Rhino TMA Alifter TMA EU product Made in Italy self-priming thermoplastics magnetic drive pumps
2 Rhino - Alifter Chemical pumps In this catalog Argal offers self priming pumps with magnetic drive TMA series of Alifter range. The structural parts and pump casings are injection molded reinforced thermoplastic polymers. The internal components are: ceramic oxides, HD carbon, fluorinated elastomers, excluding any metal part in contact with the pumped liquid. Are combinations of materials for maximum performance. Pump Hermetic The outer magnet assembly rotates together with the motor shaft by generating a magnetic torque that rotates a second group of magnets which is overmolded on the internal centrifugal impeller. The rear casing, suitably shaped and coupled to the pump casing, separates the two magnetic groups, forming a hermetic casing. Powerful magnetic couplings in Neodymium Iron Boron. afety and Life The magnetic drive system finally excludes any type of rotating seal. The only necessity of sealing is ensured by a seal of the static type OR in the conjunction between the volute casing and the rear casing. is member of Versatility and performance N - R - X: N standard or P powered, strong-powered : 3 combinations of materials of construction allow to pump, also at maximum flow, liquids with 1. - 1.3-1.8 specific gravity respectively. Conformity ATEX All pumps in the range ALIFTER, with specific execution GX (E-CTFE added with conductive carbon fibres and motor E-exd), are approved to operate in explosive atmospheres, classified as per ATEX directive, CAT 2 Zone 1 (eries II 3/3GD IIB at 13 C). Inside of pump should be placed safety device. THE MATERIAL table 1 VERION REINFORCED POLYMER MIN. TEMP. MAX TEMP. ENVIRONMENT TEMP. WR GFR/PP - C (23 F) 8 C (176 F) 4 C (14 14 F) GF GX* CFF/E-CTFE -2 C (-4 F) 1 C (212 F) -2 4 C (-4 14 F) Note: Maximum inlet pressure: 1, bar - (*) Compliant to ATEX 94/9/EC regulations THE CONTRUCTION table 2 VERION WR GF GX* R1 X1 N1 R2 X2 N2 R2 N2 Volute casing Rear casing Centrifugal impeller Guide bushing CARB.HD GFR-PP ic GFR-PTFE CARB.HD ic CFF-E-CTFE GFR-PTFE CARB.HD GFR-PTFE haft Thrust bush CER ic OR gasket FKM (1) FKM (1) (2) crews tainless steel Upon request:(1)epdm and (2) FFKM - * Compliant to ATEX 94/9/EC regulations
Rhino - TMA 3 RHINO - TMA It is an innovative pump designed by the R&D department of Argal with a pending international patent. It is a magnetic drive, self-priming, biphasic turbo radial pump and is manufactured either in polyolefinic thermoplastic polymer (PP) or fluorinated (E-CTFE). Thanks to its construction this TMA pump develops higher suction head and shorter priming timethan self priming centrifugal pumps; its biphasic impeller primes fluids with high density, viscosity and vapour such as sulphuric 98%, hydrochloric 33%, nitric, phosphoric acids, sodium hypochlorite, caustic soda, ferric chlorite provided the negative suction head is up to 4 metres. The high torque magnetic joint and the option to adopt electric motors of increasing rated power allows this device to pump a broad range of chemical liquids of variable specific weight without compromising its typical hydraulic performances. MAIN FEATURE Choice of material chemically resistant to all corrosiveliquid Ability to prime from an empty suction duct Fast priming Magnetic core embedded in the biphasic impeller Max. lift = -6 m Max. allowed specific gravity up to 2 kg/dm3 Minimum NPHa = 3 m (abs) tandard motors IEC or NEMA. Patented impeller of the biphasic self priming