Add to ORKGThe Emmaboda HT-BTES was taken into operation 2010. Since then ~10 GWh has been stored, only a fraction has been extracted, and a storage temperature of 40-45 oC has been reached. The purpose of the BTES is to utilize waste heat from the industrial processes. Heat sources have been added annually and in 2015 the predicted heat injection (3.6 GWh/year) will be reached. Performed simulations are based on actual heat injection and extraction. The simulation model can reasonably well predict the future operation of the BTES. Initial problems with circulating the heat carrier at a slight vacuum pressure have been solved by using vacuum pumps to degas the fluid. The BTES has reduced the amount of bought district heating by approximately 4 GWh/yea...
To achieve greater economic stability, CHP plant operators such as VEAB from Växjö are motivated to ...
Combining High-Temperature Borehole Thermal Energy Storages (HT-BTES) with existing Combined Heat an...
Heat production accounted in 2021 for 50 % of the energy end use globally, where a strongconnection ...
The Emmaboda HT-BTES was taken into operation 2010. Since then ~10 GWh has been stored, only a fract...
The Emmaboda HT-BTES was taken into operation 2010. Since then ~10 GWh has been stored, only a fract...
The Emmaboda HT-BTES was taken into operation 2010. Since then ~10 GWh has been stored, only a fract...
The Emmaboda HT-BTES was taken into operation 2010. Since then ~10 GWh has been stored, only a fract...
The large-scale borehole layer (BTES) in Emmaboda was commissioned in 2010. Its aim was to make use ...
The large-scale borehole layer (BTES) in Emmaboda was commissioned in 2010. Its aim was to make use ...
The large-scale borehole layer (BTES) in Emmaboda was commissioned in 2010. Its aim was to make use ...
To generate performance predictions of borehole thermal energy storage (BTES) systems for both seaso...
To generate performance predictions of borehole thermal energy storage (BTES) systems for both seaso...
To generate performance predictions of borehole thermal energy storage (BTES) systems for both seaso...
To generate performance predictions of borehole thermal energy storage (BTES) systems for both seaso...
To achieve greater economic stability, CHP plant operators such as VEAB from Växjö are motivated to ...
To achieve greater economic stability, CHP plant operators such as VEAB from Växjö are motivated to ...
Combining High-Temperature Borehole Thermal Energy Storages (HT-BTES) with existing Combined Heat an...
Heat production accounted in 2021 for 50 % of the energy end use globally, where a strongconnection ...
The Emmaboda HT-BTES was taken into operation 2010. Since then ~10 GWh has been stored, only a fract...
The Emmaboda HT-BTES was taken into operation 2010. Since then ~10 GWh has been stored, only a fract...
The Emmaboda HT-BTES was taken into operation 2010. Since then ~10 GWh has been stored, only a fract...
The Emmaboda HT-BTES was taken into operation 2010. Since then ~10 GWh has been stored, only a fract...
The large-scale borehole layer (BTES) in Emmaboda was commissioned in 2010. Its aim was to make use ...
The large-scale borehole layer (BTES) in Emmaboda was commissioned in 2010. Its aim was to make use ...
The large-scale borehole layer (BTES) in Emmaboda was commissioned in 2010. Its aim was to make use ...
To generate performance predictions of borehole thermal energy storage (BTES) systems for both seaso...
To generate performance predictions of borehole thermal energy storage (BTES) systems for both seaso...
To generate performance predictions of borehole thermal energy storage (BTES) systems for both seaso...
To generate performance predictions of borehole thermal energy storage (BTES) systems for both seaso...
To achieve greater economic stability, CHP plant operators such as VEAB from Växjö are motivated to ...
To achieve greater economic stability, CHP plant operators such as VEAB from Växjö are motivated to ...
Combining High-Temperature Borehole Thermal Energy Storages (HT-BTES) with existing Combined Heat an...
Heat production accounted in 2021 for 50 % of the energy end use globally, where a strongconnection ...