Vacuum Pump Systems RUTA m 3 x h -1 (147 to 765 cfm)

Vacuum Pump Systems RUTA 50-13 000 m 3 x h -1 (17 to 765 cfm) 173.0.0 Excerpt from the Product Section C08 Edition May 007

Contents General Overview..........................................................................C08.03 Types of Pumps Systems............................................................. C08.0 Products Pump Systems (Global Versions) Three-Stage RUTA Pump Systems with Two-Stage TRIVAC Backing Pumps Adaptor Version................................................................C08.06 Frame Version..................................................................C08.08 Two-Stage RUTA Pump Systems with Single-Stage SOGEVAC Backing Pumps Adaptor Version................................................................C08.10 Frame Version..................................................................C08.1 Two- and Three-Stage RUTA Pump Systems with Single- and Two-Stage Rotary Piston Vacuum Pumps as Backing Pumps........................................C08.1 Dry Compressing Vacuum Pump System RUTA with SCREWLINE SP630 Backing Pump Adaptor Version................................................................C08.16 Frame Version..................................................................C08.18 RUVAC RAV Roots Vacuum Pumps with Pre-Admission Cooling...............................C08.0 Pump Systems RUTA RAV with RUVAC RAV Roots Vacuum Pumps Two- Stage....................................................................C08. Three-Stage...................................................................C08. TVD Pump Systems for Drying, Evaporation and Distillation Applications.......................................C08.6 Pump Systems (Only available for purchase in North and South America) RBS - B/BCS Roots Pump Systems with Two-Stage TRIVAC Backing Pumps...............................................C08.8 HTS Close-Coupled Pump Systems with Single-Stage SOGEVAC Backing Pumps............................................C08.3 SP Close-Coupled Pump Systems with SCREWLINE Dry Compressing Backing Pumps......................................C08.36 Accessories Sound Proofing....................................................................C08.0 Isolation against Vibrations............................................................C08.0 Dust Separators....................................................................C08.0 Frequency Inverter RUVATRONIC RT 5...................................................C08.0 Electric Controller...................................................................C08.1 Pressure Control....................................................................C08.1 Dust Filter F-xxx-C..................................................................C08. Miscellaneous Checklist for Inquiries (Fax Form)........................................................C08. C08 0

General Overwiew A continually increasing number of applications in industry and research are relying on vacuum technology. Thus widely differing requirements result regarding the vacuum generating systems. The comprehensive range of vacuum pumps from Leybold Vacuum offers, in combination with the matching accessories, all options of se-lecting the optimum pump system for your application in each case. Based on the longstanding experience in the design and manufacture of vacuum pump systems, Leybold Vacuum offers standardized pump systems which will match most applications the RUTA pump systems. Designation of Roots Vacuum Pump Systems Leybold Vacuum pump combinations of Roots vacuum pumps with backing pumps are called RUTA. In order to identify the standard pump systems the name RUTA is followed by the brief designations of the pumps which make up a particular pump system. Brief designation of the largest Roots vacuum pump (Pumping speed of the pump system) Brief designation of the smaller Roots vacuum pump Cooler or condenser (if present) Brief designation of the backing pump Type of pump system (adaptor (A) or frame (G)) The pump system designation is arranged as follows: RUTA WAU 001 / WAU 501 / K / D 65 B / A RUTA pump systems excel by being compact, reliable and servicefriendly. The pump systems are equipped as standard with 00 V, 50 Hz threephase motors. Motors for special supply voltages, special mains frequencies or explosion protected pumps are available. Standards Leybold Vacuum pump systems are rated according to CE, ISO, DIN and VDE regulations. Compliance with other standards is possible upon request. The technical data of the vacuum pump systems given in this product section are based on the PNEUROP Acceptance Specifications for Vacuum Pumps, Part 1, and comply with DIN 8 6. The characteristic curves in our pumping speed diagrams are plotted in accordance with DIN 8 6. The curves represent the mean of several measurements. Our warranty refers to the values indicated in the technical data table. 03 C08

Types of Pump Systems Typical areas of application for RUTA pump systems are industry, research and chemistry. Here the focus is on processes for metal production and processing, drying and degassing, thermal treatment, coating in the area of semiconductor manufacture as well as surface refinement. RUTA pump systems are also used as backing pump sets for high vacuum systems in combination with diffusion pumps, turbomolecular pumps and cryo pumps. RUTA RA 3001/WAU1001/SV300 The RUTA pump systems described here have been designed for rough and medium vacuum operation, i.e. for the pressure range from atmospheric pressure down to 10 - mbar (7.5 x 10-5 Torr). RUTA pump systems consist of a combination of individual pumps whereby Roots vacuum pumps are employed on the intake side. Further compression to atmospheric pressure may be performed either by oil-sealed or drycompressing vacuum pumps, liquid ring pumps or Roots vacuum pumps with pre-inlet cooling. All combinations may be equipped at suitable places with condensers. The selection criteria for a RUTA pump system are as follows: - Pumping speed - Operating pressure - Process conditions - Characteristics of the media - Standards and regulations which depend on the area of application and the produced products. Standard RUTA Pump Systems Our Roots vacuum pumps WA, WS and RA or WAU and WSU with integrated bypass line or RA with external bypass line (RAU) are combined with oil-sealed backing pumps for conventional generation of the vacuum. Single stage arrangements are capable of delivering pumping speeds of 50 to 16 000 m 3 /h (17.3 to 9 cfm). Higher pumping speeds can be attained by paralleling several pumps. The attainable operating pressures depend on the number of pumping stages. For higher pumping speeds or lower ultimate pressures, three or multistage pump systems equipped with single or two-stage backing pumps are available (see figure). RUTA Pump Systems with Condensers If vacuum systems must pump larger quantities of vapor or vapor gas mixtures, it is economical to insert condensers which are cooled with water or a different coolant at a suitable place within the pump system. Cooled condensers are themselves effective partial pumps which condense most of the vapors from the pumped media. The downstream mechanical pumps will then only need to pump those gases which have not already condensed. The quantity of vapor present in each case determines the size of the condenser and the temperature at which it is operated. The size of the downstream pump is determined by the quantity of non-condensable gases, the required pressure and the required pump-down time for the system. All pump systems of the WA/WAU, WS/WSU and RA series may be equipped with one or several condensers. These are often used in the chemical industry. Here RUTA vacuum pump systems with condensers are not only used to generate a vacuum, but they are also often employed in the recovery of solvents. When installing one or several Roots pumps upstream of a condenser, low operating pressures and high condensation pressures can be attained. Thus the condenser may in many cases be operated with cooling water instead of brine. The vapor components pumped together with inert gases may be separated once more in an emission condenser on the exhaust side so that the quality of the exhaust gas can be maintained within close tolerance regarding its cleanness. Dry-Compressing RUTA Vacuum Pump Systems Increasing environmental awareness, pumping of condensable vapors or high requirements regarding cleanness when pumping highquality media which must not be contaminated by other media for recycling, often requires the use of universal pumps where the pump chamber is free of operating agents (dry pumps). Here Leybold Vacuum offers two solutions: 1. Pump systems consisting of the SCREWLINE screw vacuum pump developed specifically for the process industry in combination with one or several Roots vacuum pumps.. Single or multistage RUTA RAV vacuum pump systems, consisting of Roots vacuum pumps with pre-admission cooling. C08 0

The operating pressure ranges of the pump systems depend on the number of Roots vacuum pumps, but will extend in any case without interruptions to atmospheric pressure. Already in connection with one Roots pump, pump systems with a SCREWLINE pump are capable of attaining base pressures of < 1 x 10-3 mbar (7.5 x 10 - Torr). Single-stage RAV combinations attain an ultimate pressure of 150 mbar (11.5 Torr) and twostage combinations 50 mbar (37.5 Torr). Multi-stage combinations with Roots vacuum pumps of all systems are capable of attaining pressures below 10 - mbar (7.5 x 10-5 Torr). RUTA Custom Pump Systems Most users will be able to select the right pump system for their application from our range of standard pump systems. In special cases a custom design may be required for special processes and high pumping speeds. We are prepared to design and manufacture custom pump systems according to customers specifications. If required we will use - besides oil-sealed and dry-compressing backing pumps - liquid ring and ejector pumps. RUTA Pump Systems for the Metal Producing and Processing Industry In common vacuum furnace processes such as hardening, annealing, brazing, melting and casting, preferably oil-sealed or dry compressing standard vacuum pump systems are usually used. The oil-sealed systems consist of a combination of Roots vacuum pumps with a single or twostage rotary vane or rotary piston pump. In the dry compressing systems our screw vacuum pump SCREWLINE is used as the backing pump. The vacuum pumps are mounted in a rugged frame. The design of the pump systems is service-friendly, modular and can be easily upgraded with additional equipment. On smaller furnaces RUVAC WAU Roots vacuum pumps are the most suitable because these may be cut-in at a higher operating pressure, while on larger furnaces and particularly where short pump-down cycles are required, the use of RUVAC RA Roots vacuum pumps with suitably sized backing pumps is advisable. For special processes, e.g. fusion or degassing of molten masses, due to the high dust contents, the additional use of a dust separator is required as well as equipping the backing pumps with oil filtering units. RUTA Pump Systems for the Chemical Industry In chemical processes it is often necessary to remove corrosive, condensable and reactive gases and vapors. Leybold Vacuum designs and manufactures custombuilt pump systems for specific process applications. Depending on the type of application, either a rotary vane pump, or a dry compressing screw vacuum pump (SCREWLINE, for example), a liquid ring pump or a combination of gas jet pump and liquid ring pump may be used as the backing pump. To ensure dependable monitoring of the system, the following monitoring devices, among others, may be installed: - Temperature sensors to monitor the gas temperatures between the pump stages and the pump body temperature, - Water flow monitors for the cooling water supply to pumps and condensers, - Differential pressure indicator with control setpoint to monitor the exhaust filters of the rotary vane vacuum pump. Pump Systems for Drying, Evaporation and Distillation Applications (TVD) More and more vacuum applications are finding their way into the areas of environmental protection, recycling and waste disposal. Waste disposal of used oil and aromatic compounds and Cleaning processes in metalprocessing factories demonstrate that the combination of vacuum know-how, innovative engineering and applications know-how is indispensable for the successful application of vacuum technology in most widely differing applications. The product is no longer in the foreground, solutions to problems are demanded instead. TVD pump system, mobile with control cabinet Leybold Vacuum has developed some continuously operating vacuum pump systems for these applications. These systems basically consist of a rotary vane pump with a condenser unit. Upon request the condenser arrangement may also be equipped with a cold water set. This version will then be independent of any cooling water connections and being a mobile system it is well-suited for operation at varying locations. 05 C08

Products Three-Stage RUTA Pump Systems with Two-Stage TRIVAC Backing Pumps, Adaptor Version RUTA WAU 501/D65B/A Standard Equipment - Exhaust filter - Oil collecting pan - Manually operated gas ballast - Crane eyes on the frame - Floor mounting - The oil is supplied with the pump - CE approval Options - Frequency inverter RUVATRONIC RT for controlling the speed of the Roots pump - Oil filter - V DC gas ballast valve - Sound proofing box - Vibration absorbers - Castors - Different types of floor mounts - Oil drain valve on each pump - Exhaust filter with oil return line - Special motors - Electric control systems l 1 b 1 l DN 1 b DN h h 1 l c b RUTA 51/D0B/A 51/D65B/A 501/D65B/A RUVAC WA/WAU/WS/WSU P 51 51 501 Backing pump TRIVAC P1 D 0 B D 65 B D 65 B DN 1 63 ISO-K 63 ISO-K 63 ISO-K DN 0 ISO-KF 0 ISO-ISO-KF 0 ISO-KF l 1000 (39.37) 1000 (39.37) 1000 (39.37) l 1 375 (1.76) 375 (1.76) 375 (1.76) l 3(9.1) 3 (9.1) 3 (9.1) b 600 (3.6) 600 (3.6) 600 (3.6) b 1 350 (13.78) 350 (13.78) 350 (13.78) b 0 (1.57) 0 (1.57) 0 (1.57) h 85 (33.6) 85 (33.6) 89 (35.0) h 1 88 (19.1) 88 (19.1) 88 (19.1) c 100 (3.9) 100 (3.9) 100 (3.9) Dimensional drawing for the pump systems with TRIVAC D0/65 B backing pumps on pallet; dimensions in brackets ( ) are in inch C08 06