radial turbo pump. HEAD (m) POWER (kw) PERFORMANCE CURVE 1.14 22 2 29 r.p.m. - Hz 18 16 14,6 12 1 8,4 6 4,2 2 2 4 6 8 1 12 14 16 18 1,7 1,6 1, 1,4 1,3 2 4 6 8 1 12 14 16 18 CAPACITY (m 3 /h) EFFICIENCY PRIMING-TIME (sec) HEAD (m) POWER (kw) 24 21 18 1 12 9 6 3 PRIMING TIME WITH WATER -1-1, -2-2, -3-3, -4-4, - -, -6 LIFT (m) PERFORMANCE CURVE 11.18 2 3 r.p.m. - 6Hz 2 1 1 2 4 6 8 1 12 14 16 18 2 2, 2,4 2,3 2,2 2,1 2 4 6 8 1 12 14 16 18 2 CAPACITY (m 3 /h),6,4,2 EFFICIENCY table 3 Model 1.14 11.18 Power (kw) IEC frame P 2.2 9L 3-1 4 ± % - 3 1 3-1 22 ± % P 3 1 3-3 46 ± % - 4 112 3 23 ± % Phase Voltage Hz Protection IP 6 IP CONNECTION table 4 Model DN DeA DeM IO ANI k d x z k d x z 1.14 4 1 1/2 1 1/2 11 18 x 4 98 16 x 4 11.18 4 1 1/2 1 1/2 11 18 x 4 98 16 x 4 8 7 TMA - ECTION VIEW 2 4 3 6 1 1-2 - 3-4 - - 6-7 - 8 - Connections casing Impeller Thrust bushing Central disk Rear casing Front volute casing Filling plug Bracket
4 Rhino - TMA AE OF MAXIMUM LIFT table Vapour Pressure P V [m H2 ],2,7 1,2 2 2, 3 4 Lift Medium P V ( 1 )( 2 ) p.s.( 1 )( 2 ) HF - ~ 4%,4 1,1 HCl - 37% 2 1,17 NaOCl,2 1,26 HNO 3-7%,6 1,41 NaOH - %,2 1,2 H 2 O 4-98% 1x1-4 1,8 H [m H2 ] 2 2 2 2 2 2 2 2-1 2 2 2 2 2 2 2 1,6-1, 2 2 2 2 2 2 1,6 1,2-2 2 2 2 2 1,8 1,6 1,2-2, 2 2 2 2 1, 1,3 1-3 2 2 2 1,7 1,2 1,1-3, 1,9 1,8 1,6 1,4 1,1-4 1,7 1, 1,4 1,2-4, 1,4 1,3 1,2 1-1,3 1,2 1,1 -, 1,1 1,1 1-6 1 1 [m H2O ] = 986 [Pa] (1) ref. to 2 C - 68 F (2) In table 3 select the Pv e p.s. value respect to the pumped fluid Hs HB HB = 1,33 m Hs max with water at 2 C = 6 m PUMP OPERATING PRINCIPLE ACCEORIE base in stainless steel Base prepared with pipe support (in stainless steel) Trolley in stainless steel (without electric device) topping phase: a small quantity of liquid is trapped into the pump to enable the next starting. Priming phase: the impeller gives a specific circulation of air-liquid mixture moving air from the suction pipe to the discharge side in the atmosphere. Pumping phase: after the air is totally removed from the suction side, the pipe is flooded by the liquid and the pumping phase can start. Trolley in stainless steel (with electric device) check valve + filter (PP) drum pipe with check valve and foot strainer (PP) Rhino pump on prepared base nozzle (PP) complete set with flexible pipe (m. 7), hose connectors, nozzle PUMP IDENTIFICATION LABEL table 6 TMA 1.14 WR V R1 B E N 3 Rhino range chosen model EXEC. N=normal P=powered see materials and construction V = FKM E = EPDM K = FFKM see materials and construction B = thr. BP E = IEC U = NEMA N = td. = pec. V. E = Ex-proof O = No motor 3 = 3 phase 1 = 1 phase ERIE MODEL EXECUTION VERION O-ring MATERIAL INTERNAL TRUCTURE CONNECTION TANDARD DATA PHAE TMA 1.14 11.18 N WR V N1 P GF E R1 X1 GX K N2 R2 X2 B E N 3 U E O 1
Rhino - TMA 4 s s4 s2 L3 L1 B2 B3 h3 PUMP DIMENION table 7 model a1 a1.1 h2 h2.1 h4 L( 1 ) r r1 g( 1 ) h1 m1 n1 s1 HF s4 1.14 P 24 28 1 1 224. 224. 14 9 12 14 1 132 14 2 29 16 7 239. 239. 1 1 14 16 12 13 ø8 11.18 N 2 29 16 7 32. 1 1 16 132 14 239. 14 P 262 37 172 8 39. 18 112 19 12 13 ø8 - ( 1 ) can change for different motors builder A k2 h8 s2 h h6 rb.1 h3.1 h7 s3 s2.1 k1 s2.1 B2.1 B3.1 Base prepared with pipe support (optional) L2 L1.1 L3.1 BAE DIMENION table 8 Base standard (optional) Base prepared with pipe support (optional) model rb B2 B3 L1 L3 h3 s2 rb1 B2.1 B3.1 L1.1 L2 L3.1 h3.1 s2.1 h h6 h7 h8 k1 k2 s3 1.14 11.18 P 237 248 38 24 18 2 4 ø14 6. 2 3 482 382 677 ø14 14. 37 32 22 3 39 29 2 1 6 6 ø1 N 1 22 3 39 29 2 4 ø14 6. 2 3 482 382 677 ø14 14. 37 32 P 6 6 ø1
