Posts Tagged ‘Diaphragm Pumps’

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Cleaning and Washing

November 29th, 2009

cleaning and washing

Many industrial cleaning systems use liquids that may harm or cause premature wear in piston pumps and other types that rely on shaft seals to separate drive mechanism from the pumped fluid.

With its high pressure capability, seal-less design and ability to handle virtually any cleaning liquid, hot or cold, the Hydra-Cell pump is ideally suited to cleaning and washing applications.

Seal-less Hydra-Cell pumps have established a reputation for long life, low maintenance cost and universal compatibility when handling cleaning fluids – including reclaimed and recycled liquids.

Why Hydra-Cell?
Hydra-Cell pumps are seal-less. No seals, no seal wear – No leaks. No loss of performance. No frequent repairs. Less downtime. Long-term reliability, with minimal routine maintenance

Hydra-Cell pumps can handle solids up to 500 microns, or more. They can be pumped without fine filtration. System costs are reduced and maintenance is simplified.

Most pumps in the Hydra-Cell range can operate at any pressure from <1 bar up to at least 70 bar. Some models up to 170 bar.

Wide choice of materials for pump body and elastomers.

Energy savings. Compact and highly efficient, a Hydra-Cell pump can be fitted with a smaller motor than would be required by many much bigger pumps for equivalent flows and pressures – giving significant energy savings over centrifugal pumps, especially at pressures above 40 bar.

  • Automotive parts washing
  • Car wash, truck wash
  • Cleaning PCBs
  • Clean-in-place systems
  • De-burring with high pressure
  • Filter cleaning
  • Internal cleaning of tanks, road tankers, IBCs and totes
  • Machine wash down
  • Paint, ink, dye mixing vessels
  • Paper industry – conveyors and felts
  • Parts washing
  • Pressure wash guns – ring main
  • Rinsing with DI water
  • Plus many more

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Food Industry

November 29th, 2009

Food Industry

Though not qualified for Hygienic duties, Hydra-Cell pumps are widely used in the food industry because of their seal-less design and ability to handle particulates, abrasives, corrosives, caustics and hot liquids.  Common applications include spray drying systems, coating, transfer of process liquids, mixing and dosing.  Liquid end can be supplied with internal parts polished to a mirror finish surface, 0.4 Ra.

The pumps are ideal for pumping hot or cold, cleaning and sterilising agents in C.I.P S.I.P. systems, high pressure road-tanker,  tank-wash systems and hand-held wash-down guns.

Why Hydra-Cell?
Hydra-Cell pumps are seal-less. No seals, no seal wear – No leaks. No loss of performance. No frequent repairs. Less downtime. Long-term reliability, with minimal routine maintenance and low repair costs.

Hydra-Cell has a low shearing pumping action compared with traditional pumps used and therefore affects shear-sensitive fluids much less.

Hydra-Cell pumps can handle solids up to 500 microns, or more. They can be pumped without fine filtration. System costs are reduced and maintenance is simplified.

Most pumps in the Hydra-Cell range can operate at any pressure from <1 bar up to at least 70 bar. Some models up to 170 bar

The flow rate of a Hydra-Cell pump is constant, regardless of system pressure. The relationship between flow and pump speed is a straight line. Flow is easily controlled within ±1% accuracy simply by controlling pump speed – with turndown ratios of 10:1 or better.

Flow is steady, with little pulsation.

The droplet size produced by a given spray nozzle depends on pressure, which is related to flow. Hydra-Cell pump flow is accurately controlled by controlling pump speed.

  • Abrasive sugar solutions
  • Cleaning and wash down, with detergents, caustics, acids, hot water etc etc.
  • Cocoa mass
  • Colourings and flavourings
  • Edible oils
  • Filter press
  • Lecithin
  • Liquid chocolate
  • Liquid nougat
  • Maple syrup
  • Membrane filtration
  • Palm oil and salt mixtures
  • Reverse osmosis
  • Soft drink concentrates
  • Spray coating foods
  • Spray drying
  • Plus many more

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Machine Tools

November 29th, 2009

Machine Tools

System builders world wide depend on the durable Hydra-Cell pump for reliable high pressure coolant delivery.  Seal-less design enables the pump to handle metal particles and run dry without damage.

