.8 8.. 8.8 8.0 2. 4.4....0.. 0.2 0.2.4. 2.9 2..2 4.8 6.9 6.4.. 0.2 0.2.4. 2.9 2..2 4.8 6.9 6.4.. 9 0.2 0.2.4. 2.9 2..2 4.8 6.9 6.4..2 2..2.0 2..4 4.8.0 6.4..2 2 6.0 2.8.4 4.4 8.6 6.0 9.2 6.8 R.t. w.b. ( ) Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) 26 Aermec cod. 68080_0.09

9.0. TUN 2 WITH 6 ROW OIL Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 6. 0.8 6. 2. 6..8..2 8. 6. 9..4 2.4 0. 2. 2.2 2.. 2.2.2 2.2 6. 2.2.4 9 26. 0.6 26. 2.2 26.4. 26..2 26. 6.6 26.2.4 2 2.0 2.0.9.6.9.0.8 6..8. 2.9.4.9 4.9. 6.4..2 4. 9.8 4.6.4.2.0 6. 4..9 6.0 8. 6. 9.4 9.9 9..4 9.2 2.9 9. 4.4 9..9 9.8 6. 9 24.6 9.8 24.6.4 24. 2.9 24. 4.4 24.4.8 24.4 6.6 2 0.2. 0. 2.8 0. 4. 0.0.8 0.0 6. 2 6.2 2. 6. 4.2 6.0..9 6.4.4 8. 2. 0.. 2.0..6.0..8.9 6. 8. 6.4 0.2 6..8.2.4.9. 8.4.9 9 22. 8.9 22. 0.4 22.2.9 22..4 22.2 4.9 22.2. 2 28.0 0.4 28.0.9 2.9.4 2.9 4.9 2.8. 2 4..9 4..4 4.0 4.9.9.6 2.8 9.2.0 0.. 2..4..0.2.8.9. 9.2.6 0..6 2.2.6..9.2 8..9 9 22.9 9. 22.8 0. 22.8 2.2 22..6 22.. 22.6.8 2 28. 0.6 28. 2. 22..6 28..0 28..8 2 4.2.9 4.2.4 4. 4.9 4.. 0.6 8.2. 9.9 2.9. 4.6.0 6.2 4..0.2.4 8.. 9.8.. 6.0 2.9 6.6 4..2. 9 20. 8. 20. 9.8 20.. 20.6 2.8 20.6 4. 20.6.0 2 26. 9.8 26.. 26.2 2.8 26.2 4. 26..0 2 2..2 2.2 2. 2.2 4.2 2. 4.9 8..0 9.9 8.8. 0.. 2...6 6. 4.4.6 6.8 2. 8..2 0. 4.2 2.0.4.6 6. 4.4 9.8.2.8 8..8 0.2.9.8 8..4 8.6 4.2 2 2.9 8.9 2.8 0.4 2.8.9 2.8. 2.8 4. 2 0.0 0.4 0.0.9 29.9. 29.9 4. 9.4. 0.4 9. 2.0 0.. 2.2..6 6. 4.4... 9..8 0. 4.2 2.2.. 6. 4.4 9 8.9.6 8.9 9. 8.9 0.6 8.8 2. 8.8.6 8.8 4. 2 24.4 9. 24.4 0.6 24. 2. 24.. 24.2 4. 2 0. 0. 0. 2.0 0.2. 0. 4.2. 6. 9.4 8.4. 9.9 2.9. 4..0.4. 0.8 6.. 8.2 2.0 9.8.. 4.6.0.4. 9 6. 6. 6. 8.2 6.4 9. 6..2 6.8 2.8..6 2 22.2 8. 22. 9. 22..2 22.0 2. 22.0.4 2 28.2 9. 28..2 28.0 2. 28.0.4.8.2 8.0. 9.9 8.9.8 0.. 2. 4.4 2.8.0.0 8..0 0.2 8.8.8 0..6 2. 4.4 2.9 9 2.6.4 2. 6.9.2 8..9 0.2 4.8.9. 2. 2 9.2.2 9.2 8. 9.2 0.2 9.2. 9.4 2. 2 2.6 8.8 2.6 0. 2..8 2. 2. R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 6.9 6.2 8.. 0. 9.2 2.0 0..6 2. 4.4 2.9 9. 6. 9.8.6 0. 9.2 2.0 0..6 2.2 4. 2.9 9 4. 6. 4..6 4. 9. 4. 0.6.0 2..2 2.9 2 20.2.6 20.2 9. 20. 0. 20. 2.0 20. 2. 2 26. 9.0 26. 0. 26.0 2.0 26.0 2....6 6.8 9.4 8.4. 9.9 2.8.4. 2.2 6. 4.9.9 6. 9.4 8.4. 9.9 2.9.. 2.2 9.6.0. 6. 2.0 8. 2. 9.8..4 4.0 2.2 2.6 6..6 8.2.6 9..6...9 2 2. 8.2 2. 9. 2.6. 2.6.9..0 6.0. 8..2 0.0 8.9.8 0. 2....0 6.0. 8..2 0.0 8.9.8 0.6 2.. 9..0.6. 9.2.0 0.6 8.8 2.0 0. 2.8.4 2..4. 6.9 4.2 8. 4.8 0..2.0 2 20..2 20. 8. 20. 0.2 20.6 0.9.2 4.6 6.9 6.2 8.6. 0. 9.2.9 0.6 2..4.6 4. 6.9 6.2 8.. 0. 9.2 2.0 0. 2.8.4 9 0. 4.6 0. 6.0 0.4..0 9. 2.0 0. 2.8.4 2.8 6.... 9.0. 0...2 2 2.. 2.6 9.0 2.6 0.4 2..2.....6 6.8 9.4 8.4. 9.9 2.0 0......6 6.8 9.4 8.4. 9.9 2.0 0. 9..0 6.9 4.9 8. 6.6 9.6 8.4.2 0.0 2.0 0. 2 2.6.0 2.6 6. 2.8 8.0.4 9.. 0. 2 8.9 6.6 8.9 8. 8.8 9.6 8.8 0.....0 6..4 8.. 0.0 8.9 0.9 9.8....0 6..4 8.2. 0.0 9.0 0.9 9.8 9..4.4.0 6.2.4 8.2. 0. 9.0.0 9.8 2 6.4. 8.2. 9. 6.9. 8.. 9.6 2 4.9.4 4.9 6.9.2 8.4. 9.2. 2.9.2 4.6 6.9 6.2 8.6. 0.2 9.. 9.9..0.2 4.6 6.9 6.2 8.6. 0. 9.2. 9.9 9 4.8 2.8.8 4..0 6.2 8.6. 0. 9.2. 9.9 2 0.9 4. 0.8 6.0.0.. 9.0.8 9.8 2 6.9 6.0 6.8. 6.8 8.9 6.8 9.6..2.6.2.8..6 6.8 9.4 8.4 0. 9.2..2.6.2.8..6 6.8 9.4 8.4 0. 9.2 9.4.2..2.8.2. 6.8 9.4 8.4 0. 9.2 2 6.0.. 4.8 8.6 6.6 9.9 8. 0. 9. 2..0. 6.. 8.0.9 8. 0. 0.2.... 6.2. 8.2. 9. 8.2 0. 0.2.... 6.2. 8.2. 9.2 8.2 9 0. 0.2.... 6.2. 8.2. 9.2 8.2 2..4.6. 6.4. 8.. 9.2 8.2 2.2.2 8.8. 0.2 6.9 0.9. R.t. w.b. ( ) HEATING MODE OOLING MODE Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) Aermec cod. 68080_0.09 2

