Add to ORKGThere is a strongly growing interest for wastewater heat recovery (WWHR) in Sweden and elsewhere, but a lack of adequate tools to determine downstream impacts due to the associated temperature drop. The heat recovery potential and associated temperature drop after heat recovery on a building level is modelled for a case study in Linköping, Sweden. The maximum temperature drop reaches 4.2 °C, with an annual recovered heat of 0.65 kWh/person/day. Wastewater temperature out from the heat exchanger was 18.0 °C in winter at the lowest. The drinking water source type can be an important factor when considering wastewater heat recovery
The vast majority of the energy consumed for urban water services is used to heat tap water. Heat re...
The vast majority of the energy consumed for urban water services is used to heat tap water. Heat re...
A large part of the thermal energy in buildings is lost through the drain and ends up as warm wastew...
There is a strongly growing interest for wastewater heat recovery (WWHR) in Sweden and elsewhere, bu...
Around 90% of the energy requirement for urban water systems management is for heating domestic tap ...
The energy demand for tap water heating is significant in the developed world and significant to bui...
Global efforts makes buildings successively more energy efficient. This results in that the percenta...
The purpose of this thesis is to estimate how much heat can be recovered from the sewer system in Ma...
Heat recovery from wastewater is a robust and straightforward strategy to reduce water-related energ...
Majority of the energy consumed for urban water services is used to heat tap water. In order to allo...
Wastewater heat recovery upstream of wastewater treatment plants (WWTPs) poses a risk to treatment p...
The energy used by building sector accounts for approximately 40% of the total energy usage. In resi...
Wastewater heat recovery is currently an underutilized technology that could be part of solving the ...
AbstractThermal energy recovery from wastewater can be established from centralized wastewater treat...
Municipal wastewater may be considered an important thermal energy source, in account of the heat co...
The vast majority of the energy consumed for urban water services is used to heat tap water. Heat re...
The vast majority of the energy consumed for urban water services is used to heat tap water. Heat re...
A large part of the thermal energy in buildings is lost through the drain and ends up as warm wastew...
There is a strongly growing interest for wastewater heat recovery (WWHR) in Sweden and elsewhere, bu...
Around 90% of the energy requirement for urban water systems management is for heating domestic tap ...
The energy demand for tap water heating is significant in the developed world and significant to bui...
Global efforts makes buildings successively more energy efficient. This results in that the percenta...
The purpose of this thesis is to estimate how much heat can be recovered from the sewer system in Ma...
Heat recovery from wastewater is a robust and straightforward strategy to reduce water-related energ...
Majority of the energy consumed for urban water services is used to heat tap water. In order to allo...
Wastewater heat recovery upstream of wastewater treatment plants (WWTPs) poses a risk to treatment p...
The energy used by building sector accounts for approximately 40% of the total energy usage. In resi...
Wastewater heat recovery is currently an underutilized technology that could be part of solving the ...
AbstractThermal energy recovery from wastewater can be established from centralized wastewater treat...
Municipal wastewater may be considered an important thermal energy source, in account of the heat co...
The vast majority of the energy consumed for urban water services is used to heat tap water. Heat re...
The vast majority of the energy consumed for urban water services is used to heat tap water. Heat re...
A large part of the thermal energy in buildings is lost through the drain and ends up as warm wastew...