TEAM UP FOR ENERGY SAVINGS – Waste-Heat Recovery

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Saving the environment and saving money can be as easy as re-using hot exhaust air. That means you're on the front line for energy-savings opportunities. Team up with co-workers to spot ways to recover waste heat — it's good for the environment and good for your bottom line.

Uncover energy savings

Check out your waste-heat recovery. Proper maintenance will save energy by capturing and re-using rejected heat, instead of buying more energy. To conserve energy and cut costs, consider three main areas:

1. Housekeeping
   • Identify sources of waste heat.
   • Eliminate as many sources of waste heat as possible.
   • Reduce the temperature of the remaining waste heat.
   • Inspect and maintain equipment to minimize the production of waste heat.
2. Low-cost opportunities
   • Capture waste heat from a clean waste stream that normally goes into the atmosphere or down the drain, and then pipe the waste stream to where it can be used.
   • Use waste-process water as a heat source for a heat pump.
   • Use the heat of the plant effluent being treated in a wastewater treatment plant as a heat source for a heat pump.
   • Re-use hot exhaust air for drying.
   • Install automatic controls.
   • Re-use heat from cooling hydraulic oil (e.g. within moulding machines and the injection moulds themselves). This also reduces the electrical load on the production process.
3. Retrofits
   • Install waste-heat reclamation equipment (e.g. replace a cooling tower circulation loop with a shell-and-tube heat exchanger).
   • Upgrade or replace outdated waste-heat reclamation equipment.
   • Combine a flue gas heat recuperator with a heat pump.
   • Use an absorption heat transformer, which reclaims waste heat by using a solution of lithium bromide.
   • Use a low-grade chiller, which can convert low-grade heat to spare cooling.
   • Integrate a compact heat exchanger with other processes.
   • In a large computer centre, capture generated heat by using thermal storage.
   • Recover heat generated through refrigeration and upgrade the heat by using a heat pump.
   • Consider converting high-temperature flue gas heat (e.g. from metallurgical furnaces) into superheated steam for electric power generation.

Evaluate the potential for your waste-heat recovery

1. Is your furnace or boiler fitted with an economizer or air heater to capture waste heat from the flue gases?

   Yes – At the next shutdown, make sure the unit is operating efficiently; check fins and tubes for damage, especially from corrosion; and remove accumulated soot.

   No – Install heat-recovery equipment or an economizer.

   Done by: ____________________________________

   Date: _______________________________________

2. Does your heating, ventilation and air-conditioning (HVAC) system exhaust a lot of air at room temperature or higher?

   Yes – Install a heat-recovery system to preheat and pre-cool make-up air.

   No – No action required.

   Done by: ____________________________________

   Date: _______________________________________

3. Can a ground-source heat pump be used to condense refrigerant, instead of using cooling-tower water?

   Yes – Hire an engineering consultant to evaluate the use of a ground-source heat pump.

   No – No action required.

   Done by: ____________________________________

   Date: _______________________________________

4. Can exhaust fan air be ducted directly into another area for space heating?

   Yes – Install ducts and a blower to move air into the area to be heated.

   No – Preheat make-up air or recover heat with an air-to-air heat exchanger.

   Done by: ____________________________________

   Date: _______________________________________

5. Is any process water warmer than 38°C when it leaves your facility?

   Yes – Install a heat exchanger to recover heat for use in process or space heating.

   No – If the wastewater flow is large enough, a heat pump or an absorption heat transformer may be a good idea – consult an engineer.

   Done by: ____________________________________

   Date: _______________________________________

6. Is any cooling process water dumped down the drain?

   Yes – Use the warm water directly in another process. Or use a heat exchanger to recover heat for another process.

   No – If cooling water is sent to a cooling tower, replace the cooling tower with a heat exchanger to recover heat from the water for other processes.

   Done by: ____________________________________

   Date: _______________________________________

7. Does any equipment exhaust a large amount of water vapour?

   Yes – Use either mechanical or thermal vapour compression to upgrade the exhaust vapour into a more useful energy source.

   No – No action required.

   Done by: ____________________________________

   Date: _______________________________________

Aussi disponible en français sous le titre : ENSEMBLE, ÉCONOMISONS L’ÉNERGIE! La récupération de la chaleur perdue

For more information: oee.nrcan.gc.ca/industrial

©Her Majesty the Queen in Right of Canada, 2009

Cat. No. M4-76/3-2009E (Print)
ISBN 978-1-100-11656-3

Cat. No. M4-76/3-2009E-PDF (On-line)
ISBN 978-1-100-11657-0