9.. TUN 40 WITH 4 ROW OIL HEATING MODE OOLING MODE Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 2.8.2 2.8. 2.8 9.4 22. 2.4 24. 2.4 2. 24.4 28.2. 28..2 28. 9. 28.0 2.4 2.9 2. 28.0 24. 9.0.0.0. 4.9 9.2 4.8 2. 4. 2.4 4. 24.4 2 42. 6.9 42.2 9. 42. 2.2 42.0 2.2 4.9 24. 2 0. 8.8 0.0 2.0 49.8 2. 49.8 24. 8.9.8 9. 6.0 20. 8. 2. 20.4 2. 22. 24. 2. 2.6.9 2. 6.0 2.4 8. 2. 20. 2.8 22.4 26. 2. 9 2..8 2.4 6.0 2.4 8. 2. 20.2 2. 22. 2.2 2. 2 9.9.9 9. 8.0 9. 20. 9.6 22.2 9.6 2. 2 4..8 4.6 9.9 4. 22. 4. 2.. 2.0 6. 4. 8. 6.9 20. 9. 22.4 2. 2. 22.4 2. 2. 2. 4.4 22.0 6.6 22. 8.9 2. 2.2 24. 22.4 9 29.4 2. 29.4 4. 29. 6.8 29.2 8.9 29. 2.0 29. 22.0 2.0 4. 6.9 6.8 6.9 8.9 6.8 2.0 6. 22.0 2 4.0 6. 4.0 8.8 44.8 20.9 44.8 22.0.0 2.9.2. 8..2 20. 9. 22.4 2. 2. 22. 2. 2.9 2.. 2.2. 2.2 9.2 2.6 2.4 2.9 22.4 9 0.2 2.9 0..0 0.. 29.9 9.2 29.9 2. 29.8 22. 2.4 4.8..0 29.9 9.2. 2.. 22.2 2 4.2 6.8 4. 8.9 4.0 2.0 4.0 22. 4.0..2.9.0 6.2 9.2 8. 2.4 20.4 22. 2.4 20.. 20.2. 20..9 2. 8.2 22.0 20.4 22. 2. 9 2.4. 2..8 2..9 2.2 8.0 2.2 20. 2.2 2.2 2 4.8.8 4..9 4. 8.0 4. 20.0 4. 2. 2 42.6. 42.6.9 42. 20.0 42.4 2.0 0.9 9.8. 2.4. 4..9.0 20. 9. 2. 20.2. 9.6 6.2 2.0.4 4.4 8. 6.9 20. 9.2 2. 20.2 9 2. 0.2 2. 2. 2.4 4.4 2. 6. 24.2 8.8 24. 9.9 2. 2.. 4.6.4 6..4 8.8.4 9.8 2 9.6 4.6 9.6 6. 9. 8.8 9. 9.8 2. 0.8..0.9. 8..2 20.2 9.2 2. 20.2 8. 0.8 8. 2.9 8.2.0 8.8.2 20. 9.2 2. 20.2 9 2.0 0. 2.0 2.9 24.9.0 24.8.0 24.8 9. 24.8 20. 2 2.2 2.8 2.2 4.9 2. 6.9 2.0 9.0 2.0 20. 2 40.0 4. 9.9 6.8 9.9 8.9 9.8 20.0 0. 9. 2.4.8 4. 4.0.0 6. 9.2 8.2 20. 9. 4. 9.2 4.9..9.8. 6. 9.2 8. 20. 9. 9 2.8 9. 2..6 2.. 2.8.8 22.2 8.0 22.6 9. 2 29..6 29.2. 29.2.8 29..9 29. 8.9 2.2.6...0.8.0 8.9.. 0.6 0.0. 2.. 4.8.9.0 9.0 8. 9.2.. 9.8. 2.4.6 4.8.9.0 9.0 8. 9 6.6. 6. 9..4 2.0 8.4 4. 9.6 6. 20..9 2 2.4 0.2 2.4 2. 2.4 4. 2.4 6. 2.6.6 2.8 2.4. 4.. 6.6.6.6 R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 9.2 8..4 0.9..0.8.0 8.0. 9.0 8. 2. 8. 2.9 0..9.0.9. 8.0. 9. 8. 9 9.4 8.6 9.4 0. 9.4 2.8 9.4 4.9 9.8.0 20.0 8. 2 26. 0.6 26. 2. 26.6 4.8 26. 6.9 26..9 2 4. 2.6 4.4 4. 4.4 6.8 4..8.. 0.0 9. 2.4.8 4. 4.0 6.9 6. 8..2 8.6 6.9 0.4 9.4 2.4.8 4. 4.0.0 6. 8..2 9...4 9.2.9.4 6...9 6.0 8..2 2 2. 9.4 2.. 2..6 2.. 2.4 6. 2....6.2.6.2 6. 4.4 4.2.9. 0. 0..2 2..6 4.8 6..9 4.4 4.2.9. 0. 0.2.2 2.6.6 4.8 6.8.9 9.2 4.2 0.0. 2. 9.8 4.0 2.4.9 4.8 6.9 6.0 2 8..6 8. 9. 8..9 9.6 4.2 20..4 2 2. 0. 2. 2.2 2. 4. 2.2. 6.8 6. 9.2 8..4 0.8.6 2.9.8.0 6.8 6.0.4 6.4 9.2 8..4 0.9.6 2.9.8.0 6.9 6.0 9.4 6.4.4 8.. 0.6 4. 2.8.8.0 6.9 6. 2 20.8 8. 20.8 0.6 20. 2. 20. 4. 20.8.8 2 28.6 0. 28.6 2.6 28. 4. 28.4. 4.6 4.4.6.2 0.0 9. 2.4.8 4. 4.0.8.0 4. 4.4.6.2 0. 9.6 2.4.8 4. 4.0.9. 9. 4. 9. 6.8 0.9 9. 2..8 4. 4.0.9. 2 6.6. 6.6 9.2 6.9...6 8. 4. 2 2.0 9. 24.9.4 24.8.4 24.8 4. 2.2 2. 4.4 4.2 8.0.6 0. 0.2.2 2.6 4.4. 2.2 2. 4.4 4.2 8.0.6 0.8 0.. 2.6 4.4. 9 2. 2.0 4.4 4.2 8..6 0.8 0.. 2.6 4..8 2 8.4 4.4 0.8. 2.8 9. 4.6 2.2.. 2 9..6 9. 9. 20..9 20.4.0 4.4 4. 6.8 6. 9. 8..4 0.8. 2.9 4.6.9 4.4 4. 6.8 6. 9.2 8..4 0.8.6 2.9 4.6.9 9 6.4.9. 6. 9. 8..4 0.8.6 2.9 4. 4.0 2 4. 6. 4. 8.4 4. 0..2 2..6.8 2 22. 8.4 22.2 0. 22.2 2. 22..6.8. 4.8 4.6.6.2 0. 9.6 2.4.8.6 2.9.8. 4.8 4.6.6.2 0. 9.6 2.4.8.6 2.9 9.8. 4.8 4.6.6. 0. 9.6 2..8.6 2.9 2 8.0 4. 9. 6.8.4 9..0..9 2.8 2.8.0.8 9. 8..2 8. 2. 0.4 0. 2.2 2. 4.6 4.4 8.2.8 0.8 0. 2.. 0.4 0. 2.2 2. 4.6 4.4 8.2.8 0.8 0. 2.. 9 0.4 0. 2.2 2. 4.6 4.4 8.2.8 0.9 0. 2.. 2 2. 2.0 4. 4.4 8.4..0 0. 2.2. 2 9. 4..6.. 9. 4.4 0.9 R.t. w.b. ( ) Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) 28 Aermec cod. 68080_0.09

9.2. TUN 40 WITH 6 ROW OIL Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 24..6 24.4 20.0 24. 22. 2. 24.9 2.6 2.2 28.8 28.4.6.. 20.0. 22.4.4 24.9. 2..4 28. 9 9..4 9.2 9.9 9. 22. 9.0 24. 8.9 2.2 8.9 28.4 2 4.4 9. 4. 22. 4.2 24.6 4.0 2.0 4.0 28.2 2 6. 2.9 6. 24.4.9 26.8.8 28.0 2. 6.0 2.6 8.6 22. 2.2 24. 2. 26. 26. 2. 2. 28. 6. 28.6 8.6 28. 2.0 28.6 2. 28.9 26.0 29. 2. 9 6.4 6. 6.4 8.6 6. 2.0 6.2 2. 6.2 2.9 6. 2. 2 44. 8.4 44.6 20.9 44. 2. 44.4 2.8 44.4 2.0 2. 20..4 2.2. 2.6.2 26.8 6.9.9 8. 6.9 20.2 9.6 22.6 22.2 2. 24. 26.4 26.0 24.4 4.2 24. 6. 24. 9. 2. 2.9 26.6 24.6 2. 26.0 9.0 4.6 2.9.0 2.9 9. 2.8 2.9 2.8 24. 2.9 2.6 2 4..0 4.4 9. 4. 2.9 4. 24.4 4.2 2.6 2 0. 9.4 0.4 2.9 0. 24. 0.2 2. 9.0.0 9.. 20. 20.0 22.8 22.4 2.2 24.8 26. 2.9 26.2.0 26.. 26.0 9.9 26.0 22. 26. 24.8 26.8 26.0 9.8 4.9.8.4. 9.9.6 22.. 24.. 2.8 2 42.0.2 4.8 9..6 22. 4.6 24. 4.6 2.8 2 0. 9. 0.6 22.0 0. 24.4 0.4 2.6..4. 6.2 9. 8.8 2.6 2.2 24.0 2. 2.2 24.8 22.8. 22. 6.0 2.0 8. 2.6 2. 24.6 2. 2. 24.9 9 0..6 0.6 6.0 0.6 8. 0. 20.9 0. 2. 0. 24.6 2 9.0 6.0 8.9 8.4 8.9 20.9 8. 2. 8. 24. 2 4.8 8. 4. 20. 4.6 2.2 4.6 24.4 2.2.4 4. 4.4.4. 20.0 9. 22.6 22.2 2.8 2..2.2 8.2.9 9. 6.8 2.0 9.6 22.8 22. 2.9 2. 9 26.4.8 26.4 4. 26. 6. 26.6 9.2 2.2 2.8 2. 2. 2.4 4.. 6.9.2 9.4.2 2.8.2 2.0 2 44.4 6.9 44.4 9.4 44. 2.8 44. 2.0.8 2.6.4..8. 20.2 9.9 22.6 22. 2.8 2. 20.4 2. 20. 4.9 20..4 2. 9.9 22. 22. 2.9 2. 9 28. 2. 28.0 4.9 2.9.4 2.8 9.8 2.8 22.2 2.8 2.4 2 6.2 4.8 6..2 6.0 9..9 22..9 2. 2 44.9. 44.8 9. 44. 22.0 44.6 2.2.4.0.9. 6. 6.2 9.0 8. 2. 2.2 22.8 22.4 6.0 0. 6...8 6.0 9.4 8. 2.6 2.2 22.8 22.4 9 24.4.0 24.4.4 24..9 24. 8.4 24.9 20.9 2. 22.2 2 2.8. 2.8.9 2. 8. 2.6 20. 2.6 2.9 2 4..8 4.6 8. 4. 20. 4. 2.9 8.6 8..9. 4. 4..4. 20.0 9. 2. 2.0 0. 8.2 2.8.4.2 4.4..2 20. 9.8 2.4 2.0 9 8.6 8.8 8..2 9..9 20.6 6. 22.0 9.4 22. 20.8 2 28..8 28.4 4.2 28.4 6. 28. 9. 28. 20.4 2.9 4.4.8 6.8.8 9.2. 20.4 R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 0. 0. 2.8 2.6....4 20.2 9.8 2.4 2.0 4.0 9.9 4. 2.4.6.0.8. 20.2 9.9 2.4 2. 9 2.8 0.0 2. 2.4 2. 4.8 2.. 22.2 9.8 22.4 2.0 2 0.0 2.4 29.9 4.8 29.8.2 29.8 9.6 29. 20.8 2 8. 4. 8.6. 8. 9. 8. 20. 8.4 8.2.2..9. 6. 6.2 9.0 8. 20.2 9.9 9. 8.0. 0.9.9. 6. 6.2 9.0 8. 20. 20.0 9.2 8.2. 0..8.2 8.8.9 20.0 8.6 20.8 9.9 2 26. 0.9 26.. 26..8 26. 8.2 26.2 9.4 2....8.0 8.2.0 9.4 4.9 4.8 8.8 8. 2.0.8 4.8 4...2 8.8 8. 4.9 4.8 8.9 8. 2.0.8 4.8 4.6..2 8.8 8. 9 8. 4.9.2 8..6.4. 4..8.2 8.9 8. 2 20. 8.8 20.4. 2.0.9 2.9 6. 22..9 2 0.. 0.6 4.2 0.6 6.6 0...6. 0. 0. 2.8 2.6.2.0..4 8.9 8.6 8..4 0. 0. 2.8 2.6..0..4 8.9 8.6 9.0.4.0 9.8.4 2. 6.2 4.9.8. 9.0 8.6 2 2. 9.9 2. 2. 2.2 4. 2.2. 2. 8. 2 2. 2.2 2.0 4..9..9 8.2.2. 8. 8....9. 6. 6.2..4.2. 8. 8....9. 6. 6.2.8. 9 8.2 4.9 0.2.9 2.2 0.9 4.2. 6. 6..8. 2 8.6 8.2 8.6 0.6 9.0. 9.8.8 20.. 2 28.0 0.8 2.9.2 2.9.6 2.9 6.8 2. 2.4.0 4.9 9.0 8.9 2..9 4.8 4.6 6.2.9 2. 2.4.0 4.9 9.0 8.9 2..9 4.9 4.6 6.2.9 9 2.6 2..0 4.9 9. 8.9 2..9 4.9 4. 6.2 6.0 2 9.4. 2. 8. 4.. 6.4 4.2..6 2 22. 8.9 22..2 22..8 22.9. 4.9 4.8.. 0.2 0. 2. 2..2 4.9 6.4 6. 4.9 4.8.. 0. 0. 2.8 2.6.2.0 6.4 6.2 9. 4.6 8.6. 0.4 0. 2.8 2.6.2.0 6. 6.2 2 6..4 6.0 9. 6. 2.2.0 4.. 6.0 2 2.0 9.8 24.9 2.2 24.9 4.6 24.8. 2.0 2.0.4. 8. 8.4...9..2.0 2.0 2.0.4. 8. 8.4...9..2.0 9 2.0.9.4. 8.6 8.4..2 4.0.8.2.0 2 9.0.0 0.9.9 2.8 0. 4.6..6 4.9 2 20.0 8.2 20.0 0.6 20.2.0 20. 4. 0.4 0.4 2. 2.4.2. 9. 9.0 2..9.. 0.4 0.4 2. 2.4.2. 9.2 9.0 2.2 2.0.6. 9 0.4 0.4 2. 2.4.2. 9.2 9.0 2.2 2.0.6.4 2 2.6 2... 9. 8.9 2. 2.0.6.4 2 0.6.. 8..2.2 6.2 2.6 R.t. w.b. ( ) HEATING MODE OOLING MODE Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) Aermec cod. 68080_0.09 29