Fine filtration is not required to protect the pump.  Particles as large as 500 microns in diameter can be tolerated.  Filtration levels can be matched to the work piece or tooling, saving costs on ancillary equipment.

Why Hydra-Cell?
Hydra-Cell pumps are seal-less. No seals, no seal wear – No leaks. No loss of performance. No frequent repairs. Less downtime. Long-term reliability, with minimal routine maintenance.

Hydra-Cell pumps can handle solids up to 500 microns, or more. They can be pumped without fine filtration. System costs are reduced and maintenance is simplified.

Most pumps in the Hydra-Cell range can operate at any pressure from <1 bar up to at least 70 bar. Some models up to 170 bar.

Flow is steady, with little pulsation.

Flow is controllable and predictable regardless of the cutting fluid in use (emulsion or neat oil coolant).

As pressure increases, there is very little change in flow rate

The pumps can handle any type of coolant – solvent-based, water-based mineral or synthetic oil emulsions, or neat oil – as well as the dielectric fluids and DI water used in EDM drilling and the abrasive slurries in ECM drilling operations.  The pumps can run dry without damage.  Model options allow pumping at pressures up to 170 bar.  Maintenance requirements are minimal.  High pumping efficiency reduces motor size and energy consumption.

  • De-burring
  • Deep hole drilling
  • DI water
  • Dielectric fluid
  • EDM
  • Grinding
  • Milling
  • Slurries
  • Turning
  • Plus many more

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Mining and Quarrying

November 29th, 2009

Mining and Quarrying

Simple build and a design with no dynamic seals give Hydra-Cell pumps big advantages in many mining and quarrying applications.

For example, grey water with abrasive solids often gives trouble to piston plunger pumps and multi-stage centrifugal pumps, whose designs rely on seals exposed to wear.  Seal-less Hydra-Cell pumps handle recycled water easily.  Also corrosives and caustic liquids.

Why Hydra-Cell?
Hydra-Cell pumps are seal-less. No seals, no seal wear – No leaks. No loss of performance. No frequent repairs. Less downtime. Long-term reliability, with minimal routine maintenance and low repair costs.

Hydra-Cell pumps can handle solids up to 1mm, or more. They can be pumped without fine filtration. System costs are reduced and maintenance is simplified.

The flow rate of a Hydra-Cell pump is constant, regardless of pressure. The relationship between flow and pump speed is a straight line. Flow is easily controlled within ± 1% accuracy simply by controlling pump speed – with turndown ratios of 10:1 or better.

Flow is steady, with little pulsation.

Hydra-Cell pumps can run dry without damage. Innovative Kel-Cell technology protects diaphragms even in abnormal system conditions.

Energy savings.

Cost and space saving through simple, compact design.

Wide choice of materials for pump body and elastomers.

Most pumps in the Hydra-Cell range can operate at any pressure from <1 bar up to at least 70 bar. Some models up to 170 bar.

High pressure capability and low pulsation – basic Hydra-Cell features – make the pumps ideal for seal-flushing, protecting high-volume slurry and ground water pumps from expensive early failure.

Physically compact and energy efficient, using relatively small motors, Hydra-Cell pumps fit readily into mobile machinery.

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  • Bentonite slurry
  • Caustic solutions
  • Cyanide concentrate
  • Drill head cooling
  • Dust suppression
  • Ethylene glycol
  • Pressure boost
  • Pressure inject
  • Plus many more

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Metering and Dosing

November 29th, 2009

Metering and Dosing

Meeting the performance criteria of API675, the Hydra-Cell pump offers linear, repeatable, accurate steady flow.

The compact Hydra-Cell gives the advantages of large traditional hydraulic diaphragm pumps, but at a fraction of the initial cost, spare parts costs and energy costs.

For example, at a given flow and pressure, a traditional pump with a 15kW motor can be replaced with a Hydra-Cell pump with 5kW.

