Self-Priming Mag Drive Regenerative Turbine Pump for Chemicals and Highly Corrosive Liquids
HTT SP/PVDF
Capable of self-priming up to 5 m. The pump casing is machined from a solid polypropylene (PP) block, while the impeller is manufactured from PVDF to provide maximum chemical resistance.
HTT-SP pumps are capable of self-priming up to 5 m with water at ambient temperature. The pump casing is machined from a solid polypropylene (PP) block, while the impeller is manufactured from PVDF to provide maximum chemical resistance.
The PVDF impeller is self-balanced to eliminate thrust bearing wear and is designed as a separate component to reduce maintenance costs. This pump design offers excellent resistance to both internal and external corrosion. In addition, HTT-SP pumps can handle up to 20% entrained gas and demonstrate strong resistance to cavitation.
Anti-corrosion industrial pumps suitable for pumping acids and bases fluids and highly corrosive liquids
- Materials available: PP or PVDF;
- Materials in contact with the liquid:
Pump housing: PPor PVDF;
Impeller: PVDF;
O-ring: EPDM (standard for PP pumps) /
VITON (standard for PVDF pumps);
Static shaft: Al2O3 99.7%;
Bearing: PTFEC. - Max flow: 7 m3/h; max head 36 mlc.
- Max temperature: PP: 70°C – PVDF: 90°C.
- High torque magnetic coupling.
- Chemical resistant PTFE/carbon sleeve bearings.
- Static shaft in high purity ceramic.
- Direct starting motor.
- Available in ATEX version for zone 2 I I 3G (pump mod. EM-T SP)
Manufacturing Materials
HTT-SP pumps are made of thermoplastic materials PP o PVDF and they are compatible with most acids and basic liquids, chemicals and other dangerous fluids.
Leak Free Magnetic Design
Advantages of magnetic drive pumps:
– no mechanical seal
– no leakage and emissions
– no motor/pump alignment
– environmental sustainability
– reliability and safety
– limited periodic maintenance with long-term savings
Reliability
Unlike many centrifugal pumps on the market the pump head of GemmeCotti pumps is fixed to the bracket with 8 bolts. This feature guarantees a firm fastening of the pump head to the bracket and avoid the casing deformation under pressure.
Self-Priming Ability
HTT-SP pumps can prime up to 5 m at sea level liquids with specific gravity 1 and at room temperature.
Static Shaft
The static shaft of the mag drive turbine pumps HTT-SP series are made of Alumina 99,7% (Al2O3), an extremely resistant ceramic material, which guarantees the maximum stability and resistance to aggressive chemicals.
Magnets
The HTT-SP pumps are equipped with NdFeB magnets that ensure a high magnetic torque
Machined Casing
HTT-SP series pump casing is machined from a solid block. This kind of pump offers maximum resistance withstanding also external corrosion.
Magnetic drive pumps are designed with a special sealless configuration that is suitable for transferring acids, chemicals, corrosive and dangerous liquids thanks to the high chemical resistance of their construction materials and to the absence of leakage and emissions. The structure is really simple and it requires very little maintenance with consequent saving in terms of repairing, spare parts and machine downtime (costs during the pump life). This type of pump is not suitable for transferring liquids with solids. Liquid must necessarily be clean and free of suspended solids.
* The pump’s flow rate and output are specified for pumping water at room temperature. If you pump liquids with higher temperature, viscosity, or density, the performance must be recalculated accordingly. The electric motor is selected based on the viscosity and density values provided.
- Chemical and pharmaceutical industries
- Loading and Unloading liquid tankers
- Transfer of chemicals from storage to production lines
- Solvent recovery systems
- Transfer of chemicals to and from various containers (IBC- DRUMS etc)
- Effluent treatment
- Liquids waste recovery from containing walls
- Mining Sector
- Sulfuric acid
- Aqua regia
- Sodium metabisulfite
- Hydrofluoric acid (Fluoridric acid)
- Oxidizing agents
(including peracetic acid)
- Air / gas treatment
- Biogas plants – H2S elimination systems (Desulfurators)
- Wet scrubber abatement systems (in-tank vertical pumps or external horizontal pumps)
- NOx and SOx elimination systems (urea)
- Detergents and sanitizers
- Loading and Unloading liquid tankers
- Bottling machines, filling machines and equipment
- Chemical transfers
- Cosmetics
- Energy
- Lead Acid Battery Production
- Recycling
- Stack systems for cell batteries – electrolytes
- Hydrogen production
- Steel & aluminum industry
- Extrusion plants (matrix cleaning with NaOH)
- Pickling
- Galvanic industry
- Galvanic plants manufacturers
- Cleaning of banknote molds
- Printing machines (cleaning)
- Electroplating /Galvanic process
- Oil and gas
- Methane / Gas odorization systems
- Sulfur cycle / fatty acid saponification
- Sampling systems
- PCB industry
- PCB manufacturers for samples in home appliances and automotive sector
- Manufacturers of tanks and dedicated plant engineering
- Food industry
- Clean-in-place (C.I.P.) systems for food industry
- Cheese salting
- Dairies
- Textile industries
- Dye-works, fabric coloring and fixing (sodium hydroxide and acetic acid)
- Industrial laundries (bleaching)
HTT-SP pumps are capable of self-priming up to 5 m with water at ambient temperature. The pump casing is machined from a solid polypropylene (PP) block, while the impeller is manufactured from PVDF to provide maximum chemical resistance.