9.. TUN 40P WITH 4 ROW OIL HEATING MODE OOLING MODE Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 2.8.9 2.8 20.4 2.8 2.8 22. 22. 24. 24. 2. 2. 28.2.9 28. 20.4 28. 22.9 28.0 2. 2.9 2.8 28.0 28.0 9.0..0 20.2 4.9 22. 4.8 2.2 4. 2. 4. 28.9 2 42. 20.0 42.2 22.6 42. 2.0 42.0 2. 4.9 28.8 2 0. 22. 0.0 24.8 49.8 2. 49.8 28. 8.9 6. 9. 9.0 20. 20. 2. 2. 2. 2. 24. 24. 2.6 6. 2. 9.0 2.4 2.4 2. 24.0 2.8 2.8 26. 26. 9 2. 6.4 2.4 8.9 2.4 2.4 2. 2.9 2. 26.4 2.2 2.6 2 9.9 8.8 9. 2. 9. 2.8 9.6 26. 9.6 2. 2 4. 2. 4.6 2.6 4. 26. 4. 2.. 4.2 6. 6. 8. 8. 20. 20. 22.4 22.4 2. 2. 2. 4. 2..0 22.0 9.6 22. 22.4 2. 2. 24. 24. 9 29.4 4.8 29.4.4 29. 9.9 29.2 22. 29. 24.8 29. 26. 2.0.4 6.9 9.9 6.9 22.4 6.8 24.8 6. 26. 2 4.0 9.8 4.0 22. 44.8 24.8 44.8 26.0.0..2.2 8. 8. 20. 20. 22.4 22.4 2. 2. 2.. 2..8 2.2 20. 2.2 22.8 2.6 2.6 2.9 2.9 9 0.2.2 0.. 0. 20.2 29.9 22. 29.9 2. 29.8 26. 2.4.6. 20. 29.9 22.. 2.0. 26. 2 4.2 9.9 4. 22.4 4.0 24.9 4.0 26. 4.0..2.2.0.0 9.2 9.2 2.4 2.4 22. 22. 20..8 20.2 6. 20. 8.8 2. 2. 22.0 22.0 22. 22. 9 2.4.8 2. 6. 2. 8.8 2.2 2. 2.2 2.8 2.2 2.0 2 4.8 6. 4. 8.8 4. 2. 4. 2. 4. 2.0 2 42.6 8.6 42.6 2. 42. 2.6 42.4 24.8 0.9 0.9.....9.9 20. 20. 2. 2...4 6.2 4.2.4. 8. 8. 20. 20. 2. 2. 9 2. 2.0 2. 4. 2.4.0 2. 9.6 24.2 22.2 24. 2.6 2. 4.8...4 9..4 22.2.4 2.4 2 9.6.2 9.6 9. 9. 22.2 9. 2.4 2. 2....9.9 8. 8. 20.2 20.2 2. 2. 8. 2. 8..2 8.2. 8.8 8.8 20. 20. 2. 2. 9 2.0 2. 2.0.2 24.9. 24.8 20. 24.8 22.6 24.8 2.8 2 2.2. 2.2.6 2. 20. 2.0 22. 2.0 2. 2 40.0.4 9.9 9.9 9.9 22.4 9.8 2.6 0. 0. 2.4 2.4 4. 4..0.0 9.2 9.2 20. 20. 4. 0.9 4.9.6.9.9.. 9.2 9.2 20. 20. 9 2.8.2 2.. 2. 6.2 2.8 8. 22.2 2. 22.6 22.6 2 29.. 29.2 6.2 29.2 8. 29. 2. 29. 22.4 2.2 6.. 8.6.0 2..0 22... 0.6 0.6.....9.9 9.0 9.0 9.2 8.4.....6.6.9.9 9.0 9.0 9 6.6 8.9 6...4 4.2 8.4.0 9.6 9.6 20. 20. 2 2.4 2.0 2.4 4. 2.4.0 2.4 9. 2.6 20.8 2.8 4.6... 9.6.6 20.8 R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 9.2 9.2.4.4...8.8 8.0 8.0 9.0 9.0 2. 0. 2.9 2..9.9.9.9 8.0 8.0 9. 9. 9 9.4 0.2 9.4 2.6 9.4. 9.4.6 9.8 9.8 20.0 20.0 2 26. 2.6 26.. 26.6. 26. 20.0 26. 2.2 2 4..0 4.4.4 4.4 9.9 4. 2... 0.0 0.0 2.4 2.4 4. 4. 6.9 6.9 8. 8. 8.6 8. 0.4 0.4 2.4 2.4 4. 4..0.0 8. 8. 9. 8.4.4 0.9.9. 6. 6.2.9.9 8. 8. 2 2.. 2..6 2. 6. 2. 8. 2.4 9.8 2..6. 6..2 8..2 9.8 4.4 4.4.9.9 0. 0..2.2.6.6 6. 6. 4.4 4.4.9.9 0. 0..2.2.6.6 6.8 6.8 9.2.0 0.0 8.4 2..6 4.0 4.0.9.9 6.9 6.9 2 8. 9.0 8.. 8. 4. 9.6 6.9 20. 8.2 2 2. 2.0 2. 4.4 2. 6.9 2.2 8. 6.8 6.8 9.2 9.2.4.4.6.6.8.8 6.8 6.8.4.4 9.2 9.2.4.4.6.6.8.8 6.9 6.9 9.4.6.4 0.0. 2.6 4. 4..8.8 6.9 6.9 2 20.8 0. 20.8 2. 20..0 20..4 20.8 8. 2 28.6 2. 28.6 4.9 28..4 28.4 8.6 4.6 4.6.6.6 0.0 0.0 2.4 2.4 4. 4..8.8 4. 4..6.6 0. 0. 2.4 2.4 4. 4..9.9 9..0 9. 8. 0.9 0.9 2. 2. 4. 4..9.9 2 6.6 8.4 6.6 0.8 6.9.4. 6. 8..4 2 2.0.0 24.9. 24.8.9 24.8. 2.2 2.2 4.4 4.4 8.0 8.0 0. 0..2.2 4.4 4.4 2.2 2.2 4.4 4.4 8.0 8.0 0.8 0.8.. 4.4 4.4 9 2. 2. 4.4 4.4 8. 8. 0.8 0.8.. 4. 4. 2 8.4.2 0.8 8. 2.8. 4.6 4... 2 9. 9.0 9.. 20. 4.0 20.4.4 4.4 4.4 6.8 6.8 9. 9..4.4.. 4.6 4.6 4.4 4.4 6.8 6.8 9.2 9.2.4.4.6.6 4.6 4.6 9 6.4 4... 9. 9..4.4.6.6 4. 4. 2 4.. 4. 9.9 4. 2.4.2.0.6.6 2 22. 0.0 22.2 2.4 22.2 4.8 22. 6.0.8.8 4.8 4.8.6.6 0. 0. 2.4 2.4.6.6.8.8 4.8 4.8.6.6 0. 0. 2.4 2.4.6.6 9.8.8 4.8 4.8.6.6 0. 0. 2. 2..6.6 2 8.0. 9. 8.0.4 0.9.0.0.9.9 2.8 8..8 0.8 8.. 8. 4.6 0.4 0.4 2.2 2.2 4.6 4.6 8.2 8.2 0.8 0.8 2. 2. 0.4 0.4 2.2 2.2 4.6 4.6 8.2 8.2 0.8 0.8 2. 2. 9 0.4 0.4 2.2 2.2 4.6 4.6 8.2 8.2 0.9 0.9 2. 2. 2 2. 2. 4. 4. 8.4 8.4.0.0 2.2 2.2 2 9..4.6 8.4..4 4.4 2.9 R.t. w.b. ( ) Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) 0 Aermec cod. 68080_0.09