Technical Data, 50 Hz RUVAC (WA/WAU/WS/WSU possible) Backing pump TRIVAC P P1 RUTA WAU 51/D0B/A 51/D65B/A 501/D65B/A 51 51 501 D 0 B D 65 B D 65 B Pumping speed, 50 Hz at 10-1 mbar (7.5 x 10 - Torr) m 3 x h -1 (cfm) 00.0 (117.8) 10.0 (13.7) 380.0 (3.8) Ultimate partial pressure Ultimate total pressure with gas ballast Installed motor power Power consumption at 10-1 mbar (7.5 x 10 - Torr) Noise level to DIN 5 635 max. without gas ballast at 1 mbar (0.75 Torr) Oil filling, total, approx. Weight, total, approx. mbar (Torr) mbar (Torr) db(a) db(a) l (qt) kg (lbs) < x 10-5 (< 1.5 x 10-5 ) < x 10-5 (< 1.5 x 10-5 ) < x 10-5 (< 1.5 x 10-5 ) < 8 x 10 - (< 6 x 10 - ) < 8 x 10 - (< 6 x 10 - ) < 8 x 10 - (< 6 x 10 - ).6 (3.5) 3.3 (.5). (6.0).0 (.7).5 (3.).7 (3.7) 6 65 67 6 63 63 3.3 (3.9).0 (.3).3 (.55) 5.0 (50.) 60.0 (573.3) 305.0 (67.5) Connecting flange Inlet port DN 1 Outlet port DN 63 ISO-K 63 ISO-K 63 ISO-K 0 ISO-KF 0 ISO-KF 0 ISO-KF Ordering Information RUVAC (WA/WAU/WS/WSU possible) Backing pump TRIVAC P P1 RUTA WAU 51/D0B/A 51/D65B/A 501/D65B/A WAU 51 WAU 51 WAU 501 D 0 B D 65 B D 65 B Pump system, complete (adaptor version), pallet mounted, with Roots vacuum pump RUVAC WAU Frequency inverter RUVATRONIC (see description in Section Accessories ) Part No. 03 06 Part No. 03 07 Part No. 03 08 RT 5/51 RT 5/51 RT 5/501 Part No. 500 001 381 Part No. 500 001 381 Part No. 500 001 38 mbar 10 Pressure 10 1 10 0 10-1 8 6 10-0 WAU 51 +D0B WAU 51 +D65B WAU 501 +D65B 6 8 10 min Pump-down time 750 10 Torr 10 1 10 0 10-1 10 - m 3 x h -1 Pumping speed 10 10 1 10 0 10-5 - -3 - -1 0 1 Torr 10 10 10 10 10 10 8 6 68 10 - WAU 51 +D 0 B WAU 51 +D 65 B WAU 501 +D 65 B WAU 1001+D 65 B 10-5 10-3 10-10 -1 10 0 10 1 mbar Total pressure Pressure Partial pressure 750 500 cfm 100 50 10 5 1 Pump-down time diagram for a 10 m 3 tank at 50 Hz Pumping speed diagram at 50 Hz 07 C08

Three-Stage RUTA Pump Systems with Two-Stage TRIVAC Backing Pumps, Frame Version RUTA WAU 501/D65B/G Standard Equipment - Exhaust filter - Oil collecting pan - Manually operated gas ballast - Crane eyes on the frame - Floor mounting - The oil is supplied with the pump - CE approval Options - Frequency inverter RUVATRONIC RT for controlling the speed of the Roots pump - Oil filter - V DC gas ballast valve - Sound proofing box - Vibration absorbers - Castors - Different types of floor mounts - Oil drain valve on each pump - Exhaust filter with oil return line - Special motors - Electric control systems l 1 b 1 l DN 1 b h DN h h 1 l c b RUTA 51/D0B/G 51/D65B/G 501/D65B/G 1001/D65B/G RUVAC WA/WAU/WS/WSU P 51 51 501 1001 Backing pump TRIVAC P1 D 0 B D 65 B D 65 B D 65 B DN 1 63 ISO-K 63 ISO-K 63 ISO-K 100 ISO-K DN 0 ISO-KF 0 ISO-KF 0 ISO-KF 0 ISO-KF l 1000 (39.37) 1100 (3.31) 1150 (5.8) 1300 (51.18) l 1 00 (15.75) 80 (18.90) 80 (18.90) 80 (18.90) l 3 (9.1) 31 (1.36) 31 (1.36) 31 (1.36) b 560 (.05) 560 (.05) 560 (.05) 600 (3.6) b 1 80 (11.0) 80 (11.0) 80 (11.0) 80 (11.0) b 59 (.3) 59 (.3) 59 (.3) 59 (.3) h 977 (38.6) 977 (38.6) 1017 (0.0) 1067 (.01) h 1 88 (19.1) 88 (19.1) 88 (19.1) 88 (19.1) h 677 (6.65) 677 (6.65) 677 (6.65) 671 (6.) c 100 (3.9) 100 (3.9) 100 (3.9) 100 (3.9) Dimensional drawing for the pump systems with TRIVAC D0/65 B backing pumps in a frame; dimensions in brackets ( ) are in inch C08 08

Technical Data, 50 Hz RUVAC (WA/WAU/WS/WSU possible) Ordering Information P Backing pump TRIVAC P1 Pumping speed, 50 Hz at 10-1 mbar (7.5 x 10 - Torr) m 3 x h -1 (cfm) Ultimate partial pressure mbar (Torr) Ultimate total pressure with gas ballast Installed motor power Power consumption at 10-1 mbar (7.5 x 10 - Torr) Noise level to DIN 5 635 max. without gas ballast at 1 mbar (0.75 Torr) Oil filling, total, approx. mbar (Torr) db(a) db(a) l (qt) Weight, total, approx. kg (lbs) Connecting flange Inlet port DN 1 Outlet port DN RUVAC (WA/WAU/WS/WSU possible) P Backing pump TRIVAC P1 Pump system, complete (frame version), frame mounted, with Roots vacuum pump RUVAC WAU Frequency inverter RUVATRONIC (see description in Section Accessories ) RUTA WAU 51/D0B/G 51/D65B/G 501/D65B/G 1001/D65B/G 51 51 501 1001 D 0 B D 65 B D 65 B D 65 B 185.0 (109.0) 05.0 (10.7) 30.0 (00.3) 60.0 (365.) < x 10-5 < x 10-5 < x 10-5 < x 10-5 ) (< 1.5 x 10-5 ) (< 1.5 x 10-5 ) (< 1.5 x 10-5 ) (< 1.5 x 10-5 ) < 8 x 10 - < 8 x 10 - < 8 x 10 - < 8 x 10 - (< 6 x 10 - ) (< 6 x 10 - ) (< 6 x 10 - ) (< 6 x 10 - ).6 (3.5) 3.3 (.5). (6.0) 6. (8.).0 (.7).5 (3.).7 (3.7) 3.0 (.1) 6 65 67 77 6 63 63 70 3.3 (.5).0 (.3).3 (.55) 5.3 (5.60) 80.0 (617.) 310.0 (683.6) 350.0 (771.8) 60.0 (101.3) 63 ISO-K 63 ISO-K 63 ISO-K 100 ISO-K 0 ISO-KF 0 ISO-KF 0 ISO-KF 0 ISO-KF RUTA WAU 51/D0B/G 51/D65B/G 501/D65B/G 1001/D65B/G WAU 51 WAU 51 WAU 501 WAU 1001 D 0 B D 65 B D 65 B D 65 B Part No. 03 16 Part No. 03 17 Part No. 03 18 Part No. 03 19 RT 5/51 RT 5/51 RT 5/501 RT 5/1001 Part No. 500 001 381 Part No. 500 001 381 Part No. 500 001 38 Part No. 500 001 383 mbar 10 Pressure 10 1 10 0 10-1 8 6 10-0 WAU 51 +D0B WAU 51 +D65B WAU 501 +D65B WAU 1001+D65B 6 8 10 min Pump-down time 750 10 Torr 10 1 10 0 10-1 10 - m 3 x h -1 Pumping speed 10 10 1 8 6 10-5 - -3 - -1 0 1 Torr 10 10 10 10 10 10 WAU 51 +D 0 B WAU 51 +D 65 B WAU 501 +D 65 B WAU 1001+D 65 B 10 0 10-5 68 10-10 -3 10-10 -1 10 0 10 1 mbar Pressure Total pressure Partial pressure 750 500 cfm 100 50 10 5 1 Pump-down time diagram for a 10 m 3 tank at 50 Hz Pumping speed diagram at 50 Hz 09 C08

Two-Stage RUTA Pump Systems with Single-Stage SOGEVAC Backing Pumps, Adaptor Version RUTA WAU 1001/SV00/A Standard Equipment - Exhaust filter with oil return line - Oil filter - Oil collecting pan - Manually operated gas ballast - Floor mounting - The oil is supplied with the pump - CE approval Options - Frequency inverter RUVATRONIC RT for controlling the speed of the Roots pump - V DC gas ballast valve - Sound proofing box - Vibration absorbers - Castors - Different types of floor mounts - Oil drain valve on each pump - Special motors - Electric control systems l 1 l b b 1 l 1 b 1 DN 1 l DN 1 DN DN h b h l c h 1 c h 1 b l b RUTA 501/SV 00/A 1001/SV 00/A 1001/SV 300/A 001/SV 630F/A RUVAC WA/WAU/WS/WSU P 501 1001 1001 001 Backing pump SOGEVAC P1 SV 00 SV 00 SV 300 SV 630 DN 1 63 ISO-K 100 ISO-K 100 ISO-K 160 ISO-K DN " " " 100 ISO-K l 96 (37.87) 1050 (1.3) 108 (.60) 1800 (70.87) l 1 (9.53) 303 (11.93) 303 (11.93) 80 (3.8) l 70 (.76) 77 (3.03) 77 (3.03) 35 (1.38) b 700 (7.56) 700 (7.56) 700 (7.56) 1000 (39.37) b 1 30 (9.06) 30 (9.06) 30 (9.06) 50 (17.7) b 99 (19.65) 99 (19.65) 99 (19.65) 76 (30.08) h 873 (3.37) 93 (36.3) 93 (36.3) 10 (55.0) h 1 68 (18.3) 68 (18.3) 68 (18.3) 805 (31.69) c 100 (3.9) 100 (3.9) 100 (3.9) 100 (3.9) Dimensional drawing for the pump systems with SOGEVAC SV 00 and 300 backing pumps [left], SOGEVAC SV 630 F [right]; dimensions in brackets ( ) are in inch C08 10

