Water heat recycling

Installation of a double-walled copper-on-copper heat exchanger in a vertical section of the master drain line in a Canadian home (2007).

Water heat recycling (also known as drain water heat recovery, waste water heat recovery, greywater heat recovery, or sometimes shower water heat recovery) is the use of a heat exchanger to recover energy and reuse heat from drain water from various activities such as dish-washing, clothes washing and especially showers. The technology is used to reduce primary energy consumption for water heating.

How it works

Diagram showing how a Waste Water Heat Recovery unit can be installed into a house
Heat Recovery schematic system within a Greywater recycling unit.
Heat Recovery system incorporated within a Greywater recycling system.

The cold water that is put into a water heating device can be preheated using the reclaimed thermal energy from a shower so that the input water doesn't need as much energy to be heated before being used in a shower, dishwasher, or sink. The water entering a storage tank is usually close to 11 °C but by recovering the energy in the hot water from a bath or dishwasher, the temperature of the water entering the holding tank can be elevated to 25 °C, saving energy required to increase the temperature of a given amount of water by 14 °C. This water is then heated up a little further to 37 °C before leaving the tank and going to the average shower.[1]

When recycling water from a bath (100-150 litres) or shower (50-80 litres) the waste water temperature is circa 20-25 °C. An in-house greywater recycling tank holds 150-175 litres allowing for the majority of waste water to be stored. Utilizing a built in copper heat exchange with circulation pump the residual heat is recovered and transferred to the cold feed of a combi-boiler or hot-water cylinder, reducing the energy used by the existing central heating system to heat water.

Impact and cost

Heating water accounts for 18% of the average household utility bill. Standard units save up to 60% of the heat energy that is otherwise lost down the drain when using the shower.

Installing a water heat recycler reduces energy consumption and thus greenhouse gas emissions and the overall energy dependency of the household.

Typical retail price for a domestic drain water heat recovery unit ranges from around $400 to $1,000 Canadian. For a regular household, water heating is usually the second highest source of energy demand. The energy savings results in an average payback time for the initial investment of 2–10 years according to Natural Resources Canada, Canadian Center for Housing Technology and US DOE.

A 2-year independent study of waste water heat recovery systems installed into residential houses in the UK found savings of 380kWh and 500kWh per person per year.[2]

International Recognition

North America

The technology is recognized in Canada and the United States by LEED for homes,[3] and Energy Star for New Homes Canada.

United Kingdom

Waste water heat recovery has been independently tested by BRE and can be input into SAP models to increase a buildings energy performance.

Industrial scale and HVAC

A heat pump can be combined with municipal sewage lines to allow a large building's HVAC system recycle the winter heat or summer cool (compared to the outside air) of water flowing out of many homes and businesses.[4]

The reverse is also possible: heat from air conditioning and industrial chillers can be used to pre-heat water.[5]

Notable businesses

One of the pioneer companies focused on waste water heat recovery for multi unit residential, commercial & public buildings is International Wastewater Heat Exchange Systems [6]

References

  1. "Drain-water Heat Recovery". Eco Home Tips. Archived from the original on January 17, 2012. Retrieved 2012-02-03.
  2. , AIMC4 study by Barratt Developments PLC, Stewart Milne Homes, and Crest Nicholson.
  3. http://www.ecobuildingpulse.com/heat-recovery-systems/down-the-drain.aspx
  4. "Heat Pump Systems Use Wastewater to Lower HVAC Costs". Retrieved 2014-12-09.
  5. "Heat Recovery Explained by ICS Cool Energy". Retrieved 2014-12-09.
  6. "Waste Wattage: Cities Aim to Flush Heat Energy Out of Sewers". news.nationalgeographic.com. Retrieved 2014-07-21.

See also

This article is issued from Wikipedia - version of the Sunday, February 14, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.