9.4. TUN 40P WITH 6 ROW OIL Tw ( ) 9 Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) 2. 2. 2.6 24.0 2. 26.9 28.6 28.6.. 2.6 2.6.8 2.0. 2.9.6 26.8. 29..4 2.6. 4. 9 44. 20.8 44. 2. 44.2 26. 44. 29.6 44.0 2. 4.9.9 2. 2.. 26..4 29.4.2 2..2. 2 6. 26.2 6.4 29.2 6.2 2.0 6.. 2.9 9. 24. 22. 2. 2.4 2. 2. 0.0 0.0.4.4 2.4 9. 2. 22. 2.2 2.2 2.4 28. 2... 2.6 9 4.2 9.2 4. 22.2 4. 2. 4.0 28. 40.9.0 40.8 2.4 2 0.6 22.0 0.4 2.0 0. 2.9 0.2 0.8 0.2 2. 2 60. 24.8 60.4 2. 60. 0.6 60.2 2. 9.2 6. 20.9 20.2 22.9 22.9 2. 2. 28.4 28.4 29.8 29.8 2.6.0 2. 20.0 28.0 2.0 28.9 26.2 0.0 29.4 0.8 0.8 9..4. 20.4.2 2.. 26.2. 29..2 0.6 2 4.0 20.4 46.8 2. 46.8 26.2 46. 29.2 46.6 0.6 2. 2.2.0 26. 6.9 29. 6.8 0. 2. 8.0 2.8 2.0 2.0 2.0 2. 2. 28. 28. 29.8 29.8 29.6 8.0 29. 20.9 29.4 2.8 29.4 26. 29.9 29. 0. 0. 9 8..9 8.2 20.8 8. 2. 8.0 26.6.9 29..8 0.9 2 4. 20.6 4. 2. 8.0 26.6 4. 29.4 4. 0.8 2. 2..2 26.. 29.2.0 0.6.8 6.0 9. 9. 2.6 2.6 24.4 24.4 2.2 2.2 28.6 28.6 2. 6.2 2.6 9. 26.0 22. 26. 2.2 2.9 2.9 28.8 28.8 9 4. 6.2 4.6 9.2 4.6 22. 4. 2.0 4. 2.9 4. 29.4 2 44. 9. 44.0 22. 4.9 2.0 4.8 2.8 4.8 29. 2 4. 2.9 4.0 24.8.9 2..8 29.2.8.6 6.6 6.6 9. 9. 22.6 22.6 2. 2. 2.0 2.0 9.4.4 20.6 6. 22.0 20. 2. 2.4 2. 2. 2.0 2.0 9 29.8 4. 29.8. 29. 9.9 0.0 2.0 0. 26.. 2. 2 40.0. 9.9 20. 9.9 2.2 9.8 26. 9.8 2. 2 0. 20.2 0.2 2.2 0. 26.0 0. 2...0.4.4 20. 20. 22.9 22.9 2.6 2.6 2.0 2.0 2.0.0 22.9.9 2. 20.8 2.9 2.8 2. 2. 2.0 2.0 9. 4.9..9.6 20.8. 2.6.4 26.. 28.0 2 40.9. 40.8 20.6 40. 2. 40.6 26.4 40.6 2.9 2 0.8 20.4 0. 2.4 0.6 26. 0. 2. 2.9 2.9.. 8.6 8.6 2. 2. 24.4 24.4 2. 2. 8. 2.8 8.9.9 20.2 9.2 2.9 2.9 24.4 24.4 2.8 2.8 9 2.6.2 2.6 6. 2. 9.0 2. 22.0 28.2 2.0 28.6 26. 2. 6.. 9.0.0 2.9 6.9 24.8 6.9 26.2 2 4.2 8.9 4. 2.9 4.0 24. 4.0 26.2 9. 9..4.4 6.6 6.6 9. 9. 22. 22. 24. 24.. 9.8 4..6.. 9.8 9.8 22. 22. 24.2 24.2 9 2.0 0. 2.2.4 22.0 6.6 2. 9.9 24.8 2.2 2. 24.9 2 2.2 4. 2.2.0 2.2 9.9 2.2 22.9 2. 24.4 2 42.9.2 42.8 20. 42. 2.0 42. 24.4 R.t. w.b. ( ) Tw ( ) Δt ( ) Room temperature d.b.( ) 2 2 2 2 29 0 Pc Pcs Ph Pe Ph Pe Ph Pe Ph Pe Ph Pe (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw) (kw).6.6 4. 4... 20. 20. 22.8 22.8 24.2 24.2.9.8 6.4 4.9.. 20. 20. 22.8 22.8 24.2 24.2 9 24..9 24.6 4.8 24.6. 24.6 20.6 2. 2.6 2.4 2. 2.9 4.8.8.. 20.6. 2.4.6 24.9 2 4.8.6 4. 20. 4.6 2.4 4. 24.8 9. 9. 2. 2... 8.6 8.6 2. 2. 22.9 22.9 0.9 9..2..8.8 8. 8. 2. 2. 22.9 22.9 9 9. 9.9 9. 2.8 20..8 2.2 9.0 22. 22. 2. 2. 2 29.. 29. 6.0 29. 8.9 29. 2. 29.6 2.2 2 9. 6.0 9. 8.9 9.6 2. 9.6 2.2.6.6 0.0 0.0.. 6. 6. 9.8 9.8 2.2 2.2.6.6 0.0 0.0.6.6 6.8 6.8 9.8 9.8 2. 2. 9 9.2.9 2. 9.9..6.8.2 20.2 20.2 2.4 2.4 2 2.0 0.6 2.0. 2. 6.6 24.8 9.8 2.4 2.4 2 4. 4. 4.6 6.9 4.6 9.8 4. 2.2 8.6 8.6.6.6 4. 4..2.2 20.0 20.0 2. 2. 9. 8.9.6.6 4. 4... 20.0 20.0 2.4 2.4 9.0 8.9 6.9..4 4. 8.4.8 20. 20. 2.4 2.4 2 26.4.8 26. 4. 26..6 26.2 20.4 26.4 2.9 2 6. 4.6 6.2. 6. 20.4 6. 2.8.9.9 9.6 9.6 2. 2... 8.6 8.6 20. 20..9.9 9.6 9.6 2.8 2.8.8.8 8. 8. 20. 20. 9 9.2.9.6 9..8.0 6. 6. 8. 8. 20. 20. 2 2.0 9.9 2.0 2. 2.. 22.4 8.9 2.0 20.4 2..0.6.8. 8.. 20. 2.8 2.8.6.6 0.2 0.2.6.6 6.8 6.8 8. 8. 2.8 2.8.6.6 0.2 0.2.. 6.8 6.8 8. 8. 9 2.9 2.8.6.6 0. 0... 6.8 6.8 8.4 8.4 2 0. 6.. 9.9 6.2. 8..0 9.6 8. 2 2.0 0.6 2.0. 2. 6. 2.9 8.0.. 8. 8..6.6 4.4 4.4.2.2 8. 8... 8. 8..6.6 4.4 4.4.2.2 8.6 8.6 9 8.. 9.8 8.8.8.8 4. 4..2.2 8.6 8.6 2 8.2 8.8 8..6 8.4 4.6 9.2.6 9.8 9.2 2 28.2. 28.2 4.6 28..4 28. 8.8 2.2 2.2 6. 6. 9.6 9.6 2.8 2.8...2.2 2.2 2.2 6. 6. 9. 9. 2.8 2.8.8.8.2.2 9 2. 2. 6. 6. 9. 9. 2.8 2.8.8.8.2.2 2 0. 6.0 2. 9.4 4.4 2.9 6. 6.2.6.6 2 22.6 9.8 22.6 2.6 22.9.6 2.2. 0.4 0.4 2.8 2.8.8.8 0. 0..... 0.4 0.4 2.8 2.8.8.8 0.4 0.4.8.8.. 9 0.4 0.4 2.8 2.8.9.9 0.4 0.4.8.8.4.4 2 2.9 2. 6.0 6.0 0. 0..9.9.4.4 2 2.0 6. 4.8 9.9..4 8.. R.t. w.b. ( ) HEATING MODE OOLING MODE Key Pc Pcs Tw R.t. w.b. ooling capacity Sensitive cooling capacity Temperature of produced water Room temperature (wet bulb) Aermec cod. 68080_0.09

0. YIELDS AND TEMPERATURES DIFFERT FROM THE NOMINAL FUNTIONING VALUE IN HEATING MODE HEATING MODE OOLING MODE Water flow rate (l/h) 00 400 00 200 00 000 900 800 00 600 00 400 00 200 00 0 0 TUN04 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 2 4 6 8 9 0 2 4 Heating capacity (kw) Water flow rate (l/h) 00 400 00 200 00 000 900 800 00 600 00 400 00 200 00 0 0 TUN06 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 2 4 6 8 9 0 2 4 6 Heating capacity (kw) TUN4 TUN6 Water flow rate (l/h) 2400 2000 800 600 400 200 000 800 600 400 200 0 0 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 2 4 6 8 0 2 4 6 8 20 22 24 Water flow rate (l/h) 2400 2000 800 600 400 200 000 800 600 400 200 0 0 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 2 4 6 8 0 2 4 6 8 20 22 24 26 28 Heating capacity (kw) Heating capacity (kw) TUN204 TUN206 000 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 000 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 200 200 Water flow rate (l/h) 2000 00 000 00 Water flow rate (l/h) 2000 00 000 00 0 0 2 4 6 8 0 2 4 6 8 20 22 24 26 28 0 2 0 0 2 4 6 8 0 2 4 6 8 20 22 24 26 28 0 2 4 Heating capacity (kw) Heating capacity (kw) 2 Aermec cod. 68080_0.09

TUN24 4000 600 200 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 TUN26 4000 600 200 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 HEATING MODE Water flow rate (l/h) 2800 2400 2000 600 200 800 400 0 0 2 4 6 8 0 2 4 6 8 20 22 24 26 28 0 2 4 6 8 40 42 Heating capacity (kw) Water flow rate (l/h) 2800 2400 2000 600 200 800 400 0 0 2 4 6 8 0 2 4 6 8 20 22 24 26 28 0 2 4 6 8 40 42 44 Heating capacity (kw) OOLING MODE TUN404 TUN406 Water flow rate (l/h) 200 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 4800 4400 4000 600 200 2800 2400 2000 600 200 800 400 0 0 0 20 0 40 0 60 Heating capacity (kw) Water flow rate (l/h) 200 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 4800 4400 4000 600 200 2800 2400 2000 600 200 800 400 0 0 0 20 0 40 0 60 0 Heating capacity (kw) Water flow rate (l/h) TUN404P 200 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 4800 4400 4000 600 200 2800 2400 2000 600 200 800 400 0 0 0 20 0 40 0 60 0 Heating capacity (kw) Water flow rate (l/h) TUN406P 200 Tw 40 Tw 0 Tw 60 Tw 0 Tw 80 4800 4400 4000 600 200 2800 2400 2000 600 200 800 400 0 0 0 20 0 40 0 60 0 Heating capacity (kw) Aermec cod. 68080_0.09

. VTILATION HARATERISTI URVES.. TUN0 4 ROWS 00 40 The following diagrams show the flow rate-useful static pressure curves (at vent) of TUN units. These curves refer to a 4-row coil unit with a 0% clogging degree of the G2 filter. For units with different configurations or accessories, reduce the useful static pressure with the pressure drop values of the added components. The values of these pressure drops can be found on the tables below the charts. Useful static pressure [Pa] 400 0 00 20 200 v 0 00 Key v-v2-v Fan speed 0 0 v v2 400 00 600 00 800 900 000 00 Air flow rate [m /h] FLOW RATE m³/h 400 00 600 00 800 900 000 Intake grid GAP Pa -4 - -9-2 - -9-2 Module with silencer baffles SSL Pa -6-0 - -8-22 -28-4 Return ventilating section VRF Pa 264 6 484 66 62 92 Mixing chamber dampers MS Pa - - -2 - - -4 - Mixing chamber 2 dampers M2S Pa 0 0 - - - - -2 2-area damper 0-0 S2Z Pa - - -2-2 - - -4 Soft bag filters FTF Pa -6-9 -2-6 -2-2 - 6R coil respect to 4R Pa -4-6 -9 - -4 - -2 Water post-heating coil 2R - B2R Pa - -6-2 -0-8 -4 - Water post-heating coil R - BR Pa - - - -9 - -4 - Electric post-heating coil PBE Pa -2 - -4 - -6-8 -9 losed flow plenum PM Pa 0 0 0 0 0 0 0 Plenum with multiple circular flow attachments PMM Pa 0 0 0 - - - - Intake damper SAS Pa 0 0 - - - - -2 Flow grid with adjustable louvers GMD Pa - -2 - -4 - -6-4 Aermec cod. 68080_0.09