Technical Data, 50 Hz RUVAC (WA/WAU/WS/WSU possible) Ordering Information P Backing pump SOGEVAC P1 Pumping speed, 50 Hz at 10-1 mbar (7.5 x 10 - Torr) m 3 x h -1 (cfm) Ultimate partial pressure mbar (Torr) Ultimate total pressure with gas ballast Installed motor power Power consumption at 10-1 mbar (7.5 x 10 - Torr) Noise level to DIN 5 635 without gas ballast at 10-1 mbar (7.5 x 10 - Torr) Oil filling, total, approx. mbar (Torr) db(a) l (qt) Weight, total, approx. kg (lbs) Connecting flange Inlet port DN 1 Outlet port DN RUVAC (WA/WAU/WS/WSU possible) P Backing pump SOGEVAC P1 Pump system, complete (adaptor version), pallet mounted, with Roots vacuum pump RUVAC WAU Frequency inverter RUVATRONIC (see description in Section Accessories ) RUTA WAU 501/SV00/A 1001/SV00/A 1001/SV300/A 001/SV630F/A 501 1001 1001 001 SV 00 SV 00 SV 300 SV 630 F 365.0 (15.0) 715.0 (1.0) 730.0 (30.0) 1690.0 (995.) < 8 x 10-3 < 8 x 10-3 < 8 x 10-3 < 8 x 10-3 (< 6 x 10-3 ) (< 6 x 10-3 ) (< 6 x 10-3 ) (< 6 x 10-3 ) < x 10 - < x 10 - < x 10 - < x 10 - (< 3 x 10 - ) (< 3 x 10 - ) (< 3 x 10 - ) (< 3 x 10 - ) 6. (8.) 8.0 (10.9) 9.5 (1.9).5 (30.6) 3.0 (.1) 3.5 (.8).0 (5.) 16.5 (.) 70 75 76 80 6.0 (6.3) 7.0 (7.) 11.0 (11.63) 39.0 (1.3) 335.0 (738.7) 30.0 (98.) 80.0 (1058.) 110.0 (513.7) 63 ISO-K 100 ISO-K 100 ISO-K 160 ISO-K " " " 100 ISO-K RUTA WAU 501/SV00/A 1001/SV00/A 1001/SV300/A 001/SV630F/A WAU 501 WAU 1001 WAU 1001 WAU 001 SV 00 SV 00 SV 300 SV 630 F Part No. 0 06 Part No. 0 08 Part No. 0 09 Part No. 0 11 RT 5/501 RT 5/1001 RT 5/1001 RT 5/001 Part No. 500 001 38 Part No. 500 001 383 Part No. 500 001 383 Part No. 500 001 38 Pressure mbar 10 10 1 10 0 8 6 10-1 0 8 1 16 Pump-down time WAU 501 + SV00 WAU 1001 + SV00 WAU 1001 + SV300 WAU 001 + SV630F min 0 750 Torr 10 10 10 10 1 0-1 10 m 3 x h -1 Pumping speed 10 8 6 10 1-3 - -1 0 1 Torr 10 10 10 10 10 750 WAU 001+SV 630F WAU 1001+SV 300 WAU 1001+SV 00 WAU 501 +SV 00 10-3 68 10-10 -1 10 0 10 1 10 mbar Pressure Total pressure Partial pressure 5000 cfm 1000 500 100 50 10 Pump-down time diagram for a 10 m 3 tank at 50 Hz Pumping speed diagram at 50 Hz 11 C08

Two-Stage RUTA Pump Systems with Single-Stage SOGEVAC Backing Pumps, Frame Version RUTA WAU 001/SV300/G Standard Equipment - Exhaust filter with oil return line - Oil filter - Oil collecting pan - Manually operated gas ballast - Crane eyes on the frame - Floor mounting - The oil is supplied with the pump - CE approval Options - Frequency inverter RUVATRONIC RT for controlling the speed of the Roots pump - V DC gas ballast valve - Sound proofing box - Vibration absorbers - Castors - Different types of floor mounts - Oil drain valve on each pump - Special motors - Electric control systems l 1 b 1 l 1 b1 DN1 DN 1 b l DN h h h h DN b l h 1 h1 l c b RUTA 1001/SV300/G 001/SV300/G 3001/SV630F/G 5001/SV630F/G 7001/SV100/G RUVAC RA P 3001 5001 7001 RUVAC WA/WAU/WS/WSU P 1001 001 Backing pump SOGEVAC P1 SV 300 SV 300 SV 630 SV 630 SV 100 DN 1 100 ISO-K 160 ISO-K 50 ISO-K 50 ISO-K 50 ISO-K DN " " 100 ISO-K 100 ISO-K 160 ISO-K l 130 (5.76) 130 (5.76) 150 (8.65) 150 (8.65) 35 (91.5) l 1 380 (1.96) 380 (1.96) 950 (37.0) 950 (37.0) 975 (38.39) l 110 (.33) 110 (.33) 165 (6.5) 165 (6.5) 05 (15.9) b 710 (7.95) 780 (30.71) 1100 (3.31) 1100 (3.31) 1360 (53.5) b 1 50 (9.8) 30 (1.60) 500 (19.69) 500 (19.69) 580 (.83) b 191 (7.5) 191 (7.5) 85 (11.) 85 (11.) 158 (6.) h 1176 (6.30) 159 (9.57) 179 (70.55) 1896 (7.65) 580 (101.58) h 1 518 (0.39) 518 (0.39) 75 (9.33) 75 (9.33) 100 (0.16) h 780 (30.71) 79 (8.70) 1177 (6.3) 1151 (5.31) 1835 (7.) c 100 (3.9) 100 (3.9) 100 (3.9) 100 (3.9) 100 (3.9) Dimensional drawing for the pump systems with SOGEVAC SV 300 and 630 F backing pumps [left], SOGEVAC SV 100 [right]; dimensions in brackets ( ) are in inch c l b C08 1

Technical Data, 50 Hz RUVAC RA RUVAC (WA/WAU/WS/WSU possible) Ordering Information P P Backing pump SOGEVAC P1 Pumping speed, 50 Hz at 10-1 mbar (7.5 x 10 - Torr) m 3 x h -1 (cfm) Ultimate partial pressure mbar (Torr) Ultimate total pressure with gas ballast Installed motor power Power consumption at 10-1 mbar (7.5 x 10 - Torr) Noise level to DIN 5 635 without gas ballast at 10-1 mbar (7.5 x 10 - Torr) Oil filling, total, approx. mbar (Torr) db(a) l (qt) Weight, total, approx. kg (lbs) Connecting flange Inlet port DN 1 Outlet port DN RUTA 1001/SV300/G 001/SV300/G 3001/SV630F/G 5001/SV630F/G 7001/SV100/G 3001 5001 7001 1001 001 SV 300 SV 300 SV 630 F SV 630 F SV 100 730 (30) 15 (850) 3090 (1818) 10 (78) 550 (350) < 8 x 10-3 < 8 x 10-3 < 8 x 10-3 < 8 x 10-3 < 8 x 10-3 (< 6 x 10-3 ) (< 6 x 10-3 ) (< 6 x 10-3 ) (< 6 x 10-3 ) (< 68 x 10-3 ) < x 10 - < x 10 - < x 10 - < x 10 - < x 10 - (< 3 x 10 - ) (< 3 x 10 - ) (< 3 x 10 - ) (< 3 x 10 - ) (< 3 x 10 - ) 9.5 (1.9) 13.0 (17.7) 6.0 (35.) 30.0 (0.8) 33.5 (5.6).0 (5.).5 (6.1) 17.0 (3.1) 17.5 (3.8) 18.0 (.5) 75 79 8 80 8 11.0 (11.63) 13 7 6 560.0 (13.8) 70.0 (1631.7) 1750.0 (3858.8) 1900.0 (189.5) 3000.0 (6615) 100 ISO-K 160 ISO-K 50 ISO-K 50 ISO-K 50 ISO-K " " 100 ISO-K 100 ISO-K 160 ISO-K RUTA 1001/SV300/G 001/SV300/G 3001/SV630F/G 5001/SV630F/G 7001/SV100/G RUVAC RUVAC (WA/WAU/WS/WSU possible) Backing pump SOGEVAC Pump system, complete (frame version), frame mounted, with Roots vacuum pump RUVAC RA RUVAC WAU Frequency inverter RUVATRONIC (see description in Section Accessories ) P P P1 RA 3001 RA 5001 RA 7001 WAU 1001 WAU 001 SV 300 SV 300 SV 630 F SV 630 F SV 100 Part No. 0 35 Part No. 0 37 Part No. 0 39 Part No. 0 31 Part No. 0 33 RT 5/1001 RT 5/001 RT 5/3001 RT 5/5001 RT 5/7001 Part No. Part No. Part No. Part No. Part No. 500 001 383 500 001 38 500 001 385 1) 500 001 386 1) 500 001 387 1) 1) With this combination, continouos operation of the Roots pump is not possible at atmospheric pressure 750-3 - -1 0 1 Torr 10 10 10 10 10 750 Pressure mbar 10 10 1 10 0 8 6 10-1 0 WAU1001 + SV300 WAU001 + SV300 RA3001 + SV630F RA5001 + SV630F RA7001 + SV100 6 8 10 1 min Pump-down time 10 10 10 10 Torr 1 0-1 Pumping speed 10 m 3 x h -1 10 8 6 10 1 WAU 1001+SV 300 WAU 001+SV 300 RA 3001 +SV 630F RA 5001 +SV 630F RA 7001 +SV 100 10-3 68 10-10 -1 10 0 10 1 10 10 mbar 3 Total pressure Pressure Partial pressure 5000 cfm 1000 500 100 50 10 Pump-down time diagram for a 10 m 3 tank at 50 Hz Pumping speed diagram at 50 Hz 13 C08

Two and Three-Stage RUTA Pump Systems with Single- and Two-Stage Rotary Piston Vacuum Pumps as Backing Pump RUTA WAU 001/E50/G Standard Equipment - Exhaust filter attached - Oil collecting pan - SECUVAC valve V DC - Backing pump removable by a fork lifter - Crane eyes on the frame - Floor mounting - The oil is supplied with the pump - CE approval Options - Frequency inverter RUVATRONIC RT for controlling the speed of the Roots pump - Oil filter - V DC gas ballast valve - Sound proofing box - Vibration absorbers - Different types of floor mounts - Oil drain valve on each pump - Exhaust filter box with oil return - Special motors - Electric control systems b1 DN 1 b DN h h1 h l 1 l l RUTA 1001/E50/G 001/E50/G 1001/DK00/G RUVAC WA/WAU/WS/WSU P 1001 001 1001 Rotary piston vacuum pump P1 E 50 1) E 50 1) DK 00 1) DN 1 100 ISO-K 160 ISO-K 100 ISO-K DN 63 ISO-K 63 ISO-K 63 ISO-K l 1650 (6.96) 1650 (6.96) 1650 (6.96) l 1 680 (6.77) 680 (6.77) 680 (6.77) l 1398 (55.0) 1395 (5.9) 1398 (55.0) b 850 (33.6) 910 (35.83) 850 (33.6) b 1 60 (10.) 335 (13.19) 60 (10.) b 38 (9.37) 3 (8.78) 38 (9.37) h 153 (59.96) 1705 (67.13) 153 (59.96) h 1 87 (3.33) 89 (35.0) 87 (3.33) h 117 (.37) 1175 (6.6) 117 (.37) 1) Alternatively with AFK exhaust filter box instead of the exhaust filter; then dimensions l 1 and b will change b Dimensional drawing for the pump systems with E and DK backing pumps; dimensions in brackets ( ) are in inch C08 1