Why Hydra-Cell?
Hydra-Cell’s unique multiple diaphragm head design means that:

  1. Pulsation dampers may not be required. See graph comparing pulsation of a typical hydraulic diaphragm metering pump with that of the Hydra-Cell pump.
  2. For equivalent flow/pressure performance, the physical size of a Hydra-Cell pump is very much smaller than that of the more massively constructed typical traditional metering pump. (See comparison.) The Hydra-Cell’s compact design not only gives it a smaller footprint, but also reduces life-cycle costs.

Flow rate is near constant regardless of variations in system pressure.

Hydra-Cell’s unique check valve design allows it to handle particles, including slurries and any crystals which may form in the liquid.

Meets and exceeds the perfomance characteristics of API 675.

  1. Steady state accuracy +/- 1%
  2. Repeatability +/- 3%
  3. Linearity +/- 3%

Wide choice of liquid end materials giving a cost effective solution.

Flow rate is varied by speed control offering turndown ratios of 10 to 1 or better

  • Animal fats
  • Caustics
  • Chemical injection
  • Colourings
  • Dispensing
  • Fish oil
  • Flavourings
  • Foaming chemicals
  • Freon
  • Fuel additives
  • Gas conditioning
  • Halon
  • Injection of additives to oil
  • Injection of lime slurries and ammonia into flue gases
  • Lactic acid
  • Mixing
  • Nitric acid
  • Pentane
  • Polymers
  • Polyol
  • Propellant packaging
  • Resins
  • Slurries
  • Soya oil
  • Spray coating
  • Steam temperature control with DI water
  • Sugar solutions
  • Sulphuric acid
  • Titanium dioxide
  • Volatile fluids
  • Water treatment – PH control
  • Plus many more

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Reverse Osmosis

November 29th, 2009

Reverse Osmosis

The seal-less nature of the Hydra-Cell pump (which is also ATEX approved) enables charged and dirty liquids to be processed without need for fine filtration to protect the pump.

The pump needs little maintenance and can operate on continuous duty at high pressure.

Pulsation is low, so dampeners may not be required.

Why Hydra-Cell?
Hydra-Cell pumps are seal-less. No seals, no seal wear – No leaks. No loss of performance. No frequent repairs. Less downtime. Long-term reliability, with minimal routine maintenance and low repair costs.

Hydra-Cell pumps can handle solids up to 500 microns, or more. They can be pumped without fine filtration. System costs are reduced and maintenance is simplified.

Flow is steady, with little pulsation.

The pump is tolerant of operator error as it can run dry and the patented Kel-Cell mechanism protects the pump from adverse inlet conditions, such as a blocked filter or an accidently closed valve.

Seal-less design marks out the Hydra-Cell from other RO pumps and is the basis of its long service life – many of the liquids pumped are harmful to pump seals.  The pump is tolerant of small solids, resistant to chemical and corrosive attack.

Energy costs, a serious problem with many pumps on continuous duty, are held down by the high efficiency and low horsepower requirement of the Hydra-Cell pump.

  • Concentration of chemicals
  • Concentration of fruit juices
  • Process water treatment
  • Seawater desalination
  • Separation of fluids
  • Solvent and acid recovery
  • Plus many more

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Oil and Gas

November 29th, 2009

Oil and Gas

Major global oil and gas companies are significant users of Hydra-Cell pumps, and good examples of an ideal match between pumping requirements and pump capabilities.

Seal-less design allows the pumps to handle liquids of all types from thin non-lubricants to abrasive slurries, chemicals  and contaminated mixes.

Why Hydra-Cell?
Hydra-Cell pumps are seal-less. No seals, no seal wear – No leaks. No loss of performance. No frequent repairs. Less downtime. Long-term reliability, with minimal routine maintenance and low repair costs.

Hydraulically-balanced diaphragms isolate pump chamber from drive end and enable pumping of chemicals, abrasives, non-lubricants etc.

Wide choice of materials for pump body and elastomers.

Hydra-Cell pumps can handle solids up to 1mm, or more. They can be pumped without fine filtration. System costs are reduced and maintenance is simplified.