.2. TUN0P 4 ROWS 00 40 400 Useful static pressure [Pa] 0 00 20 200 0 v v2 Key v-v2-v Fan speed 00 0 0 00 600 00 800 900 000 00 200 Air flow rate [m /h] v FLOW RATE m³/h 00 600 00 800 900 000 00 200 Intake grid GAP Pa - -9-2 - -9-2 -2-2 Module with silencer baffles SSL Pa -0-4 -8-2 -29 - -4-48 Return ventilating section VRF Pa 99 66 20 248 29 4 Mixing chamber dampers MS Pa - -2 - - -4 - -6 - Mixing chamber 2 dampers M2S Pa -2 - -4 - -6 - -9-0 2-area damper 0-0 S2Z Pa -6-8 - -4 - -2-2 -29 Soft bag filters FTF Pa -9-2 -6-2 -2 - - -4 6R coil respect to 4R Pa -6-9 - -4 - -2-2 -29 Water post-heating coil 2R - B2R Pa -6-2 -0-8 -4 - -6-8 Water post-heating coil R - BR Pa - - -9 - -4 - -20-2 Electric post-heating coil PBE Pa - -4 - -6-8 -9 - - losed flow plenum PM Pa 0 0 0 0 0 0 0 0 Plenum with multiple circular flow attachments PMM Pa 0 0 - - - - - -2 Intake damper SAS Pa -2 - -4 - -6 - -9-0 Flow grid with adjustable louvers GMD Pa -2 - -4 - -6 - -9-0 Aermec cod. 68080_0.09

.. TUN 4 ROWS 40 Useful static pressure [Pa] 400 0 00 20 200 0 00 v Key v-v2-v Fan speed 0 0 v v2 00 00 900 00 00 00 00 Air flow rate [m /h] FLOW RATE m³/h 00 00 900 00 00 00 00 Intake grid GAP Pa - -8 - -9-26 - -42 Module with silencer baffles SSL Pa - -6-0 -4-9 -2 - Return ventilating section VRF Pa 2 09 4 40 66 Mixing chamber dampers MS Pa - - -4-6 -8-0 - Mixing chamber 2 dampers M2S Pa - -2 - -4 - - -9 2-area damper 0-0 S2Z Pa - - -8 - - -9-24 Soft bag filters FTF Pa -9-6 -2 - -49-64 -80 6R coil respect to 4R Pa -2 - - -0 - -8-2 Water post-heating coil 2R - B2R Pa -6-2 -9-2 -6-46 -8 Water post-heating coil R - BR Pa - -6-9 - - -22-28 Electric post-heating coil PBE Pa - -2 - -4-6 -8-0 losed flow plenum PM Pa 0 0 0 0 0 0 0 Plenum with multiple circular flow attachments PMM Pa 0 0 - - - -2-2 Intake damper SAS Pa - -2 - -4 - - -9 Flow grid with adjustable louvers GMD Pa - -2 - -4 - - -9 6 Aermec cod. 68080_0.09

.4. TUN20 4 ROWS 00 Useful static pressure [Pa] 40 400 0 00 20 200 0 00 v Key v-v2-v Fan speed v v2 0 0 00 000 00 600 900 2200 Air flow rate [m /h] FLOW RATE m³/h 00 000 00 600 900 2200 Intake grid GAP Pa - -9 - -22-0 -9 Module with silencer baffles SSL Pa - -2 - - -6-8 Return ventilating section VRF Pa 4 8 2 82 248 22 Mixing chamber dampers MS Pa - -2 - -4 - - Mixing chamber 2 dampers M2S Pa - -2 - - -6-8 2-area damper 0-0 S2Z Pa - - -8 - - -20 Soft bag filters FTF Pa -6 - -49-2 -98-2 6R coil respect to 4R Pa - - -8 - -6-2 Water post-heating coil 2R - B2R Pa -8 - -24 - -48-62 Water post-heating coil R - BR Pa -4 - - - -2-29 Electric post-heating coil PBE Pa - -2-4 - - -9 losed flow plenum PM Pa -4 - - -6-22 -28 Plenum with multiple circular flow attachments PMM Pa - - -2-2 - -4 Intake damper SAS Pa - -2 - - -6-8 Flow grid with adjustable louvers GMD Pa - -2 - - -6-8 Aermec cod. 68080_0.09

.. TUN2 4 ROWS 40 400 Key v-v2-v Fan speed Useful static pressure [Pa] 0 00 20 v 200 0 v v2 00 0 0 800 00 400 00 2000 200 2600 Air flow rate [m /h] FLOW RATE m³/h 800 200 600 2000 2400 2800 Intake grid GAP Pa - - - - -24 - Module with silencer baffles SSL Pa - - -2-4 - - Return ventilating section VRF Pa 42 8 4 2 0 98 Mixing chamber dampers MS Pa - -2-4 -6-8 -0 Mixing chamber 2 dampers M2S Pa - - -2-4 - - 2-area damper 0-0 S2Z Pa -2 - -6-9 -2-6 Soft bag filters FTF Pa -6-2 -2 - -4-6 6R coil respect to 4R Pa - - - -9-2 -6 Water post-heating coil 2R - B2R Pa - -0 - -2 - -4 Water post-heating coil R - BR Pa -2 - -8-2 - -22 Electric post-heating coil PBE Pa - -2 - -4 - - losed flow plenum PM Pa 0 0 0 0 0 0 Plenum with multiple circular flow attachments PMM Pa 0 - -2-2 - -4 Intake damper SAS Pa - - -2-4 - - Flow grid with adjustable louvers GMD Pa - - -2-4 - - 8 Aermec cod. 68080_0.09

.6. TUN40 4 ROWS Key v-v2-v Fan speed Useful static pressure [Pa] 40 400 0 00 20 200 0 00 v 0 v v2 0 00 00 200 200 2900 00 00 400 400 Air flow rate [m /h] FLOW RATE m³/h 00 2000 200 000 00 4000 400 Intake grid GAP Pa - -9 - -8-24 - -8 Module with silencer baffles SSL Pa - -8-2 - -22-28 - Return ventilating section VRF Pa 4 8 62 24 22 Mixing chamber dampers MS Pa -2 - -4 - - -9 - Mixing chamber 2 dampers M2S Pa 0 0 - - - - -2 2-area damper 0-0 S2Z Pa - -4-6 -9-2 - -8 Soft bag filters FTF Pa -9 - -22 - -4-2 -64 6R coil respect to 4R Pa - -4-6 -8-2 -4 - Water post-heating coil 2R - B2R Pa - - -9-26 -4-44 -4 Water post-heating coil R - BR Pa -4-6 -9-2 -6-2 -26 Electric post-heating coil PBE Pa - -2 - -4 - - -8 losed flow plenum PM Pa 0 0 0 0 0 0 0 Plenum with multiple circular flow attachments PMM Pa -2 - -4-6 -8-0 -2 Intake damper SAS Pa 0 0 - - - - -2 Flow grid with adjustable louvers GMD Pa - -2 - -4 - - -8 Aermec cod. 68080_0.09 9

.. TUN40P 4 ROWS Key v-v2-v Fan speed Useful static pressure [Pa] 00 40 400 0 00 20 200 0 00 v v v2 0 0 200 000 00 4000 400 000 00 Air flow rate [m /h] FLOW RATE m³/h 200 000 00 4000 400 000 00 Intake grid GAP Pa - -8-24 - -8-46 - Module with silencer baffles SSL Pa - - -2-29 -6-44 -2 Return ventilating section VRF Pa 42 8 6 9 20 4 2 Mixing chamber dampers MS Pa -4 - - -9 - - -6 Mixing chamber 2 dampers M2S Pa - - - - -2-2 -2 2-area damper 0-0 S2Z Pa -6-9 -2 - -8-22 -2 Soft bag filters FTF Pa -22 - -4-2 -64 - -92 6R coil respect to 4R Pa -6-8 -2-4 - -22-2 Water post-heating coil 2R - B2R Pa -9-26 -4-44 -4-6 -8 Water post-heating coil R - BR Pa -9-2 -6-2 -26 - - Electric post-heating coil PBE Pa - -4 - - -8-0 -2 losed flow plenum PM Pa 0 0 0 0 0 0 0 Plenum with multiple circular flow attachments PMM Pa -4-6 -8-0 - - -8 Intake damper SAS Pa - - - - -2-2 -2 Flow grid with adjustable louvers GMD Pa - -4 - - -8-0 -2 40 Aermec cod. 68080_0.09

2. PRESSURE DROPS OF FILTERS DUE TO FOULING The following charts determine the pressure drops of the filters with different levels of fouling. From the chart on the left, bearing the air flow rate (m³/h) in the axis of abscissae, move up from the concerned flow rate until you intersect the straight line corresponding to the unit size. At this point, tracing a straight line parallel to the axis of abscissae intersect one of the three curves shown on the right chart each representing the clogging degree of the filter as follows: curve ❶ : filter clean curve ❷ : filter clogged 2% curve ❸ : filter clogged 0% To determine the value corresponding to the filter pressure drop, trace a straight line until the axis of abscissae. 2.. PRESSURE DROP OF FLAT FILTERS DUE TO FOULING: 2 4 2 0 000 2000 000 4000 000 6000 0 0 20 0 40 0 60 0 80 Air flow rate [m /h] Pressure drops [Pa] 2 4 TUN 0-0P TUN TUN 20 TUN 2 TUN 40 40P 2.2. PRESSURE DROP OF BAG FILTERS DUE TO FOULING: 2 4 2 0 000 2000 000 4000 000 6000 0 20 40 60 80 00 20 Air flow rate [m /h] Pressure drops [Pa] 2 4 TUN 0-0P TUN TUN 20 TUN 2 TUN 40 40P Aermec cod. 68080_0.09 4