Technical Data, 50 Hz RUVAC (WA/WAU/WS/WSU possible) P Rotary piston vacuum pump P1 Pumping speed, 50 Hz at 1 mbar (0.75 Torr) m 3 x h -1 (cfm) at 10-1 mbar (7.5 x 10 - Torr) m 3 x h -1 (cfm) Ultimate partial pressure mbar (Torr) Ultimate total pressure with gas ballast mbar (Torr) Installed motor power Installed motor power at 1 mbar (0.75 Torr) at 10-1 mbar (7.5 x 10 - Torr) Noise level to DIN 5 635 max. db(a) without gas ballast at 1 mbar (0.75 Torr) db(a) without gas ballast at 10-1 mbar (7.5 x 10 - Torr) db(a) Oil filling, total, approx. l (qt) Weight, total, approx. kg (lbs) Connecting flange Inlet port DN 1 Outlet port DN RUTA WAU 1001/E50/G 001/E50/G RUTA WSU 1001/DK00/G 1001 001 1001 E 50 E 50 DK 00 800.0 (71.) 1350.0 (795.) 815.0 (80.0) x 10-3 (1.5 x 10-3 ) x 10-3 (1.5 x 10-3 ) 3 x 10-5 (.3 x 10-5 ) x 10 - (1.5 x 10 - ) x 10 - (1.5 x 10 - ) 3 x 10 - (.3 x 10 - ) 9.5 (1.9) 13.0 (17.7) 9.5 (1.9).0 (5.).7 (6.). (6.0) 80 83 80 75 80 75 11.0 (11.63) 1.0 (1.68) 6.0 (6.3) 895.0 (1973.5) 1080.0 (381.) 930.0 (050.7) 100 ISO-K 160 ISO-K 100 ISO-K 63 ISO-K 63 ISO-K 63 ISO-K Ordering Information RUVAC (WA/WAU/WS/WSU possible) Rotary piston vacuum pump Pump system, complete (frame version), frame mounted, with Roots vacuum pump RUVAC WAU RUVAC WSU Frequency inverter RUVATRONIC (see description in Section Accessories ) P P1 RUTA WAU 1001/E50/G 001/E50/G RUTA WSU 1001/DK00/G WAU 1001 WAU 001 WSU 1001 E 50 E 50 DK 00 Part No. 03 36 Part No. 03 5 Part No. 05 36 RT 5/1001 RT 5/001 RT 5/1001 Part No. 500 001 383 Part No. 500 001 38 Part No. 500 001 383 Pressure mbar 10 10 1 10 0 8 6 WAU 1001+E 50 WAU 001+E 50 10-1 WAU 1001+DK 00 0 10 min 0 Pump-down time 750 Torr 10 10 1 10 0 10-1 Pump-down time diagram for a 10 m 3 tank at 50 Hz Pumping speed 10 m 3 x h -1 10 Pumping speed diagram at 50 Hz 10-5 - -3 - -1 0 1 Torr 10 10 10 10 10 10 8 6 WAU 001+E 50 WAU 1001+E 50 WSU 1001+DK 00 10 1 68 10-5 10-10 -3 10-10 -1 10 0 10 1 mbar Pressure Total pressure Partial pressure 750 5000 cfm 1000 500 100 50 10 15 C08

Dry-Compressing Vacuum Pump System RUTA with SCREWLINE SP630 Backing Pump, Adaptor Version RUTA WSU 001/SP630/A Standard Equipment - Silencer - SP Guard - Manually operated gas ballast - Gear oil collecting pan integrated within the SCREWLINE - Gear oil supplied with the pump - CE approval Options - Frequency inverter RUVATRONIC RT for controlling the speed of the Roots pump - Condensate drain valve at the silencer - Sound proofing box - Vibration absorbers - SCREWLINE with water cooling - Castors - Different types of floor mounts - Oil drain valve on each pump - Electric control systems b l1 b1 b DN1 DN h h1 l l b3 b* 1) RUTA 001/SP630/A RUVAC WA/WAU/WS/WSU P 001 Backing pump SCREWLINE P1 SP630 DN 1 160 ISO-K DN 100 ISO-K l 1850 (7.8) l 1 380 (1.96) l 89 (35.1) b 106 (1.89) b 1 00 (15.75) b 55 (1.81) b 3 800 (31.50) b 70 (.76) h 1518 (59.76) h 1 1380 (5.33) 1) Clearance for maintenance Dimensional drawing of the pump systems with dry compressing SCREWLINE SP630 backing pump, adapter version; dimensions in brackets ( ) are in inch C08 16

Technical Data, 50 Hz RUVAC (WA/WAU/WS/WSU possible) Backing pump SCREWLINE P P1 RUTA WAU 001/SP630/A 001 SP630 Pumping speed, 50 Hz at 10-1 mbar (7.5 x 10 - Torr) m 3 x h -1 (cfm) 1780 (1050) Ultimate total pressure without gas ballast Installed motor power Electrical power consumption at 10-1 mbar (7.5 x 10 - Torr) mbar (Torr) < 1 x 10-3 (< 7.5 x 10 - ).5 (30.0) 11.7 (15.7) Noise level to DIN 5 635 with silencer at 10-1 mbar (7.5 x 10 - Torr) db(a) 79 Weight, total, approx. kg (lbs) 1100 (30) Connecting flange Inlet port DN 1 Outlet port DN 160 ISO-K 100 ISO-K Ordering Information RUVAC (WA/WAU/WS/WSU possible) Backing pump SCREWLINE P P1 RUTA WAU 001/SP630/A WAU 001 SP630 Pump system, complete (adaptor version), pallet mounted, with Roots vacuum pump RUVAC WAU Frequency inverter RUVATRONIC (see description in Section Accessories ) Part No. 500 70 RT 5/001 Part No. 500 001 38 Presure mbar 10 10 1 10 0 8 6 10-1 0 WAU001 + SP630 6 min 8 Pump-down time Pump-down time diagram for a 10 m 3 tank at 50 Hz Pumping speed 10 m 3. h -1 10 8 6 10 1 10-3 68 10-10 -1 10 0 10 1 10 mbar Pressure Pumping speed diagram at 50 Hz WAU001 + SP630 17 C08

Dry-Compressing Vacuum Pump System RUTA with SCREWLINE SP630 Backing Pump, Frame Version RUTA WAU 001/SP630/G Standard Equipment - Silencer - SP Guard - Manually operated gas ballast - SECUVAC valve V DC - Gear oil collecting pan integrated within the SCREWLINE - Crane eyes on the frame - Floor mounting - Gear oil supplied with the pump - CE approval Options - Frequency inverter RUVATRONIC RT for controlling the speed of the Roots pump - Condensate drain valve at the silencer - Sound proofing box - Vibration absorbers - SCREWLINE with water cooling - Castors - Different types of floor mounts - Oil drain valve on each pump - Electric control systems b l1 b1 b DN1 DN h h h1 l l b3 b* 1) RUTA 001/SP630/G 3001/SP630/G 5001/SP630/G 7001/SP630/G 9001/SP630/G RUVAC RA P 3001 5001 7001 9001 RUVAC WA/WAU/WS/WSU P 001 Backing pump SCREWLINE P1 SP630 SP630 SP630 SP630 SP630 DN 1 160 ISO-K 50 ISO-K 50 ISO-K 50 ISO-K 30 ISO-K DN 100 ISO-K 100 ISO-K 100 ISO-K 100 ISO-K 100 ISO-K l 00 (86.6) 00 (86.6) 00 (9.9) 00 (9.9) 00 (9.9) l 1 600 (3.6) 600 (3.6) 70 (8.35) 70 (8.35) 70 (8.35) l 89 (35.1) 89 (35.1) 101 (39.8) 101 (39.8) 101 (39.8) b 106 (1.89) 106 (1.89) 119 (.5) 119 (.5) 119 (.5) b 1 00 (15.75) 00 (15.75) 65 (18.31) 65 (18.31) 65 (18.31) b 55 (1.81) 55 (1.81) 55 (1.81) 55 (1.81) 55 (1.81) b 3 800 (31.50) 800 (31.50) 930 (36.61) 930 (36.61) 930 (36.61) b 70 (.76) 70 (.76) h 1789 (70.3) 030 (79.9) 0 (87.0) 0 (87.0) 300 (90.55) h 1 1380 (5.33) 1380 (5.33) 10 (56.69) 10 (56.69) 10 (56.69) 1) Clearance for maintenance h 159 (9.57) 115 (55.71) 175 (58.07) 175 (58.07) 175 (58.07) Dimensional drawing of the pump systems with dry compressing SCREWLINE SP630 backing pump, frame version; dimensions in brackets ( ) are in inch C08 18

Technical Data, 50 Hz RUVAC RA RUVAC (WA/WAU/WS/WSU possible) Backing pump SCREWLINE P P P1 RUTA RA 001/SP630/G 3001/SP630/G 5001/SP630/G 7001/SP630/G 9001/SP630/G 3001 5001 7001 9001 001 SP630 SP630 SP630 SP630 SP630 Pumping speed, 50 Hz at 10-1 mbar (7.5 x 10 - Torr) Ultimate total pressure without gas ballast Installed motor power Electrical power consumption at 10-1 mbar (7.5 x 10 - Torr) m 3 x h -1 (cfm) mbar (Torr) 1780 (1050) 380 (1930) 510 (660) 590 (3500) 690 (070) < 1 x 10-3 < 1 x 10-3 < 1 x 10-3 < 1 x 10-3 < 1 x 10-3 (< 7.5 x 10 - ) (< 7.5 x 10 - ) (< 7.5 x 10 - ) (< 7.5 x 10 - ) (< 7.5 x 10 - ).5 (30.0) 6.0 (35.0) 30.0 (0.0) 33.5 (5.0) 37.0 (50.0) 11.7 (15.7) 1. (16.) 1.6 (16.9) 13.0 (17.) 13.5 (18.1) Noise level to DIN 5 635 with silencer at 10-1 mbar (7.5 x 10 - Torr) db(a) 79 81 79 8 80 Weight, total, approx. kg (lbs) 1300 (870) 1550 (30) 1900 (190) 000 (10) 630 (5800) Connecting flange Inlet port DN 1 Outlet port DN 160 ISO-K 50 ISO-K 50 ISO-K 50 ISO-K 30 ISO-K 100 ISO-K 100 ISO-K 100 ISO-K 100 ISO-K 100 ISO-K Ordering Information RUVAC P RUVAC (WA/WAU/WS/WSU possible) P Backing pump SCREWLINE P1 Pump system, complete (adaptor version), frame mounted, with Roots vacuum pump RUVAC WAU RUVAC RA with water-cooled vacuum pump SCREWLINE SP630 F Frequency inverter RUVATRONIC (see description in Section Accessories ) RUTA RA 001/SP630/G 3001/SP630/G 5001/SP630/G 7001/SP630/G 9001/SP630/G RA 3001 RA 5001 RA 7001 RA 9001 WAU 001 SP630 SP630 SP630 SP630 SP630 Part No. 500 71 Part No. Part No. Part No. Part No. 500 7 500 73 500 7 500 75 Part No. Part No. Part No. Part No. Part No. 501 01 501 0 501 03 501 0 501 05 RT 5/001 RT 5/3001 RT 5/5001 RT 5/7001 RT 5/9001 Part No. Part No. Part No. Part No. Part No. 500 001 38 500 001 385 1) 500 001 386 1) 500 001 387 1) 500 001 388 1) 1) With this combination, continouos operation of the Roots pump is not possible at atmospheric pressure Presure mbar 10 10 1 WAU001 + SP630 RA3001 + SP630 10 0 8 RA5001 + SP630 6 RA7001 + SP630 RA9001 + SP630 10-1 0 6 min 8 Pump-down time Pump-down time diagram for a 10 m 3 tank at 50 Hz Pumping speed 10 m 3. h -1 10 8 6 10 1 WAU001 + SP630 RA3001 + SP630 RA5001 + SP630 RA7001 + SP630 RA9001 + SP630 10-3 68 10-10 -1 10 0 10 1 10 mbar Pressure Pumping speed diagram at 50 Hz 19 C08

