Maximizing Heat Exchange Efficiency Reduces Costs | HRS Heat Exchangers

Maximizing Heat Exchange Efficiency Reduces Costs

May 27, 2016 | Categories: Environmental - Food - Industrial - Opinion Piece - Pharmaceutical | by
HRS Heat Exchangers

A heat exchanger is simply a device for transferring heat from one fluid or gas to another. Yet choosing the best-suited heat exchanger for a particular application is not that simple and requires the supplier to fully understand your process and products so that the solution delivers optimum performance throughout its working life.

With 35 years experience supplying heat exchangers for heating and cooling to a wide range of industries including food manufacturers to waste water treatment, chemicals, and bioenergy, HRS Heat Exchangers has developed 13 different types of heat exchanger to handle products of all kinds, from the most simple to most complex. In particular, HRS is known for its range of corrugated tube heat exchangers which provide higher heat transfer rates than normal smooth tube heat exchangers.

HRS heat exchangers have a strong reputation for heat recovery from their heat exchangers. This makes them ideal for clients with complex operations, for example those which feature both heating and cooling operations in their process. It also makes such systems very efficient: HRS pasteurisation systems with heat recovery are typically 70% more efficient than typical ‘heat jacket’ type units.

A wide range of tube-in-tube and multi-tube models are available, which can be configured for a multitude of processes including food processing, heating, cooling, cooking and pasteurization; sludge, waste and digestate pasteurization or evaporation; heat recovery; cooling; condensation; crystallization; evaporation; thermal hydrolysis and more. Single units can be combined to provide applications for any scale and common benefits include low maintenance requirements, cleaning-in-place, easy servicing, heat recovery and high thermal efficiency.

The three main types of heat exchanger offered by HRS include:

Corrugated Tube Heat Exchangers

Unlike other tubular heat exchangers, HRS use corrugated tubes. This breaks up the film layer close to the tube wall and introduces extra turbulence, resulting in higher heat transfer rates than normal smooth tube heat exchangers. In turn this results in many benefits including: heat exchangers which are more compact and shorter than conventional tube-in-tube units; less expensive and more compact units for the same capacity, in some cases up to 40% smaller; less fouling and maintenance; shorter units which have a lower pressure drop saving energy and pumping costs.

The higher the flow rate (or the higher the Reynolds number of the fluid), the greater the effect of the corrugated tube on increasing heat transfer (see diagram).

Corrugated tube heat exchangers can be supplied in various types of geometries for different types of applications and multiple units are frequently interconnected and combined in a frame for larger applications. With nine standard ranges, we have a solution for almost any process.

Scraped Surface Heat Exchangers

In situations where fouling by the material being processed causes the rate of heat transfer to drop, or where viscous fluids have very low heat transfer rates, HRS recommends the use of scraped surface heat exchangers.

These work to remove the fouling layer, which can be caused by the deposition of solids or crystallization of components, in order to maintain effective heat transfer. When working with viscous fluids the use of scraped surface heat exchangers mixes the fluid vigorously in the tube, increasing the heat transfer rate and allowing the use of smaller units. This can also help with processes such as the cooking of viscous foods which can be cooked faster due to the improved heat transfer rates.

Like corrugated tube heat exchangers, scraped surface units can be combined for larger applications. HRS offers two ranges of scraped surface heat exchanger, which are particular suitability for large applications such as environmental waste, sensitive food products and highly viscous fluids.

Plate Heat Exchangers

Plate heat exchangers are ideal for applications where the fluids have relatively low viscosity with no particles. Also, they are an ideal choice where the product outlet temperature is close to the service inlet temperature. Plate heat exchangers consist of thin, corrugated plates. The two materials for heat exchange are passed between the gaps of adjacent plates through which the heat is transferred.