. OPERATIONAL LIMITS Summer coil inlet air temperature Winter coil inlet air temperature Rela ve humidity (summer-winter) oil inlet water temperature (cold H 2 O) Heat drop H 2 O oil inlet water temperature (hot H 2 O) Heat drop H 2 O Evapora on temperature min 2 max 4 min - max 24 min 20 % max 90 % min 4 max 2 min max 8 min 40 max 80 min max 2 min 2 max 2 ATTTION. Provide protection against freezing. 4. SOUND DATA TUN Pow. db(a) Octave band [Hz] 00 2 60 200 20 400 00 60 800 000 20 600 2000 200 0 4000 000 600 8000 0000 Sound potential for central band db (A) frequency 04 4 204 24 404 04P 404P Total 68.04 44.48 4.0 4.4.94 8.68 4.68.4.6 6.9..0.06 8.6..49 4.2 2. 0.0 46.96 44.28 40.49 Irradiated intake 66.4 42.98 4. 2.9 6.44.8.8 2.24 4.26.09.8..6..8.99 2.62 0.6 48. 4.46 42.8 8.99 Flow 6.4.98 40. 4.9.44 2.8 48.8 4.24 49.26 0.09 46.8 48. 0.6 2. 0.8 48.99 4.62 4.6 4. 40.46.8.99 Total 2.04 48.48.0 8.4 6.94 62.68 8.68.4 9.6 60.9. 9.0 6.06 62.6 6. 9.49 8.2 6. 4.0 0.96 48.28 44.49 Irradiated intake 0.4 46.98 49. 6.9 60.44 6.8.8 6.24 8.26 9.09.8. 9.6 6. 9.8.99 6.62 4.6 2. 49.46 46.8 42.99 Flow 6.4 4.98 44..9.44 6.8 2.8.24.26 4.09 0.8 2. 4.6 6. 4.8 2.99.62 49.6 4. 44.46 4.8.99 Total.04.48 6.0 6.4 66.94 6.68 6.68 62.4 64.6 6.9 62. 64.0 66.06 6.6 66. 64.49 6.2 6. 9.0.96.28 49.49 Irradiated intake.4.98 4. 6.9 6.44 66.8 62.8 6.24 6.26 64.09 60.8 62. 64.6 66. 64.8 62.99 6.62 9.6. 4.46.8 4.99 Flow 0.4 46.98 49. 6.9 60.44 6.8.8 6.24 8.26 9.09.8. 9.6 6. 9.8.99 6.62 4.6 2. 49.46 46.8 42.99 Total 8.04 4.48.0 64.4 6.94 68.68 64.68 6.4 6.6 66.9 6. 6.0 6.06 68.6 6. 6.49 64.2 62. 60.0 6.96 4.28 0.49 Irradiated intake 6.4 2.98. 62.9 66.44 6.8 6.8 62.24 64.26 6.09 6.8 6. 6.6 6. 6.8 6.99 62.62 60.6 8..46 2.8 48.99 Flow.4 4.98 0..9 6.44 62.8 8.8.24 9.26 60.09 6.8 8. 60.6 62. 60.8 8.99.62.6. 0.46 4.8 4.99 Total 9.04.48 8.0 6.4 68.94 69.68 6.68 64.4 66.6 6.9 64. 66.0 68.06 69.6 68. 66.49 6.2 6. 6.0.96.28.49 Irradiated intake.4.98 6. 6.9 6.44 68.8 64.8 6.24 6.26 66.09 62.8 64. 66.6 68. 66.8 64.99 6.62 6.6 9. 6.46.8 49.99 Flow 2.4 48.98. 8.9 62.44 6.8 9.8 8.24 60.26 6.09.8 9. 6.6 6. 6.8 9.99 8.62 6.6 4..46 48.8 44.99 Total.04 4.48 0.0.4 60.94 6.68.68 6.4 8.6 9.9 6. 8.0 60.06 6.6 60. 8.49.2..0 49.96 4.28 4.49 Irradiated intake 69.4 4.98 48..9 9.44 60.8 6.8.24.26 8.09 4.8 6. 8.6 60. 8.8 6.99.62.6. 48.46 4.8 4.99 Flow 64.4 40.98 4. 0.9 4.44.8.8 0.24 2.26.09 49.8..6..8.99 0.62 48.6 46. 4.46 40.8 6.99 Total 80.04 6.48 9.0 66.4 69.94 0.68 66.68 6.4 6.6 68.9 6. 6.0 69.06 0.6 69. 6.49 66.2 64. 62.0 8.96 6.28 2.49 Irradiated intake 8.4 4.98. 64.9 68.44 69.8 6.8 64.24 66.26 6.09 6.8 6. 6.6 69. 6.8 6.99 64.62 62.6 60..46 4.8 0.99 Flow.4 49.98 2. 9.9 6.44 64.8 60.8 9.24 6.26 62.09 8.8 60. 62.6 64. 62.8 60.99 9.62.6. 2.46 49.8 4.99 42 Aermec cod. 68080_0.09

. DIMSIONAL DATA A D B OUT IN 4 2 hole for IN electric ondensation cables drain OUT 40 24 Model TUN0 TUN0P TUN TUN20 TUN2 TUN40 TUN40P ONNETIONS oil collectors Ø Direct expansion coil pipes IN Øi mm 6 6 6 6 6 22 22 OUT Øi mm 22 22 22 22 22 28 28 ondensate drain Ø /4 /4 /4 /4 /4 /4 /4 DIMSIONS WEIGHTS unit without packaging (HORIZONTAL ONFIGURATION AND EXTRATOR ONFIGURATION) Height A mm 00 00 00 90 90 90 90 Width B mm 00 00 00 00 4 4 200 Depth mm 00 00 00 80 80 80 000 onnection projection mm 82 82 82 82 82 82 82 NET WEIGHT UNITS WITH OILS EXTRATOR With 4-row coil kg 4 9 88 88 08 With 6-row coil kg 8 49 6 92 92 08 Aermec cod. 68080_0.09 4

TEHNIAL SETION INSTALLER SETION USER SETION Standards complied with WH DESIGNING and ONSTRUTING the unit: SAFETY. Machinery directive 2006/42/E 2. Low voltage directive LVD 2006/9/E. Electromagnetic compatibility directive EM 2004/08/E 4. Directive regarding pressurised devices PED 9/2/E, 8. UNI2, UNI426 ELETRI PART. IE 60 2 40 2. IE 6000 6 /2//4 AOUSTI PART. ISO DIS 964/2 intensimetric method PROTETION RATING IP24 ATTTION The appliance cannot be used:. for outdoor air handling 2. for installation in humid environments. for installation in explosive atmospheres 4. for installation in corrosive atmospheres. Make sure the environment where the appliance is installed has no substances which could corrode the aluminium fins. 6. GERAL WARNINGS FOR INSTALLER The air-conditioning units of the TUN series are intended for civil, commercial and hotel systems in small to medium sized environments. The units, designed to guarantee elevated static pressures, are set up for vertical and horizontal installation in order to be more versatile. This type of unit can serve several rooms by means of a distribution plenum. The units in this series are distinguished by their compactness, low noise and wide range of accessories. 6.. PRESERVATION OF THE DOUMTATION. The instructions along with all the related documentation must be given to the user of the system, who assumes the responsibility to conserve the instructions so that they are always at hand in case of need. 2. Read this sheet carefully; the execution of all works must be performed by qualified staff, according to Standards in force on this subject in different countries.. The appliance must be installed in such a way as to enable maintenance and/or repairs to be carried out. 4. The appliance warranty does not cover the costs for ladders, scaffolding, or other elevation systems that may become necessary for carrying out servicing under warranty.. GERAL SAFETY PRESRIPTIONS Before installing the unit, check to make sure it has not been damaged during transportation: using a damaged machine could be dangerous. PAKAGING The TUN series air conditioning units are generally supplied on pallets and packed in cardboard boxes. STORAGE ON SITE The TUN series units must be stored indoors. VERIFIATIONS UPON REEPTION On receipt of the unit, a visual control must be carried out to check that no damage has occurred during transport. If damage has occurred it must be highlighted on the accompanying transport document.. Do not modify or tamper with the chiller as dangerous situations can be created and the manufacturer will not be liable for any damage caused. The validity of the warranty shall be void in the event of failure to comply with the abovementioned indications. 6.2. WARNINGS REGARDING SAFETY AND INSTALLATION STANDARDS. The forced air heater must be installed by a qualified and suitably trained technician, in compliance with the national legislation in force in the country of destination. AERME will not assume any responsibility for damage due to failure to follow these instructions. 2. Before beginning any operation, READ THESE INSTRUTIONS AREFULLY AND ARRY OUT THE SAFETY HEKS TO REDUE ALL RISK OF DANGER TO A MINIMUM. All the staff involved must have thorough knowledge of the operations and any dangers that may arise at the moment in which the installation operations are carried out. AESSING UNIT Only operators and qualified technicians may access the unit once it is installed. By operator we mean a person authorised by the owner of the machine to perform operations on it (in compliance with that provided in this manual). By technician we mean a person authorised by Aermec or under the full responsibility of an Aermec distributor to perform operations on the machine. By machine owner we mean the legal representative of the company, body or physical person who owns the system on which the Aermec unit is installed. He is responsible to make sure that all safety standards indicated in this manual and standards in force are complied with. Since this unit is generally installed on a suspended ceiling, the lower panelling must be accessible in order to inspect the filters and fans. ONERNED PART RESIDUAL RISK METHOD PREAUTIONS Inside unit: heat exchange finned coil small cuts contact avoid contact, use protective gloves Electric heating coil burns, injuries contact avoid contact intoxication, electrocution, serious burns Inside unit: metal parts and electric cables Outside of unit: zone around unit serious burns faulty insulation of power cables upstream electric control board of unit; live metal parts fire caused by short-circuit or overheating of power line upstream electric control board of unit adequate electric protection of power line; utmost care when earthing metal parts cross-section of cables and protective system of electric power line in compliance with standards in force RESIDUAL RISKS Installation, start-up, shutdown and maintenance of the unit must be carried out in compliance with that provided in the product's technical documentation and anyhow in such a way as not to create any situation of risk. The unit has been designed to reduce risks for the safety of the persons interacting with it to a minimum. During designing, it was not technically possible to fully eliminate the causes of risks. Therefore it is absolutely necessary to refer to the following prescriptions. 44 Aermec cod. 68080_0.09