RUVAC RAV Roots Vacuum Pumps with Pre-Admission Cooling Typical Applications - Short pump-down cycles on large volumes - Oil-free compression of high volume flows of gases and vapors against atmospheric pressure - Single-stage (G) or in combination with RAV F as backing pump - Operating pressures in the rough vacuum range - CE approval Advantages to the User - RUVAC RAV G Operating pressure range of 150 mbar (11.5 Torr) against atmospheric pressure; total leak rate < 10-1 mbar x l x s -1 (7.5 x 10 - Torr x l x s -1 ) - RUVAC RAV F In combination with backing pumps the attainable operating pressures extend down into the medium vacuum range; leak rate < 10 - mbar x l x s -1 (7.5 x 10-3 Torr x l x s -1 ) - When series-connected the operating pressures extend down into the medium vacuum range: - two-stages to 5 mbar (18.75 Torr) - multiple stage to 10-3 mbar (7.5 x 10 - Torr) - Motors for special supply voltages and frequencies or protected types are available - Pre-admission silencer and filter for the cooling gas inlet as well as silencers for the exhaust side (option/single-stage) - Downstream gas cooler (option/ multistage) - C version (chemical version/ option) - Special materials (option) - Pressure burst resistant version (option) l b l 1 l 5 l 6 b DN 1 l l 3 DN h d h1 10 DN b b 3 1 l Cooling water connection for RAV 000 F, RAV 8000 F DN DN 1 Type F Type G RUVAC RAV DIN 533 DIN 533 l l 1 l l 3 l l 5 l 6 b b 1 b b 3 d d h h 1 050 F/G mm 80 50 59 83 90 100 15 50 5 31 33 3 300 5 k6 8 k6 313 13 in. 80 50 0.83 11.1 3.5 3.9.9 1.97 0.0 1.6 13.07 1.3 11.81 0.98 k6 1.10 k6 1.3 5.0 0500 F/G mm 100 50 60 3 10 100 150 70 5 31 390.6 350 5 k6 38 k6 370 160 in. 100 50 3.78 1.76.7 3.9 5.91.76 0.0 1.6 15.35 1.68 13.78 0.98 k6 1.50 k6 1.57 6.30 1000 F/G mm 100 80 705 380 15 115 10 90 5 7 0 53.3 00 k6 5 k6 10 180 in. 100 80 7.76 1.96.9.53 8.7 3.5 0.0 16.81 17.3.10 15.75 1.65 k6 1.77 k6 16.1 7.09 000 F/G mm 150 100 806 3 160 130 70 80 5 76 570 67.6 510 k6 55 k6 50 00 in. 150 100 31.73 16.65 6.30 5.1 10.63 3.15 0.0 18.7..66 0.08 1.65 k6.17 k6 17.7 7.87 000 F/G mm 50 1) 150 113 610 50 00 10 95 5 68 800 106 70 55 k6 70 m6 680 315 in. 50 1) 150 5.0.0 9.8 7.87 16.1 3.7 0.0 6.85 31.50.17 8.35.17 k6.76 m6 6.77 1.0 8000 F/G mm 300 1) 00 1) 1337 717 300 30 55 100 8 95 910 135 830 70 k6 90 m6 760 355 in. 300 1) 00 1) 5.6 8.3 11.81 9.06 0.67 3.9 0.31 37.56 35.83 5.31 3.68.76 k6 3.5 m6 9.9 13.98 1) DIN 53 DN 1 = Pre-inlet Dimensional drawing for the RUVAC RAV pumps C08 0

Technical Data, 50 Hz Pumping speed 1) Ordering Information Ordering Information m 3 x h -1 (cfm) Nominal speed min -1 (rpm) Max. permissible pressure difference ) mbar (Torr) Connecting flange Max. permissible motor power for direct drive for belt drive Weight Roots vacuum pump RUVAC RAV G Technical Data, 50 Hz Pumping speed 1) DN kg (lbs) m 3 x h -1 (cfm) Nominal speed min -1 (rpm) Max. permissible pressure difference ) mbar (Torr) Connecting flange Max. permissible motor power for direct drive for belt drive Gear oil, approx. Weight, approx. DN l (qt) kg (lbs) Cooling water connection, fitting for tube Cooling water requirement, approx. l x h -1 Roots vacuum pump RUVAC RAV F 1) To DIN 8 00 and following numbers ) RUVAC RAV G and RAV F with direct drive RUVAC RAV 50 G 500 G 1000 G 000 G 000 G 8000 G 50 (17) 500 (95) 1000 (589) 000 (1178) 3700 (179) 8100 (771) 3000 (3000) 3000 (3000) 3000 (3000) 3000 (3000) 1500 (1500) 1500 (1500) 850 (637) 850 (637) 850 (637) 850 (637) 850 (637) 850 (637) 80 100 100 150 50 300 11.0 (15.0) 18.5 (5.) 30.0 (0.8) 55.0 (7.8) 95.0 (19.3) 00.0 (7.1) 11.0 (15.0) 18.5 (5.) 30.0 (0.8) 55.0 (7.8) 95.0 (19.3) 00.0 (7.1) 95 (10) 160 (353) 5 (96) 310 (68) 70 (1588) 130 (71) RUVAC RAV 50 G 500 G 1000 G 000 G 000 G 8000 G upon request upon request upon request upon request upon request upon request RUVAC RAV 50 F 500 F 1000 F 000 F 000 F 8000 F 50 (17) 500 (95) 1000 (589) 000 (1178) 3700 (179) 8100 (771) 3000 (3000) 3000 (3000) 3000 (3000) 3000 (3000) 1500 (1500) 1500 (1500) 850 (637) 850 (637) 850 (637) 850 (637) 850 (637) 850 (637) 80 100 100 150 50 300 11.0 (15.0) 18.5 (5.) 30.0 (0.8) 55.0 (7.8) 95.0 (19.3) 00.0 (7.1).0 (5.).0 (5.) 7.5 (10.) 15.0 (0.) 37.0 (50.3) 75 (10.0) 0.9 (0.95) 1.1 (1.6) 1.5 (1.59).5 (.6) 1.0 (1.68) 11.0 (11.63) 95 (10) 160 (353) 5 (96) 310 (68) 70 (1588) 130 (71) 10 x 1 10 x 1 60 60 RUVAC RAV 50 F 500 F 1000 F 000 F 000 F 8000 F upon request upon request upon request upon request upon request upon request 10 Torr 750 10 3 m x h -1 RAV 8000 G RAV 000 G 5000 cfm Pumping speed 8 6 RAV 000 G RAV 1000 G RAV 500 G RAV 50 G 1000 500 100 10 10 6 8 mbar Pressure Pumping speed diagram of RUVAC RAV at 50 Hz Operating diagram of RUVAC RAV vacuum pumps with pre-admission cooling 1 C08

RUTA RAV Pump Systems with RUVAC RAV Roots Vacuum Pumps, Two-Stage Standard Equipment - Roots vacuum pumps with preadmission cooling - One or two RAV F pumps are connected upstream of the RUVAC RAV G pump operating as a backing pump - Ultimate pressures below 50 mbar (37.5 Torr) can be attained - Gas cooler, pre-admission silencer and filter - Non-return flap - Exhaust silencer - CE approval b 1 DN 1 h h h3 DN h h1 h h3 DN h h1 h l b l l 1 l b l 1 l RUTA 500 F/50 G 1000 F/500 G 000 F/1000 G 000 F/000 G 8000 F/000 G RUVAC RAV P 500 F 1000 F 000 F 000 F 8000 F RUVAC RAV P1 50 G 500 G 1000 G 000 G 000 G DN 1 100 (3.9) 100 (3.9) 150 (5.91) 50 (9.8) 300 (11.81) DN 80 (3.15) 100 (3.9) 100 (3.9) 150 (5.91) 50 (9.8) l 190 (50.79) 1560 (61.) 1830 (7.03) 00 (9.9) 790 (109.8) l 1 0 (16.5) 80 (18.90) 570 (.) 800 (31.50) 950 (37.0) l 1050 (1.3) 1100 (3.31) 1300 (51.18) 1650 (6.96) 150 (8.65) b 1300 (51.18) 1500 (59.06) 1680 (66.1) 050 (80.71) 600 (10.36) b 1 1050 (1.3) 1180 (6.6) 1300 (51.18) 1550 (61.0) 100 (8.68) b 00 (15.75) 00 (15.75) 50 (17.7) 500 (19.69) 700 (7.56) h 1550 (61.0) 1700 (66.93) 1930 (75.98) 550 (100.39) 3100 (1.05) h 1 70 (8.35) 80 (3.8) 1000 (39.37) 1100 (3.31) 100 (7.) h 500 (19.69) 570 (.) 750 (9.53) 700 (7.56) 700 (7.56) h 3 1180 (6.6) 130 (5.76) 150 (60.63) 1750 (68.90) 100 (8.68) h 1370 (53.9) 150 (59.8) 1750 (68.90) 10 (87.01) 500 (98.3) Dimensional drawing for two-stage RUTA RAV pump systems; dimensions in brackets ( ) are in inch C08

Technical Data, 50 Hz RUVAC RAV P RUVAC RAV P1 Pumping speed, 50 hz at 00 mbar (150 Torr) m 3 x h -1 (cfm) at 100 mbar (75 Torr) m 3 x h -1 (cfm) Ultimate total pressure mbar (Torr) (other motors are required) Cut-in pressure P 1) mbar (Torr) P1 mbar (Torr) Installed motor power Power consumption at 00 mbar (150 Torr) Cooling water consumption (T < 30, T < 10 K), max. (gas coolers and pumps) m 3 x h -1 (cfm) Noise level to DIN 5 635 with pre-inlet and pulsation silencers and pump exhaust leading outside db(a) plus additional sound proofing box db(a) (a further reduction is possible) Gear oil, approx. l (qt) Total weight, incl. silencers for preadmission and exhaust, approx. kg (lbs) Connecting flange (pipe connection) ) Inlet port DN 1 Outlet port DN Gas admission port without filter DN Ordering Information Pump system 500 F/ 50 G 1000 F/ 500 G RUTA RAV 000 F/ 1000 G 000 F/ 000 G 8000 F/ 000 G 500 F 1000 F 000 F 000 F 8000 F 50 G 500 G 1000 G 000 G 000 G 3.0 (189.7) 708.0 (17.0) 1518.0 (89.1) 685.0 (1581.5) 581.0 (38.6) < 50.0 (< 37.5) < 50.0 (< 37.5) < 50.0 (< 37.5) < 50.0 (< 37.5) < 50.0 (< 37.5) 576.0 (3.0) 538.0 (03.5) 58.0 (11.0) 630.0 (7.5) 50.0 (376.5) 1013.0 (760.0) 1013.0 (760.0) 1013.0 (760.0) 1013.0 (760.0) 1013.0 (760.0) 15.0 (0.).0 (9.9).0 (59.9) 8.0 (111.6) 165.0 (.5) 7.8 (10.6) 15.8 (1.5) 31.5 (.9) 56. (76.7) 1.0 (166.0) 0.5 (0.3) 1.0 (0.6).0 (1.) 3.0 (1.8) 7.0 (.1) 86 88 93 10 106 7 7 80 8 86.0 (.11).5 (.6).0 (.3) 1.5 (15.33) 3.0 (.31) 1000 (05) 1600 (358) 00 (851) 000 (880) 7500 (16538) 100 100 150 50 300 80 100 100 150 50 50 50 80 100 150 500 F/ 50 G 1000 F/ 500 G RUTA RAV 000 F/ 1000 G 000 F/ 000 G 8000 F/ 000 G upon request upon request upon request upon request upon request 1) With exhaust flap and bypass line 1013 mbar (760 Torr) ) to DIN 5 33 mbar Pressure 6 750 Torr 1 10 5 3 10 0 10 min 0 5 RAV 8000 F + RAV 000 G RAV 000 F + RAV 000 G Time 3 RAV 000 F + RAV 1000 G RAV 1000 F + RAV 500 G 1 RAV 500 F + RAV 50 G m 3 x h -1 Pumping speed 10 8 6 10 10 1 1 Torr 10 10 750 5 3 1 6 8 10 mbar Pressure 5000 cfm 1000 500 100 5 RAV 8000 F + RAV 000 G RAV 000 F + RAV 000 G 3 RAV 000 F + RAV 1000 G RAV 1000 F + RAV 500 G 1 RAV 500 F + RAV 50 G 5 RAV 8000 F + RAV 000 G RAV 000 F + RAV 000 G 3 RAV 000 F + RAV 1000 G RAV 1000 F + RAV 500 G 1 RAV 500 F + RAV 50 G Pump-down time diagram for a 50 m 3 tank for RAV F+G at 50 Hz Pumping speed diagram of RAV F + G at 50 Hz 3 C08