Most pumps in the Hydra-Cell range can operate at any pressure from <1 bar up to at least 70 bar. Some models up to 170 bar.

The flow rate of a Hydra-Cell pump is constant, regardless of pressure. The relationship between flow and pump speed is a straight line. Flow is easily controlled within ± 1% accuracy simply by controlling pump speed – with turndown ratios of 10:1 or better.

Flow is steady, with little pulsation.

Hydra-Cell pumps can run dry without damage. Innovative Kel-Cell technology protects diaphragms even in abnormal system conditions.

Energy savings. Compact and highly efficient (80-85%), a Hydra-Cell pump can be fitted with a smaller motor than would be required by many much bigger pumps for equivalent flows and pressures.

Cost and space saving through simple, compact design.

Wide operating range enables Hydra-Cell pumps to work continuously at high pressures, for tasks such as injection of well and process chemicals and re-injection of ground water.

Smooth, virtually pulse-free flow, combined with metering accuracy and easy control, is ideal in gas drying, FGD, temperature control and other gas conditioning systems.

And not least…  energy-efficiency, simple build, small footprint, low maintenance – and proven reliability in continuous 24/7 pumping systems.

  • condensate injection
  • contaminated water
  • de-mineralised water
  • dosing – hydrochloric acid
  • dosing – sodium hydroxide
  • flue gas desulphurisation
  • gas cooling
  • gas dehydration (glycol)
  • ground water re-injection
  • methanol injection (de-icing)
  • methyl alcohol
  • NOx control
  • oil skim removal
  • petroleum additives
  • pipeline sampling
  • pressure washdown
  • propane, butane. ethers
  • Plus many more

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Pulp and Paper Industries

November 29th, 2009

Pulp and Paper Industries

In duties ranging from paper coating and preparation to high pressure cleaning, wet-end trimming and extremely accurate metering (exceeding API 675 standards for metering pumps) the reliability of Hydra-Cell seal-less pumps is well-proven in the paper industries.

The pumps are handling recycled water, abrasive fluids, fluids with solids in suspension, chemicals, non-lubricants and many other difficult liquids. Many of the fluids used are abrasive and react with air to crystallise or harden, which can cause problems with pumps that have mechanical seals. Hydra-Cell’s seal-less pump design means that this is not a problem.

Why Hydra-Cell?
Hydra-Cell pumps are seal-less.

Many of the chemicals used in the paper and pulp industry are abrasive or react by crystallising or hardening when they come into contact with air. This can lead to problems with mechanical seals creating extra maintenance work. Hydra-Cell’s seal-less design gives large savings in maintenance.

Energy savings. Compact and highly efficient (85%), a Hydra-Cell pump can be fitted with a smaller motor than would be required by many pumps for the same flows and pressures. See table comparing examples of Hydra-Cell v centrifugal pumps.

Hydra-Cell pumps can handle solids up to 1mm, or more. They can be pumped without fine filtration. System costs are reduced and maintenance is simplified.

Most pumps in the Hydra-Cell range can operate at any pressure from
<1 bar up to at least 70 bar. Some models up to 170 bar.

The relationship between flow and pump speed is a straight line. Flow is easily controlled within ±1% accuracy simply by controlling pump speed – with turndown ratios of 10:1 or better.

Flow is steady, with little pulsation.

High pumping efficiency (85% compared for example with 45% for a typical centrifugal pump) is enabling mills to save energy, while also reducing maintenance and repair costs.

Electronic control of flow (via motor speed) makes automation simple and inexpensive. Very low pulsation, avoiding need for pulsation dampeners, reduces cost of many metering and chemical injection systems, and cuts wastage at web trimming stage.

  • Biocides
  • Chlorine injection
  • Colour additives
  • Dyes
  • Fabric cleaning
  • Felt cleaning
  • Fillers
  • Filter screen cleaning
  • Glues
  • Latex
  • Latex coating
  • Pitch oil
  • PMA
  • Polymers
  • Polymers
  • Primers
  • Raw turpentine (burner feed)
  • Resins
  • Slurries
  • Starch
  • Stock chest cleaning
  • Wet-end trimming
  • Plus many more

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Spray Dying

November 29th, 2009

Spray Dying

Wide pressure range and low pulsation give consistent and controllable droplet size for process optimisation and predictable quality of product.

