Metadata 1742

Maps showing average values of specific heat extraction rate for 1800 h of heat pump operation per year, expressed in units of W/m, for a depth interval of 0-100 m.Maps were developed based on empirical linear calculation formulas according to Sanner, 1999, in accordance with guidelines for ground source heat pumps design, execution and acceptance of installations, published by The Polish Organisation for the Development of Heat Pump Technology (PORT PC), “PORT PC. Wytyczne projektowania, wykonania i odbio...

Maps showing average values of specific heat extraction rate for 1800 h of heat pump operation per year, expressed in units of W/m, for a depth interval of 0-130 m.Maps were developed based on empirical linear calculation formulas according to Sanner, 1999, in accordance with guidelines for ground source heat pumps design, execution and acceptance of installations, published by The Polish Organisation for the Development of Heat Pump Technology (PORT PC), “PORT PC. Wytyczne projektowania, wykonania i odbio...

Maps showing average values of specific heat extraction rate for 1800 h of heat pump operation per year, expressed in units of W/m, for a depth interval of 0-40 m.Maps were developed based on empirical linear calculation formulas according to Sanner, 1999, in accordance with guidelines for ground source heat pumps design, execution and acceptance of installations, published by The Polish Organisation for the Development of Heat Pump Technology (PORT PC), “PORT PC. Wytyczne projektowania, wykonania i odbior...

Maps showing average values of specific heat extraction rate for 1800 h of heat pump operation per year, expressed in units of W/m, for a depth interval of 0-70 m.Maps were developed based on empirical linear calculation formulas according to Sanner, 1999, in accordance with guidelines for ground source heat pumps design, execution and acceptance of installations, published by The Polish Organisation for the Development of Heat Pump Technology (PORT PC), “PORT PC. Wytyczne projektowania, wykonania i odbior...

Maps showing average values of specific heat extraction rate for 2100 h of heat pump operation per year, expressed in units of W/m, for a depth interval of 0-100 m.Maps were developed based on empirical linear calculation formulas according to Sanner, 1999, in accordance with guidelines for ground source heat pumps design, execution and acceptance of installations, published by The Polish Organisation for the Development of Heat Pump Technology (PORT PC), “PORT PC. Wytyczne projektowania, wykonania i odbio...

Maps showing average values of specific heat extraction rate for 2100 h of heat pump operation per year, expressed in units of W/m, for a depth interval of 0-130 m.Maps were developed based on empirical linear calculation formulas according to Sanner, 1999, in accordance with guidelines for ground source heat pumps design, execution and acceptance of installations, published by The Polish Organisation for the Development of Heat Pump Technology (PORT PC), “PORT PC. Wytyczne projektowania, wykonania i odbio...

Maps showing average values of specific heat extraction rate for 2100 h of heat pump operation per year, expressed in units of W/m, for a depth interval of 0-40 m.Maps were developed based on empirical linear calculation formulas according to Sanner, 1999, in accordance with guidelines for ground source heat pumps design, execution and acceptance of installations, published by The Polish Organisation for the Development of Heat Pump Technology (PORT PC), “PORT PC. Wytyczne projektowania, wykonania i odbior...

Maps showing average values of specific heat extraction rate for 2100 h of heat pump operation per year, expressed in units of W/m, for a depth interval of 0-70 m.Maps were developed based on empirical linear calculation formulas according to Sanner, 1999, in accordance with guidelines for ground source heat pumps design, execution and acceptance of installations, published by The Polish Organisation for the Development of Heat Pump Technology (PORT PC), “PORT PC. Wytyczne projektowania, wykonania i odbior...

The 3D structural-geological model of the Dukovany WRW represents a unified visualization of rock bodies and fragile structures based on the processing of all available relevant archival data from the modelled area. The model provides a geometric framework for downstream hydraulic numerical simulations and is also an important basis for the site assessment in terms of long-term safety.

The 3D structural-geological model of the Richard RWR represents a unified visualization of rock bodies and fragile structures based on the processing of all available relevant archival data from the modelled area. The model provides a geometric framework for downstream hydraulic numerical simulations and is also an important basis for the site assessment in terms of long-term safety.