RUTA RAV Pump Systems with RUVAC RAV Roots Vacuum Pumps, Three-Stage Standard Equipment - Roots vacuum pumps with preadmission cooling - Two RAV F pumps are connected upstream of the RUVAC RAV G pump operating as a backing pump - CE approval - Ultimate pressures below 10 mbar (7.5 Torr) can be attained - Gas cooler, pre-admission silencer and filter - Non-return flap - Exhaust silencer b 1 b 1 DN 1 DN 1 h h h h3 DN h h h1 b l b l 1 l b b RUTA 1000 F/500 F/50 G 000 F/1000 F/500 G 000 F/000 F/1000 G 8000 F/000 F/000 G RUVAC RAV P3 1000 F 000 F 000 F 8000 F RUVAC RAV P 500 F 1000 F 000 F 000 F RUVAC RAV P1 50 G 500 G 1000 G 000 G DN 1 100 (3.9) 150 (5.91) 50 (9.8) 300 (11.81) DN 80 (3.15) 100 (3.9) 100 (3.9) 150 (5.91) l 1560 (61.) 1830 (7.05) 00 (9.9) 790 (109.8) l 1 80 (18.90) 570 (.) 800 (31.50) 950 (37.0) l 1050 (1.3) 1100 (3.31) 1350 (53.15) 1650 (6.96) b 170 (85.3) 00 (9.9) 850 (11.0) 300 (133.86) b 1 1850 (7.83) 000 (78.7) 00 (9.9) 950 (116.1) b 00 (15.75) 00 (15.75) 50 (17.7) 500 (19.69) h 170 (67.7) 1950 (76.77) 550 (100.39) 3000 (118.11) h 1 800 (31.5) 1000 (39.37) 1150 (5.8) 100 (7.) h 600 (3.6) 750 (9.53) 850 (33.6) 850 (33.6) h 3 180 (50.39) 1500 (59.06) 1700 (66.93) 1830 (7.05) h 150 (59.8) 1750 (68.90) 10 (87.01) 500 (98.3) Dimensional drawing for three-stage RUTA RAV pump systems; dimensions in brackets ( ) are in inch C08

Technical Data, 50 Hz RUVAC RAV P3 RUVAC RAV P RUVAC RAV P1 Pumping speed, 50 Hz at 00 mbar (150 Torr) m 3 x h -1 (cfm) at 100 mbar (075 Torr) m 3 x h -1 (cfm) Ultimate total pressure mbar (Torr) (other motors are required) Cut-in pressure P3 1) mbar (Torr) P 1) mbar (Torr) P1 mbar (Torr) Installed motor power Power consumption at 100 mbar (75 Torr) Cooling water consumption (T < 30, T < 10 K), max. (gas coolers and pumps) m 3 x h -1 (cfm) Noise level to DIN 5 635 with pre-inlet and pulsation silencers and pump exhaust leading outside db(a) plus additional sound proofing box db(a) (a further reduction is possible) Gear oil, approx. l (qt) Total weight, incl. silencers for preadmission and exhaust, approx. kg (lbs) Connecting flange (pipe connection) ) Inlet port DN 1 Outlet port DN Gas admission port without filter DN 1000 F/ 500 F/ 50 G 000 F/ 1000 F/ 500 G RUTA RAV 000 F/ 000 F/ 1000 G 8000 F/ 000 F/ 000 G 1000 F 000 F 000 F 8000 F 500 F 1000 F 000 F 000 F 50 G 500 G 1000 G 000 G 71.0 (36.) 1573.0 (96.5) 86.0 (1685.7) 63.0 (3677.1) < 10.0 (< 7.5) < 10.0 (< 7.5) < 10.0 (< 7.5) < 10.0 (< 7.5) 78.0 (08.5) 65.0 (198.8) 31.0 (3.0) 89.0 (16.8) 576.0 (3.0) 538.0 (03.5) 58.0 (11.0) 630.0 (7.5) 1013.0 (760.0) 1013.0 (760.0) 1013.0 (760.0) 1013.0 (760.0).5 (30.6) 37.0 (50.3) 6.5 (85.0) 157.0 (13.6) 1.0 (16.3). (33.).3 (57.6) 90.6 (13.3) 1.0 (0.6).0 (1.).0 (.) 8.0 (.7) 88 95 106 108 75 77 86 88 3.5 (3.70) 5.0 (5.9) 16.0 (16.91) 5.0 (6.3) 000 (10) 3000 (6615) 5000 (1105) 8500 (1873) 100 150 50 300 80 100 100 150 50 50 80 100 Ordering Information Pump system 1000 F/ 500 F/ 50 G 000 F/ 1000 F/ 500 G RUTA RAV 000 F/ 000 F/ 1000 G 8000 F/ 000 F/ 000 G upon request upon request upon request upon request 1) With exhaust flap and bypass line 1013 mbar (760 Torr) ) to DIN 5 33 750 1 Torr 10 10 750 Pressure mbar 10 8 6 10 1 3 0 10 min 0 Time 1 10 10 1 Torr RAV 8000 F + RAV 000 F + RAV 000 G 3 RAV 000 F + RAV 000 F + RAV 1000 G RAV 000 F + RAV 1000 F + RAV 500 G 1 RAV 1000 F + RAV 500 F + RAV 50 G Pump-down time diagram for a 50 m 3 tank for RAV F, F + G at 50 Hz m 3 x h -1 Pumping speed 10 8 6 10 10 1 3 1 6 8 10 mbar Pressure Pumping speed diagram of RAV F, F + G at 50 Hz 5000 cfm 1000 500 100 RAV 8000 F + RAV 000 F + RAV 000 G 3 RAV 000 F + RAV 000 F + RAV 1000 G RAV000F+RAV1000 F + RAV 8000 F + RAV 000 F + RAV 000 G 3 RAV 000 F + RAV 000 F + RAV 1000 G RAV 000 F + RAV 1000 F + RAV 500 G 1 RAV 1000 F + RAV 500 F + RAV 50 G 5 C08

TVD Pump Systems for Drying, Evaporation and Distillation Applications TVD 00 Advantages to the User - Operating agent may be reused, for example by returning cleaned water to the process - Reduction of the quantities which need to be disposed of by 80% - Low temperature distillation/drying - Condensate may be drained during vacuum operation - CE approval Typical Applications - Drying of powders and solids, for example - Cleaning of waste water - Vacuum distillation Standard Equipment - Condenser at the intake side - Receiver with condensate level indicator - Manually operated valves on the receiver - SOGEVAC rotary vane pump with integrated exhaust filters, antisuckback valve and gas ballast valve DN3 l 1 Hand Handventil valve DN 63 ISO-K DN1 b1 b Options - Valve between condenser and rotary vane pump DN 3 DN h1 h DN 3 h c l b DN 1 DN DN 3 l l 1 b b 1 b h h 1 h c TVD 00 mm 63 ISO-K 1 1/" 1" 1000 590 700 160 5 1000 785 31 100 in. 63 ISO-K 1 1/" 1" 39.37 3.3 7.56 6.30 17.5 39.37 30.91 13.3 3.9 TVD 065 mm 63 ISO-K 1 1/" 1" 180 755 700 160 5 1165 950 31 100 in. 63 ISO-K 1 1/" 1" 50.39 9.7 7.56 6.30 17.5 5.87 33.6 13.3 3.9 TVD 100 mm 100 ISO-K " 1" 100 755 90 160 561 1165 950 35 100 in. 100 ISO-K " 1" 55.1 9.7 37.01 6.30.09 5.87 33.6 13.58 3.9 TVD 00 mm 100 ISO-K " 1" 1800 765 90 150 501 1175 960 73 100 in. 100 ISO-K " 1" 70.87 30.1 37.01 6.30 19.7 6.5 37.80 18.6 3.9 - Pressure gauge for checking the condensate pressure - Solenoid valves at the receiver - Receiver with proximity switch for monitoring the condensate level - Electric control for automatic operation of the pump system - Mobile pallet with castors - Cold water replacement for mobile applications Dimensional drawing for the TVD pump systems C08 6

Technical Data, 50 Hz TVD 0 TVD 65 TVD 100 TVD 00 Condenser, effective surface area, approx. m 1 3 5 Receiver, usable volume Rotary vane vacuum pump Nominal pumping speed Pumping speed at 50 Hz for air for water vapor at 50 mbar (37.5 Torr) Ultimate total pressure with standard gas ballast Noise level to DIN 5 635 1) l (qt) SOGEVAC m 3 x h -1 (cfm) m 3 x h -1 (cfm) m 3 x h -1 (cfm) mbar (Torr) db(a) 30.0 (31.71) 50.0 (5.85) 50.0 (5.85) 50.0 (5.85) SV 0 SV 65 SV 100 SV 00 6.0 (7.1) 65.0 (38.3) 100.0 (58.9) 180.0 (106.0) 6.0 (7.1) 53.0 (31.) 9.0 (55.) 170.0 (100.1) 80.0 (165.0) 560.0 (330.0) 80.0 (95.0) 100.0 (85.0) < 1.5 (< 1.1) < 1.5 (< 1.1) < 1.5 (< 1.1) < 0.7 (< 0.53) 63 6 70 69 Condensing capacity for water l x h -1 10 0 30 50 Installed motor power 1.1 (1.5) 1.5 (.0). (3.0).0 (.) 1) Operating at ultimate pressure with gas ballast Technical Data, 50 Hz Weight (with oil filling), approx. kg (lbs) Oil filling l (qt) Connecting flanges Inlet port DN 1 Outlet port DN SV 0 SV 65 SV 100 SV 00 15 (76) 150 (331) 00 (1) 300 (66).0 (.11).0 (.11) 3.5 (3.70) 5.0 (5.9) 63 ISO-K 63 ISO-K 100 ISO-K 100 ISO-K 1 1/" 1 1/" " " Ordering Information TVD 0 TVD 65 TVD 100 TVD 00 Pump system Part No. 01 01 Part No. 01 0 Part No. 01 03 Part No. 01 0 7 C08