8. INSTALLATION 8.. MINIMUM TEHNIAL SPAES All the required technical spaces must be checked before starting installation, in order to envision:. renewal and expulsion air ducting position; 2. passage of cables for power supply;. proper maintenance and cleaning operations. In particular:. a space of at least 200 mm must be available at the condensation drain to implement the siphon (more detailed instructions are found on the label); 2. there must be a space of at least 400 mm near the water coil collectors to install the valve;. there must be a space of at least,000 mm for routine maintenance (eye checks, replacing and cleaning filters). 8.2. INSTALLATION OF THE UNIT The essential indications for the appliance to be installed correctly are found below. The completion of all operations, according to specific requirements, is left to the experience of the installer. The unit is supplied with support brackets to mount it on the wall or ceiling. The brackets can be mounted with the bends facing inwards or outwards. For different types of assemblies, the following instructions must be modified depending on specific worksite requirements. It is always advised to fix the brackets to the ceiling first of all (with expansion plugs or threaded tie rods) and then to fix the units to the brackets. When performing vertical installation, the screws fastening the brackets will rest on the shorter part of the slots. To fasten the unit to the wall, proceed as follows (see fig.):. mark the four holes for the expansion plugs; 2. prepare the fixing system (expansion plugs or tie rods);. fix the brackets to the wall or to the ceiling using nuts, washers and back nuts; 4. screw on the 4 side screws to the unit to the brackets;. for horizontal installation, before tightening the screws, nuts and back nuts make sure that condensation drains properly; 6. it is advised to provide a slight slope towards the drain to favour water runoff.. provide an earth cable as a bridge on the antivibration joint to guarantee equipotentiality between the ducks and the recovery unit; 4. prepare (before curves, branches, etc.) the flow duct with a straight tract measuring at least 2. times the smallest side of the duct to prevent the ducting from having inclinations in the branching tracts that exceed so that the fan does not lose efficiency. 8.4. HYDRAULI ONNETIONS: DRAINING ONDSATION The condensation drip tray is provided with a condensation drain for a ø 20 I rubber connection. A drain system must envision a suitable siphon to: allow free condensation draining; prevent the undesired entry of air into the depression systems; prevent the infiltration of smells or insects. The siphon must have a bleed plug on the bottom or must however allow quick disassembly for cleaning. The following rules must be followed to dimension and execute the siphon (see figure): H = 2P H2= H / 2 where P is the pressure expressed in mm of a column of water ( mm c.w. = 9.8 Pa). 8.. HYDRAULI ONNETIONS: WATER OIL All the water coil collectors are provided with male threaded connections for water inlet and outlet. For correct installation, abide by the following simple indications: for adverse weather conditions, it is recommended to provide anti-freeze devices; the pipe path must be studied in order not to create obstacles when the coil is extracted and to not make inspection and maintenance of the unit and other accessories impossible; while screwing the collectors and hydraulic circuit, do not generate strains which could damage the coil collectors; provide shut-off valves to isolate the coil from the rest of the circuit should it need to be disconnected from the hydraulic circuit; clamp the pipes adequately to the outside of the unit to prevent the weight being unloaded onto the coil; to connect the water supply pipes, respect the indications on the plates reading WATER INLET and WATER OUTLET on the outside panelling; mount an air bleed valve at the highest part of the circuit and a water drain valve at the lowest part. 4 OUT IN ondensation drain P POS Siphon dimensioning layout 8.. AERAULI ONNETIONS To install the ducts, it is recommended to:. prepare adequate bracketing to support the ducts so that the recovery unit does not bear their weight; 2. connect the flow and return vents to the ducts placing anti-vibration joints in between (duck). The anti-vibration joint must be screwed to the panel with self-threading screws avoiding that the duck joints are taut during operation; All TUN units have been designed to facilitate the configuration and customisation requested by the customer as much as possible. In particular, it is possible to invert the position of the water coil connections. 40 24 4 2 Aermec cod. 68080_0.09 4

9. REPOSITIONING OF INTERNAL OMPONTS 9.. WATER HEATING OR OOLING OIL If the water coil connections are not at the desired position, proceed as follows: remove the upper panel and the air flow panel (coil side); remove the coil cover; pull the coil out; turn the coil 80 ; put the coil back in and fasten it; re-mount the closing strap; put the panels back on. As for the hydraulic connections, proceed as follows: connect the drain pipe to the stub pipe of the tray and plug the opposite unused stub pipe; cut the two plastic plugs; screw the threaded sleeves onto the coil collectors. Perform the connections on the system, isolate all the piping and make sure that condensation drains correctly. If water is used as the heat carrying fluid, the danger of freezing must be absolutely avoid. 20. ELETRI ONNETIONS The forced air heaters are completely wired at the factory and only require connec on to the electrical mains, downstream from a unit switch, according to that envisioned by the Standards in force on this subject in the country of installation. It s also advised to check that:. The electrical mains features are suitable for the absorption values indicated in the electrical data table, also taking into consideration any other machines operating at the same time. 2. The unit is only powered when installation has been completed (hydraulic and electric).. Respect the connection indications of the phase, and earth wires. 4. The power supply line must have a relevant protection mounted upstream against short circuits and dispersions to earth, which isolates the system with respect to other utilities.. The voltage must be within a tolerance of ±0% of the nominal power supply voltage of the machine (for unbalanced three-phase unit max % between the phases). Whenever these parameters are not respected, contact the electric energy public body. 6. For electric connections, use the cables with double isolation according to the Standards in force on this subject in the different countries. MANDATORY. The use of an omnipolar magnet circuit breaker switch is mandatory, in compliance with the IE- Standards (contact opening at least mm), with suitable cut-off power and differential protection on the basis of the electric data table shown below, installed as near as possible to the appliance. 2. It is mandatory to make an effective earth connection. The manufacturer cannot be held responsible for any damage caused by the lack of or ineffective appliance earth connection.. For units with three-phase power supply, check the correct connection of the phases. All the electrical opera ons must be carried out bystaff IN POSSESSION OF THE NEESSARY QUALIFIATIONS BY LAW, suitably trained and informed on the risks related to these opera ons. The characteris cs of the electrical lines and of the related components must be determined by STAFF QUALIFIED TO DESIGN ELETRIAL SYSTEMS, in compliance with the interna onal and na onal regula ons of the place of installa on of the unit and in compliance with the regula ons in force at the moment of installa on. For the installa on requirements refer only to the electrical diagram supplied with the appliance. The electrical diagram along with the manuals must be kept in good condi on and ALWAYS AVAILABLE FOR ANY FUTURE SERVIING ON THE UNIT. It is mandatory to verify that the machine is water ght before making the electrical connec ons and it must only be powered up a er the hydraulic and electrical works have been completed. 20.. SPEIFIATIONS OF THE ONNETION ABLES Use H0V-K or N0V-K power cables with 00/00 V insulation if enclosed inside a pipe or trough. Use cables with double H0W-F type insulation for visible cable installation. 20.2. ONNETION TO MAINS POWER SUPPLY. Before connec ng the unit electrically to the mains power supply, make sure that the disconnec on switch is open. 2. Use cable glands to pass the main electric power cable andthe cables of the other external connec ons under the installer's responsibility.. It isprohibited to enter electric cables in posi ons not specifically envisioned in this manual. 4. Avoid direct contact with non-isolated copper piping and with the compressor.. Iden fy the clamps for the electric connec on, only refer to the wiring diagram supplied with the unit. 6. For the func onal connec on of the unit, take ATTTION It is prohibited to use the water pipes to earth the appliance. Use the connectors marked with the earth symbol to perform the earth connection of the unit and of other accessories to the building. ATTTION heck the tightening of all power wire terminals on commissioning and after 0 days from startup. Subsequently they must be checked every six months. Loose terminals can cause overheating of the cables and components. 46 Aermec cod. 68080_0.09

the power cable to the electric control board inside the unit and connect it to the terminals respec ng their polarity.. Re-posi on the inspec on panels. 8. Make sure thatall protec ons removed for the electric connec on have been restored before electrically restoring the unit. 9. Posi on the system master switch (external to the appliance) at ON. 20.. ELETRI BATTERY ONNETION Follow the indica ons given below for correct electric ba ery connec on: provide adequate protec on upstream the unit with residual circuit breaker switches; always connect the safety thermostats to ensure power shut-off of the electric ba ery in case of overtemperature; the safety thermostats must be in series with the control thermostat (not supplied); the ba ery power supply must be interlocked with the fans; always connect the earth cable of the electric ba ery to the proper terminal in the electric box. 20.4. ELETRI MOTOR ONNETION See diagrams page xx) The electric motors are connected on the terminal boards mounted inside the unit for TUN 0-0P- and on the screw feeder of one of the fans for TUN 20-2- 40-40P units. For units equipped with two motors, the power and earth cables are provided on a terminal board for each fan. 20.. ONNETION WITH ELETRONI THERMOSTAT WMT0 See diagrams page 8) For fan coils installed in 2-pipe systems. The panel must be installed on the wall and protected electrically with an internal fuse. It has the following functions: on / off switch; cursor to select the hea ng / cooling modes (manual season change); cursor to select the fan speed (high, medium and low); temperature selector (+ 0 ); in the event of a power outage, it starts the fan coil keeping the se ngs ac ve before the previous shutdown; inside environment probe. EAH PANEL AN ONTROL ONE UNIT ALONE. The control panel is composed solely of electric circuits connected to the 20V mains power voltage; all inputs must therefore be insulated for this voltage. WMT0 can only be installed by specialised personnel. Disconnect power before beginning any installation or maintenance activity. Touching live components can cause a dangerous electrical shock. The panel must be installed on a flat, non-conductive and non-flammable wall, in closed, dry environments. After the control panel has been installed, it is ready to work, but the exact intervention point will be reached after approximately 2 hours of use. 20.6. ONNETION WITH ONTROL PANEL WMT0 See diagrams page 8) Wall installation. ontrols operation of the unit according to the set mode. The panel must be wall mounted; it is to be used in 4-pipe and 2-pipe systems and systems with 2-pipes with resistance, with the possibility of connecting two ON - OFF type valves for the cut-off of the coil supply water. The panel is protected electrically by an internal fuse. The control has the following functions:. cursor to select the cooling, off or heating mode; 2. manual season change;. manual selection of the fan speed; 4. selection of the desired room temperature (+ 0 to 0 );. thermostated ventilation; 6. continuous ventilation;. continuous ventilation in cooling mode and thermostated in heating mode; 8. when switched on, it starts the unit keeping the settings active before the previous shutdown; 9. after a power outage, it restarts keeping the settings active before the previous shutdown; 0. air temperature probe incorporated in panel;. ventilation mode is chosen by means of the Jumper upon installation. EAH PANEL AN DIRETLY ONTROL ONE UNIT ALONE. The control panel is composed solely of electric circuits connected to the 20V mains power voltage; all inputs must therefore be insulated for this voltage. The servo controls of the valves must also be dimensioned for 20V. WMT0 can only be installed by specialised personnel. Disconnect power before beginning any installation or maintenance activity. Touching live components can cause a dangerous electrical shock. NOTE: For further information, refer to the accessory instructions on the website www.aermec. com WMT0 WMT0 Aermec cod. 68080_0.09 4