HRS plate heat exchangers use a number of herringbone patterned pressed heat transfer plates. These are assembled in an inverse formation to create two sets of parallel channels, one for each liquid. Since the herringbone patterns point in opposite directions, a large number of points of support are achieved creating a lattice in each channel. This provides a high level of turbulence, which in turn leads to an elevated rate of heat transfer. All our plate heat exchangers are calculated to obtain the correct thermal length for the heat transfer duty required, within specific parameters.

“The exact requirements of a heat exchanger vary considerably according to its situation, but using corrugated tubes in our double tube and multi-tube heat exchangers provides users with a number of common benefits over other systems,” explains Matt Hale, HRS International Sales Manager.

“Increasing the efficiency of the heat transfer means that less area is required to achieve the same result, so heat exchangers can be shorter and therefore cheaper. Less energy is required for pumping which adds to the overall savings and reusing captured heat enables businesses to save energy elsewhere.

“Over the last year, our engineers have installed efficient heat exchange solutions in a number of challenging environments and for many different substances, including dairy curd products, sauces, waste water and the digestate from biogas plants. From heating dairy products and cooling pizza sauce to pasteurizing digestate, we have a proven solution in operation somewhere.”

Choosing the Right Heat Exchanger for Your Process

Fluids containing Fibres or other Solids

  • DTI Series (Industrial double tube heat exchanger with corrugated inner tube)
  • DTA Series (Food-grade double tube stainless steel heat exchanger with corrugated inner tube)
  • AS Series (Triple tube or annular space heat exchanger for viscous fluids)

Fluids of Low to High Viscosities

  • DTI Series (Industrial double tube heat exchanger with corrugated inner tube)
  • DTA Series (Food-grade double tube stainless steel heat exchanger with corrugated inner tube)
  • AS Series (Triple tube or annular space heat exchanger for viscous fluids)

Fluids of Low to Medium Viscosities

  • K Series (Industrial stainless steel multi-tube heat exchanger with corrugated tubes)
  • MI Series (Food-grade multi-tube stainless steel with corrugated inner tubes)
  • MR Series (Food-grade multi-tube stainless steel heat exchanger for product to product heat recovery)

Fluids with High Viscosities

  • Unicus Series (Scraped surface heat exchanger for high fouling and viscous fluid applications)
  • R Series (Rotary scraped surface heat exchanger designed for the most difficult heat transfer applications)

Non-Newtonian Fluids

  • DTI Series (Industrial double tube heat exchanger with corrugated inner tube)

Environmental Industries, Sludge & Waste Products

  • DTR Series (Double tube heat exchanger with removable inner tube to aid inspection)
  • Unicus Series (Scraped surface heat exchanger for high fouling and viscous fluid applications)
  • R Series (Rotary scraped surface heat exchanger designed for the most difficult heat transfer applications)

Exhaust Gas Cooling

  • G Series (Specially designed with optimised geometry for exhaust gas cooling)

General Industrial Applications

CIP Heating

  • K Series (Industrial multi-tube heat exchanger with corrugated tubes)

Pharmaceuticals & Cosmetics

  • SP Series (stainless steel corrugated tube heat exchanger)
  • Unicus Series (Scraped surface heat exchanger for high fouling and viscous fluid applications)

Food Applications

  • DTA Series (Food-grade double tube stainless steel exchanger with corrugated inner tube)
  • MI Series (Food-grade multi-tube stainless steel with corrugated inner tubes)
  • MR Series (Food-grade multi-tube stainless steel heat exchanger for product to product heat recovery)
  • AS Series (Triple tube or annular space heat exchanger for viscous fluids)
  • Unicus Series (Scraped surface heat exchanger for high fouling and viscous fluid applications)
  • R Series (Rotary scraped surface heat exchanger designed for the most difficult heat transfer applications)
  • Plate heat exchangers

Bioenergy (anaerobic digestion, biofuels, biomass streams)

  • DTR Series (Double tube heat exchanger with removable inner tube to aid inspection)
  • Unicus Series (Scraped surface heat exchanger for high fouling and viscous fluid applications)
  • R Series (Rotary scraped surface heat exchanger designed for the most difficult heat transfer applications)