Pump Systems (Only available for purchase in North and South America) RBS - B/BCS Roots Pump Systems with Two-Stage TRIVAC Backing Pumps RBS - B/BCS Roots pumping system, shown with optional AF exhaust filter Standard Equipment - System consists of TRIVAC dual stage B or BCS direct drive vane pump and RUVAC blower - Complete air cooled system - 18 wide frame base equipped with caster wheels and leveling pads - Compact construction with quiet operation - Manual operation of gas ballast - Close-coupled RUVAC blower with ANSI inlet lange Options - All TRIVAC accessories, Exhaust filter, V DC gas ballast valve, chemical oil filter, and electrical limit switch system - Full frame drip pan - Oil drain valves - Special motor voltages and frequencies - Special oil for unique applications - Full electrical controls for control start/stop and monitoring of system 300 cfm 501/D65B Pumping Speed 00 100 501/D0B 51/D65B 51/D0B 0 10-6 8 10-3 10-10 -1 10 0 10 1 10 Torr Total Pressure Pumping speed diagram for the RBS systems with WSU series Roots blowers at 60 Hz C08 8

l 1 b b l 1 l h h 1 l l System Close-coupled b b 1 b h h 1 l l 1 l D 0 B/BCS WSU 51 18 (57) 8 (03) 7 (178) 33 3/16 (853) 17 15/16 (56) 3 3/ (83) 1 (356) 3 (86) WSU 501 18 (57) 8 (03) 7 (178) 3 3/ (883) 17 15/16 (56) 33 13/16 (859) 1 (356) 3 (86) D 65 B/BCS WS/WSU 51 18 (57) 8 (03) 7 (178) 33 3/16 (853) 17 15/16 (56) 3 3/ (883) 16 (06) 3 (86) WS/WSU 501 18 (57) 8 (03) 7 (178) 3 3/ (883) 17 15/16 (56) 35 13/16 (910) 16 (06) 3 (86) Dimensional drawing for the RBS - B/BCS Roots pumping pystems 18 with TRIVAC D 0/65 B backing pumps, close-coupled package; dimensions in brackets ( ) are in mm 9 C08

Technical Data RUVAC (WA/WAU/WS/WSU possible) TRIVAC backing pump Pumping speed @ 0.1 Torr cfm (m 3 x h -1 ) RBS - B/BCS Roots Pump Systems 51/D0B 51/D65B 501/D0B 501/D65B 51 51 501 501 D 0 B/BCS D 65 B/BCS D 0 B/BCS D 65 B/BCS 10 (37) 150 (5) 3 (39) 67 (53) Ultimate total pressure Connecting flanges Inlet port WSU Outlet port Operating voltage Phase / Frequency 1) Full load amps ) RUVAC WSU TRIVAC Torr (mbar) DN DN V / Hz x 10 - x 10 - x 10 - x 10 - (< x 10 - ) (< x 10 - ) (< x 10 - ) (< x 10 - ) 3" ANSI 3" ANSI 3" ANSI 3" ANSI 0 ISO-KF 0 ISO-KF 0 ISO-KF 0 ISO-KF 08/30/60 08/30/60 08/30/60 08/30/60 3 / 60 3 / 60 3 / 60 3 / 60 5.5/5.5/3. 5.5/5.5/3. 9.0/9.0/5. 9.0/9.0/5. 9.0/8.8/.5 9.0/8.8/.5 9.0/8.8/.5 9.0/8.8/.5 Displacement RUVAC cfm (m 3 x h -1 ) TRIVAC cfm (m 3 x h -1 ) 179 (30) 179 (30) 357 (606) 357 (606) 3 (5) 53 (90) 3 (5) 53 (90) Maximum differential pressure Normal starting pressure 3) Oil capacity RUVAC WSU TRIVAC Torr (mbar) Torr (mbar) qt (l) qt (l) 60 (80) 60 (80) 60 (80) 60 (80) 0 (7) 30 (0) 1 (16) 16 (1) 0.75 (0.7) 0.75 (0.7) 1.10 (1.0) 1.10 (1.0).70 (.6) 3.0 (3.).70 (.6) 3.0 (3.) Nominal rotation speed RUVAC rpm (min -1 ) TRIVAC rpm (min -1 ) 3600 (3600) 3600 (3600) 3600 (3600) 3600 (3600) 1800 (1800) 1800 (1800) 1800 (1800) 1800 (1800) Motor power RUVAC WSU TRIVAC Ordering Information RBS - B/BCS Roots pump system (supplied with hydrocarbon oil) hp (kw) hp (kw) 1.9 (1.) 1.9 (1.) 3.3 (.) 3.3 (.) 3.0 (.) 3.0 (.) 3.0 (.) 3.0 (.) RBS - B/BCS Roots Pump Systems 51/D0B 51/D65B 501/D0B 501/D65B Ordering Information see right page 1) For 50 Hz systems, consult the factory ) Determined by operating voltage 3) WSU pumps permit start-up at atmospheric pressure (760 Torr) C08 30

Ordering Information Part No. 180037V- 0 Blower / TRIVAC pump WSU 51 / D 0 B WSU 51 / D 0 BCS-PFPE WSU 51 / D 65 B WSU 51 / D 65 B-PFPE WSU 501 / D 0 B WSU 501 / D 0 BCS-PFPE WSU 501 / D 65 B WSU 501 / D 65 BCS-PFPE Reserved Electrical Control Panel None 08 V 30 V 60 V 35 6 37 5 65 56 67 0 0 1 3 31 C08

Pump Systems (Only available for purchase in North and South America) HTS Close-Coupled Systems with Single-Stage SOGEVAC Backing Pumps HTS close-coupled system Standard Equipment - System consists of single stage SOGEVAC vane pump - Complete air cooled system - Close-coupled RUVAC blower - Compact construction with quiet operation - Manual operation of gas ballast - Spin-on type oil filter Options - SOGEVAC accessories: oil level monitoring, exhaust case gauge, V DC gas ballast purge, watercooling - Frame base mounted caster wheels - Frame base mounted leveling pads - Oil drain valves - Inlet dust filter - External OF3000 oil filter - Special motor voltages and frequencies - Special oil for unique applications - Full NEMA1 electrical controls for stand/stop operation and monitoring of system from remote and local locations - V DC gas ballast valve 600 100 cfm 500 1001/SV300 cfm 001/SV630 Pumping Speed 00 300 00 501/SV00 501/SV300 1001/SV00 Pumping Speed 1000 800 600 00 1001/SV630 100 00 0 10-3 6 8 10-10 -1 10 0 10 1 10 Torr Total Pressure 0 10-3 6 8 10-10 -1 10 0 10 1 10 Torr Total Pressure Pumping speed diagram for the HTS close-coupled systems with WSU series Roots blowers and SOGEVAC SV 00/300 at 60 Hz Pumping speed diagram for the HTS close-coupled systems with WSU series Roots blowers and SOGEVAC SV 630 at 60 Hz C08 3

Dimensions for SV 00 and SV 300 only l 1 w 3 w l l 1 h 1 h w 1 T SIDE VIEW FRONT VIEW Dimensions for SV 630 only l 1 l W W 3 l 3 h 1 h l 6 W 1 l 5 Roots Pump Vane Pump h 1 h l 1 l l 3 l 5 l 6 w 1 w w 3 WSU 501 SV 00 9 7/16 (78) 1 17/3 (318) 9 17/3 () 1 11/16 (551) 6 1/8 (156) 10 19/3 (69) WSU 501 SV 300 9 7/16 (78) 1 17/3 (318) 9 17/3 () 1 11/16 (551) 6 1/8 (156) 10 19/3 (69) WSU 1001 SV 00 31 7/16 (799) 1 17/3 (318) 11 15/16 (303) 1 1/16 (535) 5 1/ (10) 10 19/3 (69) 08.03.M.019-E (WAU/WSU+SV) WSU 1001 SV 300 31 7/16 (799) 1 17/3 (318) 11 15/16 (303) 13/16 (579) 7 1/ (18) 10 19/3 (69) WSU 001 SV 630 8 5/16 (17) 3 13/16 (605) 50 3/16 (175) 1 9/16 (370) 60 3/ (153) 1/ (6) 3 15/16 (887) 13 7/8 (35) 1 13/3 (315) Dimensional drawing for the HTS close-coupled system with single-stage SOGEVAC backing pumps; dimensions in brackets ( ) are in mm 33 C08

Technical Data RUVAC SOGEVAC Pumping speed @ 0.1 Torr cfm (m 3 x h -1 ) HTS Close-Coupled Systems 501/SV00 501/SV300 1001/SV00 1001/SV300 WSU 501 WSU 501 WSU 1001 WSU 1001 SV 00 SV 300 SV 00 SV 300 77 (70) 85 (83) 50 (855) 55 (95) Ultimate total pressure Connecting flanges Inlet port WSU Exhaust port SOGEVAC Operating voltage Phase / Frequency 1) Full load amps ) RUVAC WSU SOGEVAC Torr (mbar) DN DN V / Hz < 8 x 10-3 < 8 x 10-3 < 8 x 10-3 < 8 x 10-3 (< 1 x 10 - ) (< 1 x 10 - ) (< 1 x 10 - ) (< 1 x 10 - ) 3" ANSI 3" ANSI " ANSI " ANSI " NPT " NPT " NPT " NPT 08/30/60 08/30/60 08/30/60 08/30/60 3 / 60 3 / 60 3 / 60 3 / 60 7.8/10.0/5.8 7.8/10.0/5.8 13.0/1.7/8.5 13.0/1.7/8.5 1.0/18.0/9.0 9.0/5.0/1.5 1.0/18.0/9.0 9.0/5.0/1.5 Displacement RUVAC cfm (m 3 x h -1 ) SOGEVAC cfm (m 3 x h -1 ) 357 (606) 357 (606) 707 (100) 707 (100) 130 (606) 00 (30) 130 (606) 00 (30) Oil capacity RUVAC WSU SOGEVAC qt (l) qt (l) 1.10 (1.00) 1.10 (1.00).10 (.00).10 (.00) 5.30 (5.00) 9.00 (8.50) 5.30 (5.00) 9.00 (8.50) Nominal rotation speed RUVAC WAU/WSU rpm (min -1 ) SOGEVAC rpm (min -1 ) 3600 (3600) 3600 (3600) 3600 (3600) 3600 (3600) 1800 (1800) 1800 (1800) 1800 (1800) 1800 (1800) Motor power RUVAC WSU SOGEVAC Ordering Information HTS - close-coupled systems 1) For 50 Hz systems, consult the factory ) Determined by operating voltage hp (kw) hp (kw) 3.3 (.) 3.3 (.) 6.0 (.) 6.0 (.) 7.5 (5.5) 10.0 (7.) 7.5 (5.5) 10.0 (7.) HTS Close-Coupled Systems 501/SV00 501/SV300 1001/SV00 1001/SV300 Ordering Information see right page C08 3

Technical Data RUVAC SOGEVAC Pumping speed @ 0.1 Torr cfm (m 3 x h -1 ) HTS Close-Coupled Systems 1001/SV630 001/SV630 1001 001 SV 630 SV 630 610 (1035) 1186 (031) Ultimate total pressure Connecting flanges Inlet port WSU Outlet port Operating voltage Phase / Frequency 1) Full load amps ) RUVAC WSU SOGEVAC Torr (mbar) DN DN V / Hz < 8 x 10-3 < 8 x 10-3 (< 1 x 10 - ) (< 1 x 10 - ) " ANSI 6" ANSI " ANSI " ANSI 60 60 3 / 60 3 / 60 8.5 5.0 9.5 9.5 Displacement RUVAC cfm (m 3 x h -1 ) SOGEVAC cfm (m 3 x h -1 ) 707 (100) 19 (60) 95 (80) 95 (80) Oil capacity RUVAC WSU SOGEVAC qt (l) qt (l).10 (.0).0 (.0) 37.0 (35.0) 37.0 (35.0) Nominal rotation speed RUVAC WSU rpm (min -1 ) SOGEVAC rpm (min -1 ) 3600 (3600) 3600 (3600) 1170 (1170) 1170 (1170) Motor power RUVAC WSU SOGEVAC hp (kw) hp (kw) 6.1 (.5) 11. (8.) 5.0 (13.) 5.0 (13.) Ordering Information Part No. 180036V- Blower / TRIVAC pump WSU 501 / SV 00 WSU 501 / SV 300 WSU 1001 / SV 00 WSU 1001 / SV 300 WSU 1001 / SV 630 WSU 001 / SV 630 Casters & Levelers (SV 00 & SV 300 only) None Casters & Levelers Casters only Levelers only Electrical Control Panel None 08 V (SV 00 & SV 300 only) 30 V (SV 00 & SV 300 only) 60 V 5 53 1 13 16 6 0 1 3 0 1 3 35 C08

