Add to ORKGUrban heat islands in the subsurface contain large quantities of energy in the form of elevated groundwater temperatures caused by anthropogenic heat fluxes (AHFS) into the subsurface. The objective of this study is to quantify these AHFS and the heat flow they generate in two German cities, Karlsruhe and Cologne. Thus, statistical and spatial analytical heat flux models were developed for both cities. The models include the spatial representation of various sources of AHFS: (1) elevated ground surface temperatures, (2) basements, (3) sewage systems, (4) sewage leakage, (5) subway tunnels, and (6) district heating networks. The results show that the district heating networks induce the largest AHFS with values greater than 60W/m2 and one or...
In the context of the provision of clean renewable energy, the utilization of the subsurface of urba...
Increasing groundwater temperatures observed in many urban areas strongly interfere with the demand ...
One solution for reducing the current consumption of fossil fuels is a more frequent use of shallow ...
Urban temperatures are typically, but not necessarily, elevated compared to their rural surroundings...
Increasing anthropogenic impacts lead to elevated temperatures of the shallow subsurface, including ...
Urbanization during the last hundred years has led to both environmental and thermal impacts on the ...
This paper is part of the Proceedings of the 10th International Conference on Urban Regeneration and...
Knowledge on the intensity and extension of current subsurface urban heat islands (SUHI) is not only...
The shallow subsurface in urban areas is increasingly used by shallow geothermal energy systems as a...
Meeting the rising energy demands of cities is a global challenge. Exploitation of the additional he...
In urban areas the shallow subsurface often is used as a heat resource (shallow geothermal energy), ...
International audienceUnderground structures have a major in␣uence on groundwater temperature and ha...
Living in an urban groundwater ecosystem comes with many challenges for its inhabitants. In Central ...
Shallow subsurface temperatures are influenced by various processes. In particular, the thermal envi...
Since the 20th century, the rate of urbanization in the world has been increasing exponentially and ...
In the context of the provision of clean renewable energy, the utilization of the subsurface of urba...
Increasing groundwater temperatures observed in many urban areas strongly interfere with the demand ...
One solution for reducing the current consumption of fossil fuels is a more frequent use of shallow ...
Urban temperatures are typically, but not necessarily, elevated compared to their rural surroundings...
Increasing anthropogenic impacts lead to elevated temperatures of the shallow subsurface, including ...
Urbanization during the last hundred years has led to both environmental and thermal impacts on the ...
This paper is part of the Proceedings of the 10th International Conference on Urban Regeneration and...
Knowledge on the intensity and extension of current subsurface urban heat islands (SUHI) is not only...
The shallow subsurface in urban areas is increasingly used by shallow geothermal energy systems as a...
Meeting the rising energy demands of cities is a global challenge. Exploitation of the additional he...
In urban areas the shallow subsurface often is used as a heat resource (shallow geothermal energy), ...
International audienceUnderground structures have a major in␣uence on groundwater temperature and ha...
Living in an urban groundwater ecosystem comes with many challenges for its inhabitants. In Central ...
Shallow subsurface temperatures are influenced by various processes. In particular, the thermal envi...
Since the 20th century, the rate of urbanization in the world has been increasing exponentially and ...
In the context of the provision of clean renewable energy, the utilization of the subsurface of urba...
Increasing groundwater temperatures observed in many urban areas strongly interfere with the demand ...
One solution for reducing the current consumption of fossil fuels is a more frequent use of shallow ...