The PVDF impeller is self-balanced to eliminate thrust bearing wear and is designed as a separate component to reduce maintenance costs. This pump design offers excellent resistance to both internal and external corrosion. In addition, HTT-SP pumps can handle up to 20% entrained gas and demonstrate strong resistance to cavitation.
Anti-corrosion industrial pumps suitable for pumping acids and bases fluids and highly corrosive liquids
- Materials available: PP or PVDF;
- Materials in contact with the liquid:
Pump housing: PPor PVDF;
Impeller: PVDF;
O-ring: EPDM (standard for PP pumps) /
VITON (standard for PVDF pumps);
Static shaft: Al2O3 99.7%;
Bearing: PTFEC. - Max flow: 7 m3/h; max head 36 mlc.
- Max temperature: PP: 70°C – PVDF: 90°C.
- High torque magnetic coupling.
- Chemical resistant PTFE/carbon sleeve bearings.
- Static shaft in high purity ceramic.
- Direct starting motor.
- Available in ATEX version for zone 2 I I 3G (pump mod. EM-T SP)
Manufacturing Materials
HTT-SP pumps are made of thermoplastic materials PP o PVDF and they are compatible with most acids and basic liquids, chemicals and other dangerous fluids.
Leak Free Magnetic Design
Advantages of magnetic drive pumps:
– no mechanical seal
– no leakage and emissions
– no motor/pump alignment
– environmental sustainability
– reliability and safety
– limited periodic maintenance with long-term savings
Reliability
Unlike many centrifugal pumps on the market the pump head of GemmeCotti pumps is fixed to the bracket with 8 bolts. This feature guarantees a firm fastening of the pump head to the bracket and avoid the casing deformation under pressure.
Self-Priming Ability
HTT-SP pumps can prime up to 5 m at sea level liquids with specific gravity 1 and at room temperature.
Static Shaft
The static shaft of the mag drive turbine pumps HTT-SP series are made of Alumina 99,7% (Al2O3), an extremely resistant ceramic material, which guarantees the maximum stability and resistance to aggressive chemicals.
Magnets
The HTT-SP pumps are equipped with NdFeB magnets that ensure a high magnetic torque
Machined Casing
HTT-SP series pump casing is machined from a solid block. This kind of pump offers maximum resistance withstanding also external corrosion.
Magnetic drive pumps are designed with a special sealless configuration that is suitable for transferring acids, chemicals, corrosive and dangerous liquids thanks to the high chemical resistance of their construction materials and to the absence of leakage and emissions. The structure is really simple and it requires very little maintenance with consequent saving in terms of repairing, spare parts and machine downtime (costs during the pump life). This type of pump is not suitable for transferring liquids with solids. Liquid must necessarily be clean and free of suspended solids.
* The pump’s flow rate and output are specified for pumping water at room temperature. If you pump liquids with higher temperature, viscosity, or density, the performance must be recalculated accordingly. The electric motor is selected based on the viscosity and density values provided.
- Chemical and pharmaceutical industries
- Loading and Unloading liquid tankers
- Transfer of chemicals from storage to production lines
- Solvent recovery systems
- Transfer of chemicals to and from various containers (IBC- DRUMS etc)
- Effluent treatment
- Liquids waste recovery from containing walls
- Mining Sector
- Sulfuric acid
- Aqua regia
- Sodium metabisulfite
- Hydrofluoric acid (Fluoridric acid)
- Oxidizing agents
(including peracetic acid)
- Air / gas treatment
- Biogas plants – H2S elimination systems (Desulfurators)
- Wet scrubber abatement systems (in-tank vertical pumps or external horizontal pumps)
- NOx and SOx elimination systems (urea)
- Detergents and sanitizers
- Loading and Unloading liquid tankers
- Bottling machines, filling machines and equipment
- Chemical transfers
- Cosmetics
- Energy
- Lead Acid Battery Production
- Recycling
- Stack systems for cell batteries – electrolytes
- Hydrogen production
- Steel & aluminum industry
- Extrusion plants (matrix cleaning with NaOH)
- Pickling
- Galvanic industry
- Galvanic plants manufacturers
- Cleaning of banknote molds
- Printing machines (cleaning)
- Electroplating /Galvanic process
- Oil and gas
- Methane / Gas odorization systems
- Sulfur cycle / fatty acid saponification
- Sampling systems
- PCB industry
- PCB manufacturers for samples in home appliances and automotive sector
- Manufacturers of tanks and dedicated plant engineering
- Food industry
- Clean-in-place (C.I.P.) systems for food industry
- Cheese salting
- Dairies
- Textile industries
- Dye-works, fabric coloring and fixing (sodium hydroxide and acetic acid)
- Industrial laundries (bleaching)