Pump Systems (Only available for purchase in North and South America) SP Close-Coupled Systems with SCREWLINE Dry Compressing Backing Pumps SP close-coupled system Advantages to the User - Reduced maintenance and lower operating costs - Compact close-coupled design without frame - Oil free compression in multiple pump stages - Optimum leak tightness with WSU boosters - Air-cooled - Assembled and tested Standard Equipment - SP630 / WSU1001 close-coupled pump system offering 65 ACFM at 0.3 Torr vacuum - SP630 / WSU001 close-coupled pump system offering 135 ACFM at 0.3 Torr vacuum Options - Electrical controls - Exhaust silencer (loose) - Inlet filter (loose) The new SCREWLINE SP630 dry compressing screw-type vacuum pump is an environmentally friendly alternative to traditional oil-sealed rotary piston and vane vacuum pumps. This innovative and robust vacuum pump produces a pumping speed of 371 cfm and better than 0.0075 Torr vacuum. SP630 major advantages include improved environment, reduced maintenance, lower operating costs through less disposal and the elimination of expensive water cooling all with no oil contamination as the need for lubricating oil in the pumps' compression stage has been eliminated. When used in conjunction with the Leybold Vacuum WSU booster pumps, pumping speeds can be significantly increased while achieving oil-free compression in multiple vacuum pump stages. Leybold Vacuum WSU boosters offer a canned motor design, which eliminates the need for shaft seals and flanged-on motors. A vacuum tight can separates the motor rotor and stator coils. This unique Leybold Vacuum design provides the advantage of a more leak tight vacuum system. The WSU ver-sion booster incorporates a bypass valve feature, which allows for automatic adjustment to varying pressure differentials between the inlet and outlet of the pump. The result is elimination of costly pressure switches / amplifiers and faster pump down while starting at atmospheric pressure with the aforementioned SP630 vacuum pump. C08 36

l 1 l w 1 w w Available Exhaust Silencer h h 1 h l 3 l w 3 w Roots Pump Vane Pump h h 1 h l l 1 l WSU 1001 SP630 50 1/ (176) 7 7/8 (116) 1 7/16 (316) 68 1/ (170) 3 3/16 (818) 0 1/ (51) WSU 001 SP630 53 5/3 (1366) 7 7/8 (116) 1 7/16 (316) 71 5/3 (1807) 3 13/16 (88) 0 1/ (51) Roots Pump Vane Pump l 3 w w 1 w w 3 w WSU 1001 SP630 7 3/ (705) 37 31/3 (96) 1 (305) 1 1/3 (550) 5 7/8 (657) 36 9/3 (937) WSU 1001 SP630 7 3/ (705) 1 31/3 (1066) 16 (06) 1 1/3 (550 5 7/8 (657) 36 9/3 (937) Dimensional drawing for the SP close-coupled system with SCREWLINE SP630 dry-compressing backing pumps 10 10 cfm cfm Pumping speed Pumping Speed 10 8 6 WSU 1001 + SP 630 SP 630 Pumping speed Speed 10 8 6 WSU 001 + SP 630 SP 630 10 1 10 68-3 10-10 -1 10 0 10 1 HV Pressure Torr 10 1 10 68-3 10-10 -1 10 0 10 1 HV Pressure Torr 37 Pumping speed diagram for the SP close-coupled system with WSU 1001 Roots blower and SCREWLINE SP630 at 60 Hz Pumping speed diagram for the SP close-coupled system with WSU 001 Roots blower and SCREWLINE SP630 at 60 Hz 37 C08

Technical Data, 60 Hz RUVAC (WSU possible) P SP Close-Coupled Systems 1001/SP630 001/SP630 1001 001 Backing pump SCREWLINE P1 SP630 SP630 Pumping speed 60 Hz at 0.3 Torr m 3 x h -1 (cfm) 65 (380) 135 (77) Ultimate total pressure without gas ballast Installed motor power mbar (Torr) < 1 x 10-3 (< 7.5 x 10 - ) < 1 x 10-3 (< 7.5 x 10 - ) 16. (1.6).5 (30.0) Noise level to DIN 5 635 with silencer at 10-1 mbar (7.5 x 10 - Torr) db(a) 78 79 Weight, total, approx. kg (lbs) 870 (19) 1100 (30) Connecting flange Inlet port DN 1 Outlet port DN 160 ISO-K 160 ISO-K 100 ISO-K 100 ISO-K Ordering Information RUVAC (WA/WAU/WS/WSU possible) P SP Close-Coupled Systems 1001/SP630 001/SP630 WSU 1001 WSU 001 Backing pump SCREWLINE P1 SP630 SP630 Pump system, complete (adaptor version), pallet mounted, with Roots vacuum pump RUVAC WAU Part No. 180038V1600 Part No. 180038V600 C08 38

Notes 39 C08

Accessories Sound Proofing A sound proofing box is available as an optional extra so as to reduce the noise down to the permissible level. Depending on the size of the pumping system, noise reductions between 15 and 0 db(a) are obtained using our standard soundproofing arrangements. Custom designs of the sound proofing box allow the noise level to be reduced by up to 35 db(a). The maintenance side is designed as a door component. A window insert may be provided in the door or in the side walls to facilitate checking of the oil levels. Ventilation is performed by means of an electric fan, the fresh air and exhaust ducts are located within the sound proofing box. Further optional extras which may be fitted include closed air circulation with integrated, water-cooled heat exchanger and a connection port for a central exhaust system. Dust Separators Vacuum processes where large amounts of particles or dusts are contributed by the process require special devices to protect the vacuum pumps. Leybold Vacuum has developed even for high flow rate applications special dust separators, which can be installed ahead of the intake of the RUTA vacuum pump systems. The dust separators have two stages. The first stage is a cyclone that collects dust particles of coarse and medium size, the fine dust are trapped in filter elements. Dust separators are customdesigned for the specific process and the required pumping speed. Dust Filter without Cyclone See below. Diagrammatic section through a dust separator Filtering surface m 0. 0.5 1.0.0 3.0 5.0 suitable for pumping speeds min. m 3 x h -1 (cfm) 100 (58.9) 300 (176.7) 600 (353.) 1000 (589) 1500 (883.5) 3000 (1767) max. m 3 x h -1 (cfm) 300 (176.7) 800 (71.) 1500 (883.5) 3000 (1767) 000 (356) 8000 (71) Reduction of pumping speed at < 01 mbar (< 0.75 Torr) % 11 11 11 11 11 11 < 06 mbar (<.5 Torr) % 9 9 9 9 9 9 < 0 mbar (< 15 Torr) % 5 5 5 5 5 5 without dust load C08 0 RUTA RA 3001/S630F/G with sound proofing box Isolation against Vibrations RUTA vacuum pump systems produce only slight vibrations. To reduce these vibrations even further, vibration absorbers can be fitted under the pump system. Frequency Inverter RUVATRONIC RT 5 The electronic frequency inverters RUVATRONIC RT 5/51 to 5/16000 have been designed specially for use in connection with Leybold Vacuum Roots pumps of the RUVAC type. For each Roots vacuum pump size, a matching frequency inverter is available. The main characteristics of the RUVATRONIC RT 5 are: Simulation of a pressure equalisation line The software of the frequency inverters is adapted to each pump and ensures that the risk of mechanically overloading the pump can be excluded. In the case of too high pressure differences, the rotational speed will be decreased automatically until the load is reduced to within the pump s limits. RUVAC Roots vacuum pumps of the types WA, WS and RA (without pressure equalisation line) can be switched on together with the forepump at atmospheric pressure. Through this, the pumpdown time can be reduced drastically. The minimum pumping speed of the backing pump needs to be considered in this case. Pump WA/WS 051 WA/WS 0501 WA/WS 1001 WA/WS 001 RA 3001 RA 5001 RA 7001 RA 9001 Required pumping speed for the backing pump 0050 m 3 /h (009 cfm) 0100 m 3 /h (0059 cfm) 000 m 3 /h (0118 cfm) 010 m 3 /h (01 cfm) 0650 m 3 /h (0383 cfm) 0930 m 3 /h (057 cfm) 150 m 3 /h (0736 cfm) 30 m 3 /h (1907 cfm)

Operation at up to 3 predefined speeds Via floating contacts, the pump can be operated at one of the 3 predefined speeds. Switching over to another pre-defined speed is possible during operation. Operation at any rotational speed With a 0 to 10 V signal, any speed can be pre-defined to operate the pump between the minimum and maximum rotational speed. The software reliably ensures that the rotational speed cannot drop below the minimum speed or exceed the maximum speed. Increase in the pumping speed By operating the Roots vacuum pumps at frequencies over 50 Hz, the nominal pumping speed of the pumps can be increased. Depending on the type of pump, an increase between 0 and 100% is possible. Note Please enquire about possible application limitations (process dependent). Electric Controller In order to drive all electrical appliances within the pump systems, the pump systems may be equipped with standard control cabinets which contain: - Motor protection switch (rated for the pumps used in each case) - Contactors - Main switch interlocked in accordance with VDE 0113 - Relays for necessary control/ sub-systems - ON/OFF push-button for each pump - Power supply for the installed monitoring facilities - Fault indicators arranged on a lamp panel - Switch-over (through an external contact) from local to remote operation. The control cabinet may be fitted either to the frame of the pump system or it may be wallmounted. Beside the standard systems, we manufacture control systems for much more complex systems: - Remote control module as a 19" rack module (1/ width, 3 HU). The start/stop push-buttons and the related indicators for operation and fault are located on the front panel - Pre- and post-operation control - Pressure dependant control - Time-dependant control - Program control - Control for explosion hazard areas - Combinations of the aforementioned versions - Programmable control (PC) - Vacuum gauge with pressure read-out in the control cabinet. Pressure Control Basically there are several ways in which to control the pressure. The equipment which is supplied as standard for the DOWNSTREAM or BYPASS control systems selected by Leybold Vacuum consists of: - Pressure measurement - Controller with control unit - Control valve with position indicator - Engineering. The Downstream Control System throttles the pumping speed of the vacuum pump by changing the conductance of the valve. Control panel on RUTA WAU1001/SV00/G The advantages offered by this arrangement are: - No supply of other gases - Closed system - The intake pressure of the pump system is lower than its operating pressure (thus saving energy, among other things). The second method is the Bypass Control System. Here the pressure is maintained at a constant level by admitting an additional quantity of gas. The advantages offered by this arrangement are: - Simple design - Much smaller valve - No reduction of the intermediate pressure within the pump. In order to design a pressure control system we need the following information: - Amount of gas - Type of gas - Pressure - Length of the piping - Type of auxiliary energy (electric/ pneumatic) - Explosion protection required yes/no Additional complex control arrangements are available, for example with: - Adjustable pressure characteristic - Adjustable timing - Speed control - Combination with other control facilities. 1 C08