6 Alifter - TMA ALIFTER TMA This pump is volumetric and can operate with inlet and outlet reversible by reversing the direction of motor rotation and are adequate to suck up chemical liquids with high specific gravity and/or high vapour tension. MAIN FEATURE tart-up with empty pipes Fast priming-phase Maximum Lift = - m Reversible (inlet-outlet reversal) uitable for specific gravity up to 2 kg/dm 3 uitable for vapour pressure up to 1 m (H2O @ 4 C) Minimum NPHa (available on the plant) = 3 m (abs) Impeller replaceable apart from magnets IEC or NEMA standard motors can be installed HEAD (m) POWER (kw) PERFORMANCE CURVE 1.16 22 2 29 r.p.m. - Hz 18 16 14,6 12 1 8,4 6 4,2 2,2,4,6,8 1 1,2 1,4 1,6 1,8 2 2,2 2,4,6,6,,,4,2,4,6,8 1 1,2 1,4 1,6 1,8 2 2,2 2,4 CAPACITY (m 3 /h) EFFICIENCY PRIMING-TIME (sec) HEAD (m) POWER (kw) 3 2 2 1 1 PRIMING TIME WITH WATER -1-1, -2-2, -3-3, -4-4, - LIFT (m) PERFORMANCE CURVE 1.21 2 3 r.p.m. - 6Hz 2 1 1,2,4,6,8 1 1,2 1,4 1,6 1,8 2 2,2 2,4,8,7,7,6,6,2,4,6,8 1 1,2 1,4 1,6 1,8 2 2,2 2,4 CAPACITY (m 3 /h),6,4,2 EFFICIENCY table 9 Model 1.16 1.21 Power (kw) IEC frame N. 71 3 4 ± % P.7 8 - - 1.1 8 1 22 ± % P.7 8 3 46 ± % -1-1.1 8 23 ± % Phase Voltage Hz Protection IP 6 IP CONNECTION table 1 Model DN DeA DeM IO ANI JI k d x z k d x z k d x z 1.16 2 3/4 f 3/4 f 7 14 x 4 7 16 x 4 7 1 x 4 1.21 2 3/4 f 3/4 f 7 14 x 4 7 16 x 4 7 1 x 4 9 TMA - ECTION VIEW 1-2 - 3-4 - - 6-7 - 8-9 - Connections casing Impeller Magnetic core Front volute casing Rear casing OR gasket Drive magnet assembly Bracket Filling plug 8 7 3 6 2 4 1
Alifter - TMA 7 ACCEORIE base in stainless steel Trolley in stainless steel (without electric device) Trolley in stainless steel (with electric device) check valve + filter (PP) drum pipe with check valve and foot strainer (PP) nozzle (pp) complete set with flexible pipe (m. 7), hose connectors, nozzle PUMP OPERATING PRINCIPLE topping phase: a small quantity of liquid is trapped into the pump to enable the next starting. Priming phase: the impeller gives a specific circulation of air-liquid mixture moving air from the suction pipe to the discharge side in the atmosphere. Pumping phase: after the air is totally removed from the suction side, the pipe is flooded by the liquid and the pumping phase can start. PUMP IDENTIFICATION LABEL table 11 TMA 6.8 WR V R1 B E N 3 Alifter range chosen model EXEC. N=normal P=powered see materials and construction V = FKM E = EPDM K = FFKM see materials and construction B = thr. BP E = IEC U = NEMA N = td. = pec. V. E = Ex-proof O = No motor 3 = 3 phase 1 = 1 phase ERIE MODEL EXECUTION VERION O-ring MATERIAL INTERNAL TRUCTURE CONNECTION TANDARD DATA PHAE TMA 1.16 1.21 N WR V N1 P GF E R1 X1 GX K N2 R2 X2 B E N 3 U E O 1 dxz K DN DN Q DN L r1 a1 8 3/4 F h1 h1 HD h2 h2 n1 s1 m1 r Base standard (optional) rb B2 h3 L3 s2 B3 L1 BAE DIMENION table 12 Base standard (optional) model a1 Q h2 L( 1 ) r r1 h1 m1 n1 s1 rb B2 B3 L1 L3 h3 s2 N 43 249. 24. 71 9 112 7 216 1.16 P 23. 118 129 248 38 24 18 4 ø14 4 264. 214. 8 1 12 1 227 N 1.21 23. 118 129 4 264. 214. 8 1 12 1 227 248 38 24 18 4 ø14 P - ( 1 ) can change for different motors builder
Member of AIB associazione industriale Bresciana Via Labirinto, 19-212 BRECIA - ITALY Tel. +39.3.3711 - Fax +39.3.3777 - Export dpt. Tel. +39.3.3733 Web: www.argalpumps.com - E-mail: export@argal.it It is the policy of ARGAL to always improve its products and the right is reserved to alter specifications at any time without prior notice. No part of this publication may be reproduced in any form or any means.