ATTTION We recommend to envision a machine book (not supplied, but the user's responsibility), which allows to keep track of the interventions performed on the unit. In this way it will be easy to suitably organise the interventions making troubleshooting and the prevention of any machine breakdowns easier. Use the book to record date, type of intervention made (routine maintenance, inspection or repairs), description of the intervention, measures actuated, etc. ATTTION Inspection, maintenance and eventual repair work must be carried out only by a legally qualified technician. ATTTION Lack of control/maintenance can cause damage to persons or objects. ATTTION For appliances installed near the sea, the maintenance intervals must be doubled. ATTTION Before accessing the unit for maintenance and/or cleaning, make sure that it is not live, that it cannot be powered without the operator knowing it and that the heat exchange coils are not on. ATTTION When maintenance is finished, always close the unit with its panels, fixing them with screws. ATTTION Envisions that disposal of the unit is carried out in conformity with the Standards in force in the different countries. 2. MAINTANE Wear proper personal protective equipment (PPE) to perform maintenance. The TUN series units have been designed to require little maintenance and to make every operation convenient. The following is simple advice for correct maintenance of the unit. In any event the maintenance program must be carried out by a specialised technician. 2.. ROUTINE MAINTANE Routine maintenance consists in simple operations which should be performed monthly as follows: HEK:. that the screws fixing the fans to the panels are tight; 2. that the unit's electric power cable has no alterations which would jeopardise its insulation;. that the screws fixing the conductors to the electric opponents on the electric control board are tightened properly in order to guarantee correct electric connection; the same must be done for the earth connections. 2.2. MAINTANE OF FILTERS IF PREST leaning the filters is fundamental to keep the air quality in the room at a high standard. The synthetic filters mounted on TUN units can be regenerated with a compressed air jet or washed with cold water. 22. DISPOSAL OF UNIT The components of the TUN series have been designed to run continuously. The duration of some of the main components depends on the maintenance they have received. At the end of their life, the TUN series units must be disposed of in compliance with that foreseen by standards in force. The unit must be dismantled by specialised personnel. To remove the filters, do as follows:. remove the inspection panels provided with screws; 2. pull the filters off;. clean the filters; 4. put all the components back on in inverse order. 2.. MAINTANE OF FANS It is essential to control and clean the fans to keep noise low in the room where the unit is installed. heck yearly:. rotor cleanliness; 2. bearing noise. 2.4. MAINTANE OF OILS hecking and cleaning the coils is fundamental to keep the air quality and renewal in the room at a high standard. heck yearly:. that the finned pack is clean. The main materials making up the units of the TUN series are: galvanised steel sheets (panels, fans, condensation drip tray); aluminium or aluminium alloy sheets (coil louvers, grids, electric motor casing); copper (coil pipes, electric motor windings). ANOMALY AUSE REMEDY Air flow rate insufficient Filters clogged lean the filters oils clogged lean the coils No air flow Power disconnected heck the presence of voltage Electric motor burnt Replace the electric motor Noise and vibrations Excessive flow rate Reduce flow rate Fan bearings worn or faulty Replace the bearings Extraneous bodies on fan rotor lean the rotor Dragging of water Provide a properly installed siphon as indicated in No siphon or not installed properly this manual Temperature of air entering coil outside of foreseen heck water temperature limits The unit does not reach the desired temperatures Air in water coils Bleed the coils Insufficient water flow rate in water coils Increase water flow rate Insufficient coil inlet water temperature heck water temperature Surface of coil pack dirty lean pack surface 48 Aermec cod. 68080_0.09

2. AESSORY DIMSIONAL DATA 2.. MIXING HAMBER 2 DAMPERS M2S WIRING DIAGRAMS AESSORIES B D A E OUPLING A B dimensions D E F G M2S TUN0 242 242 400 00 00 2 620 M2S2 TUN 242 242 400 00 00 0 600 M2S TUN20 2 2 490 90 00 9 690 M2S4 TUN2-40 2 2 490 90 4 9 690 M2S TUN40P 2 2 490 90 200 9 690 G F Aermec cod. 68080_0.09 49

2.2. MIXING HAMBER DAMPERS MS WIRING DIAGRAMS AESSORIES D B A E dimensions OUPLING A B D E MS TUN0 00 400 00 200 00 MS2 TUN 00 400 00 200 00 MS TUN20 80 00 90 00 00 MS4 TUN2-40 42 0 90 00 200 MS TUN40P 42 0 90 00 200 0 Aermec cod. 68080_0.09

2.. SOFT BAG FILTER SETION FTF B AESSORIES A OUPLING A dimensions B FTF TUN0 00 00 00 FTF2 TUN 00 00 00 FTF TUN20 00 90 00 FTF4 TUN2-40 00 90 4 FTF TUN40P 00 90 200 WIRING DIAGRAMS 2.4. SETION WITH POST HEATING OIL PBE B A dimensions OUPLING A B PBE TUN0 20 00 00 PBE TUN 20 00 00 PBE4 TUN20 20 90 00 PBE TUN2 20 90 4 PBE6 TUN40 20 90 4 PBE TUN40P 20 90 200 Aermec cod. 68080_0.09

2.. MODULE WITH SILER BAFFLES SSL AESSORIES B A WIRING DIAGRAMS OUPLING A B dimensions N silencers SSL TUN0 00 00 00 SSL2 TUN 00 00 00 4 SSL TUN20 00 90 00 4 SSL4 TUN2 00 90 4 SSL TUN40P 00 90 200 2.6. RETURN VTILATING SETION WITH A G4 FILTER VRF B F/G4 F/G2 A F/G4 F/G2 dimensions OUPLING A B N Fans VRF TUN0 00 00 00 VRF TUN 00 00 00 2 VRF4 TUN20 90 90 00 VRF TUN2 90 90 4 VRF6 TUN40 90 90 4 2 VRF TUN40P 20 90 200 2 2 Aermec cod. 68080_0.09

2.. INTAKE DAMPER SAS AESSORIES B A OUPLING A dimensions B WIRING DIAGRAMS SAS TUN0 00 00 00 SAS2 TUN 00 00 00 SAS TUN20 00 00 90 SAS4 TUN2-40 00 4 90 SAS TUN40P 00 200 90 2.8. 2 AREA DAMPER S2Z 0 0% E F D B A dimensions OUPLING A B D E F S2Z TUN0 00 00 400 80 240 00 S2Z2 TUN 00 00 60 280 240 00 S2Z TUN20 00 00 60 280 00 90 S2Z4 TUN2-40 00 4 90 40 00 90 S2Z TUN40P 00 200 80 600 0 90 Aermec cod. 68080_0.09

2.9. FLOW GRID WITH ADJUSTABLE LOUVERS GMD AESSORIES D WIRING DIAGRAMS OUPLING A B dimensions D E B A E GMD TUN0 00 640 00 240 4 GMD2 TUN 00 990 00 240 4 GMD TUN20 00 990 90 0 4 GMD4 TUN2-40 4 4 90 0 4 GMD TUN40P 200 2040 90 0 4 2.0. INTAKE GRID GAP D E B A dimensions OUPLING A B D E GAP TUN0 00 640 29 240 48 GAP2 TUN 00 990 00 240 4 GAP TUN20 00 990 90 0 4 GAP4 TUN2-40 4 4 90 0 4 GAP TUN40P 200 2040 90 0 4 4 Aermec cod. 68080_0.09

2.. PLUM WITH IRULAR FLOW ATTAHMTS PMM D D2 D AESSORIES B A E OUPLING A B dimensions E D D2 D N Flange WIRING DIAGRAMS PMM TUN0 60 00 00 00 200 80 0 PMM2 TUN 60 00 00 00 200 80 0 4 PMM TUN20 69, 90 90 00 200 80 0 4 PMM4 TUN2-40 69, 90 90 4 200 80 0 PMM TUN40P 69, 90 90 200 200 80 0 2.2. LOSED FLOW PLUM PM B A dimensions OUPLING A B B PMM TUN0 00 00 00 PMM2 TUN 00 00 00 PMM TUN20 90 90 00 PMM4 TUN2-40 90 90 4 PMM TUN40P 90 90 200 Aermec cod. 68080_0.09

24. MOTOR/S WIRING DIAGRAM 24.. TUN 0 AESSORIES WIRING DIAGRAMS MIN MED MAX 2 4 N BI RO GR NE BL M PE IG N L 20V//0Hz 24.2. TUN 0P MIN MED MAX 2 4 N BI RO GR NE BL M Key MIN MED MAX BI RO GR NE BL Minimum speed Medium speed Maximum speed White Red Grey Black Blue PE IG N L 20V//0Hz MIN MED MAX 2 4 N BI RO GR NE BL M 6 Aermec cod. 68080_0.09

24.. TUN 20 2 AESSORIES MIN MED MAX 2 4 RO BL NE BI MA M WIRING DIAGRAMS PE IG N L 20V//0Hz 24.4. TUN 40 40P MIN MED MAX 2 4 RO BL NE BI MA M Key MIN MED MAX BI RO GR NE BL Minimum speed Medium speed Maximum speed White Red Grey Black Blue PE IG N L 20V//0Hz 2 4 RO BL NE BI MA M Aermec cod. 68080_0.09

2. ONTROL PANEL WIRING DIAGRAM 2.. TUN 0 WITH WMT AESSORIES 24N WIRING DIAGRAMS MIN MED MAX BI RO GR NE BL 2 4 6 2 4 6 M PE IG N L 2OV 0Hz 2.2. TUN 0 WITH WMT0 Key BI RO White Red VF V MIN MED MAX BI RO GR NE BL 2 4 6 2 4 6 M GR Grey NE BL Black Blue IG PE N L 2OV 0Hz 8 Aermec cod. 68080_0.09

2.. TUN 0P WITH WMT AESSORIES 24N INPUT V V2 V N PH L N SIT F 4A V V2 V OUTPUT MIN MED MAX BI RO GR NE BL 2 4 6 2 4 6 M WIRING DIAGRAMS IG PE N L 2OV 0Hz BI RO GR NE BL 2 4 6 2 4 6 M 2.4. TUN 0P WITH WMT0 INPUT V V2 V N PH L N SIT F 4A V V2 V OUTPUT VF V MIN MED MAX BI RO GR NE BL 2 4 6 2 4 6 M Key BI RO GR White Red Grey IG PE N L 2OV 0Hz BI RO GR NE BL 2 4 6 2 4 6 M NE Black BL Blue Aermec cod. 68080_0.09 9