Abstract
By 2050, the UK government plans to create ‘Net zero society’. 1 To meet this ambitious target, the deployment of low carbon technologies is an urgent priority. The low carbon heat recovery technologies such as heat recovery from sewage via heat pump can play an important role. It is based on recovering heat from the sewage that is added by the consumer, used and flushed in the sewer. This technology is currently successfully operating in many cities around the world. In the UK, there is also a rising interest to explore this technology after successful sewage heat recovery demonstration project at Borders College, Galashiels, Scotland. 2 However, further experimental research is needed to build the evidence base, replicate, and de-risk the concept elsewhere in the UK. The Home Energy 4 Tomorrow (HE4T) project at London South Bank University was created to address this evidence gap. This is the fourth article in the series of outputs on sewage heat recovery and presents some results using sewage data from the UK’s capital London. These data are scarce and provide useful information on the variation of flows and temperatures encountered in the sewers of the UK’s capital. Lastly, we discuss the recoverable heat potential along with policy implications for the UK heat strategy. Practical application This work focuses and accentuate that in order to meet climate change targets, substantial improvements can come by heat recovery from the raw (influent) and treated wastewater (effluent from wastewater treatment plant) that is still unexploited in the UK. The estimation presented indicates that there is much theoretical potential in the UK with significant opportunity for future energy and revenue retrieval along with GHGs emission reduction in the longer term to fulfil the ‘net zero’ objective. This work aims to raise awareness and seek support to promote pilot scale studies to help demonstrate technical and economic feasibility in the building industry.
Highlights
By 2050, the UK plans to create ‘Net zero society’.1 To meet this ambitious target, the deployment of low carbon technologies is an urgent policy and a research priority
In the UK billions of litres of heated water end up in the sewers and its heat content is completely lost. This heated water when discharged from dwelling is approximately around 30°C temperature. By the time this wastewater reaches to wastewater treatment plant (WWTP), its average temperature is normally between 10 and 12°C, so much of its heat is lost to the environment
The vigorous literature review covers wastewater characteristics, WWHR systems, preferable installation locations, viability conditions and the wastewater heat recovery examples worldwide setting the context for London-based case study
Summary
By 2050, the UK plans to create ‘Net zero society’.1 To meet this ambitious target, the deployment of low carbon technologies is an urgent policy and a research priority. By 2050, the UK plans to create ‘Net zero society’.1 To meet this ambitious target, the deployment of low carbon technologies is an urgent policy and a research priority. (often referred as domestic wastewater, sewage, sewer water or urban wastewater) is relatively new and an attractive low carbon option that alongside other renewable technologies can assist in reaching towards net zero target. This heated water when discharged from dwelling is approximately around 30°C temperature By the time this wastewater (referred as influent) reaches to wastewater treatment plant (WWTP), its average temperature is normally between 10 and 12°C, so much of its heat is lost to the environment. The vigorous literature review covers wastewater characteristics, WWHR systems, preferable installation locations, viability conditions and the wastewater heat recovery examples worldwide setting the context for London-based case study. We present some policy implications for UK heat strategy
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