Seal-less design prevents gradual deterioration of performance over time.

Instant flow rate changes are achieved with repeatable accuracy by changing pump speed.

Why Hydra-Cell?
Hydra-Cell’s unique compact design results in the pump being much smaller than traditional hydraulically-balanced diaphragm pumps of similar flow/pressure rating. Saving in initial acquistion costs, spare parts and production space. Giving lower life cycle costs.

The flow rate of a Hydra-Cell pump is constant, regardless of system pressure. The relationship between flow and pump speed is a straight line. Flow is easily controlled within ±1% accuracy simply by controlling pump speed – with turndown ratios of 10:1 or better

The droplet size produced by a given spray nozzle depends on pressure, which is related to flow. Hydra-Cell pump flow is accurately controlled by controlling pump speed.

Flow is steady, with little pulsation.

Hydra-Cell pumps can handle solids up to 500 microns, or more. They can be pumped without fine filtration. System costs are reduced and maintenance is simplified.

Hydra-Cell pumps are seal-less. No seals, no seal wear – No leaks. No loss of performance. No frequent repairs. Less downtime. Long-term reliability, with minimal routine maintenance and low repair costs.

Hydra-Cell pumps can handle virtually any liquid that can be sprayed.  Seal-less technology, robust engineering and simple build give long service life, keep maintenance costs low and minimise downtime.  High pumping efficiency lowers energy costs by allowing smaller, lower horsepower motors to be used.

  • Adhesives
  • Carbides
  • Ceramic slurries
  • Coatings
  • Colour dye manufacture
  • Fire retardants
  • Foodstuffs (in non-hygienic applications)
  • Glazes
  • Lime slurries
  • Magnesium chloride solution
  • Metal powders in alcohol
  • Paints, inks, dyes
  • Plastics
  • Resins
  • Slurries for detergent
  • Water jetting
  • Water misting
  • Plus many more

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Vehicle Washing

November 29th, 2009

Vehicle Washing

The high costs of using and disposing of water oblige vehicle wash systems to rely increasingly on recycled water.  Even after filtration this will contain chemicals in solution and is likely to carry particles of grit and other contaminants.  Pumping it is potentially damaging for pumps with seals.

Operating at pressures above 40 bar, even using clean water, may cause packings and seals of piston pumps to be changed every 6 months. Hydra-Cell’s seal-less design means that this maintenance is not needed.

Why Hydra-Cell?
Hydra-Cell pumps are seal-less. No seals, no seal wear – No leaks. No loss of performance. No frequent repairs. Less downtime. Long-term reliability, with minimal routine maintenance and low repair costs.

Hydra-Cell pumps can handle solids up to 1mm, or more. They can be pumped without fine filtration. System costs are reduced and maintenance is simplified.

Most pumps in the Hydra-Cell range can operate at any pressure from <1 bar up to at least 70 bar. Some models up to 170 bar.

Flow is steady, with little pulsation.

Hydra-Cell pumps can run dry without damage. Innovative Kel-Cell technology protects diaphragms even in abnormal system conditions.

Sealed pumps may be vulnerable in a low pressure system.  In cleaning systems working at higher pressures (e.g. above about 20 bar) the risks of rapid seal wear, loss of performance and premature pump failure increase.

Hydra-Cell seal-less pumps are used in vehicle cleaning systems not only for their high pressure capability, but because of their simple build, low maintenance and reliability.  They tolerate chemicals and abrasive particles (up to1mm or more) without needing fine filtration.  They are also energy efficient – a big factor in their exceptionally low operating costs.

  • Automatic cleaning systems
  • Car wash
  • Construction equipment
  • Road tankers – including internal tank wash
  • Trucks, buses
  • Underbody cleaning
  • Plus many more

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