Where process heating and cooling is used, there is typically significant untapped opportunity to implement heat recovery. We take the time to understand the specific manufacturing processes of each client and to create bespoke systems designed to increase efficiency and reduce operating costs. All our solutions can be retrofitted or designed into new build manufacturing processes.

Food & Drink Manufacturers
Lakes/Flooded Gravel Pits The Sea Rivers/Canals Air Ground Loops Flooded Mines/Aquifer Borehole Air Conditioning Systems Warehouse Cooling Process Cooling Blast Freezers Water Chillers Space Heating Drying Process Water Boiler Pre-Heat Hot Water

Lakes/Flooded Gravel Pits

GTE water source heat pumps can efficiently extract heat from lakes or flooded gravel pits to provide a sustainable and renewable energy source.

The Sea

GTE water source heat pumps can efficiently extract heat from the sea to provide a sustainable and renewable energy source.

Rivers/Canals

GTE water source heat pumps can efficiently extract heat from rivers/canals to provide a sustainable and renewable energy source.

Air

GTE air source heat pumps can efficiently extract heat from the air to provide a sustainable and renewable energy source

Ground Loops

GTE ground source heat pumps can efficiently extract heat from the ground via ground loops to provide a sustainable and renewable energy source.

Flooded Mines/Aquifer

GTE water source heat pumps can efficiently extract heat from flooded mines or aquifers to provide a sustainable and renewable energy source.

Borehole

GTE ground source heat pumps can efficiently extract heat from the boreholes to provide a sustainable and renewable energy source.

Air Conditioning Systems

GTE heat recovery systems can efficiently extract otherwise wasted heat from air conditioning systems and reuse this energy for a variety of uses.

Warehouse Cooling

GTE heat recovery systems can efficiently extract otherwise wasted heat from warehouse cooling and reuse this energy for a variety of uses.

Process Cooling

GTE heat recovery systems can efficiently extract otherwise wasted heat from process cooling and reuse this energy for a variety of uses.

Blast Freezers

GTE heat recovery systems can efficiently extract otherwise wasted heat from blast freezers and reuse this energy for a variety of uses.

Water Chillers

GTE heat recovery systems can efficiently extract otherwise wasted heat from water chillers and reuse this energy for a variety of uses.

Space Heating

GTE heat recovery systems can use recovered energy to provide space heating, saving on additional energy costs.

Drying

GTE heat recovery systems can use recovered energy to provide hot water to drying systems, saving on additional energy costs.

Process Water

GTE heat recovery systems can use recovered energy to generate hot water for manufacturing processes, saving on additional energy costs.

Boiler Pre-Heat

GTE heat recovery systems can use recovered energy to pre heat water for boiler systems, helping save on additional energy costs.

Hot Water

GTE heat recovery systems can use recovered energy to generate hot water, saving on additional energy costs.

Energy sources where heat can be extracted from

  1. Lakes/flooded gravel pits
  2. Seawater
  3. Rivers/canals
  4. Air
  5. Ground loops
  6. Flooded mines/aquifer
  7. Borehole

Areas where energy can be recovered from

  1. Air conditioning systems
  2. Warehouse cooling
  3. Process cooling
  4. Blast freezers
  5. Water chillers

Areas where recovered energy can be reused

  1. Space heating
  2. Drying
  3. Process water
  4. Boiler pre-heat
  5. Hot water

Want help creating a more sustainable future?
Call us for an initial discussion on +44 (0) 1707 830 600.

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