Excess heat from sewage in Hamburg and Singen, Germany

This case study is part of a project catalogue produced by ReUseHeat to provide inspiration on how to utilize waste heat from urban sources for heating and cooling purposes. The catalogue contains 25 existing or planned projects out of which 12 cases are Danish and 13 cases are from other European countries.

 Figure 1. Schematic view of the system in Hamburg and Singen. Source: Institut Energie in Infrastrukturanlagen, Bundesverband WärmePumpe (BWP) e.V

Description

Multiple heat recovery projects from sewage water exist in Germany. Wastewater flowing in the sewage pipelines contains an often unused heating potential, which can be harnessed using low-tech piping and heat pump solutions. Heating can accordingly be supplied to small-scale internal district heating systems and heat local housings, apartments and larger buildings.

Energy from sewage pipelines is typically extracted using electrically powered heat pumps. The sewage water typically has temperatures between 12 and 20 degrees Celcius which is raised to higher temperatures up to 70 degrees Celsius. The solutions are often combined with a natural gas boiler or CHP to ensure high security of supply and potentially produce electricity, which can be used directly in the heat pump. Heat exchangers are either integrated into the bottom of the sewer or installed in the drain of a wastewater treatment plant. The solutions are accordingly particularly favourable near large sewers or wastewater treatment plants. In the following, two examples are presented.

The pilot project at Hasteststraße, Hamburg

Waste water produced by the households at Hasteststraße in Hamburg flows into the wastewater pipeline system with an unused potential of heat. The local water company, Hamburg Wasser and a construction association in Hamburg, EBV, realized a pilot project that harnesses this heating potential. Since 2009 and 2010, 215 residential units have been supplied with excess heating from the sewage system.

A 100 m heat exchanger in the sewage pipeline extracts the warmth that is still in the wastewater. The extracted energy is utilized using four gas absorptions heat pumps supplying approximately 2000 MWh of energy annually. The total system cost was € 700,000, and it reduces carbon emissions by 75% compared to the pre-existing system.

Office building, Singen

The office building in SinTec Technology Park in Singen has been supplied with waste water energy since 2004. The wastewater energy is extracted with an 80 m heat exchanger directly in the sewage pipelines and via an electrically powered heat pump unit, that produces heating during winter and cooling during summer. The annual wastewater temperature is approximately 15 degrees Celsius and the heat pump has an annual COP of 3.9. The heat pump annually produces 240 MWh of cooling and 660 MWh of heat with a cooling capacity of 200 kW and a heating capacity of 243 kW. The annual costs are lowered by 5% compared to alternative gas systems and carbon emissions are reduced by approximately 28%.

Hamburg and Singen, Germany

ReUseHeat

Operation since 2004 (Singen)

IVL Swedish Environmental Research Institute

Names of stakeholders

Hamburg Wasser

GVV Städtische Wohnbaugesellschaft mbH

Related Celsius content:

Don’t waste the waste water: Clean energy from sewage

Waste heat recovery from sewage water in Cologne, Germany

Energy recovered from sewage water in Sandvika, Norway

External links:

1. Institut Energie in Infrastrukturanlagen, Bundesverband WärmePumpe (BWP) e.V
2. Hamburg Wasser
3. EBV
4. Handbook – 25 cases of urban waste heat recovery