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Evaluation of heat pumps


CSTB has developed an experimental geothermal platform within the ENR (Renewable Energies) cluster in Sophia Antipolis. More precisely, it has developed a semi-virtual laboratory through which manufacturers, industrialists and institutions (such as the French Environment and Energy Management Agency ADEME) can evaluate products, particularly heat pumps, under almost real conditions.

Explanations and test methodology

The geothermal platform

The platform is a genuine field of geothermal boreholes, arranged in a double U and at a depth of 20 metres.  The equipment can extract energy from the ground or inject energy into the ground.  This borehole field is connected to CSTB’s semi-virtual laboratory, PEPSY (Platform for the Evaluation of Performances of dynamic SYstems).  These two platforms can be used to evaluate the behaviour and performance of the global system of a geothermal heat pump.  Geothermal boreholes can be connected to a virtual heat pump and a virtual building, or they can be coupled to a real heat pump itself connected to the hydraulic network of a virtual building.  In this instance, part of the system to be tested (heat pump, storage tank, pumps, regulation, etc.) is actually installed in the laboratory, while the building or the house (with its distribution and heat emissions, occupants, equipment, climate and geothermal exchangers) is simulated numerically.  The boundary between the ’real’ and ’virtual’ parts can be freely determined as a function of the product to be tested.

Adaptability at the service of a complete system
This adaptability is the main advantage of this experimental platform; the behaviour and performance of the heat pump are evaluated on a complete system combining geothermal boreholes, heat pumps and buildings.  Unlike conventional tests, performances are annual or seasonal rather than nominal.  For example for heating, the COP (Coefficient of Performance) is an annual or seasonal COP and is not a nominal COP.  The robustness of product control is also tested at the same time.  This is not the case currently with standard tests.  Therefore data from the heat source, emission, heat pump and auxiliaries are included with that data characterising the inertia of the global system, building regulation, etc.  The result is an analysis and a global performance calculation including all relevant parameters i.e. equipment, climate, typology, building use, etc.  It offers a genuine advantage for manufacturers who wish to optimise their industrial products or improve prototypes.  Only a short period and a few tests are necessary to optimise a particular heat pump for a set of climates, buildings or different soil types, while guaranteeing results close to reality.

Saving time and money
This is a priceless advantage because it is well known that genuine monitoring is normally essential to evaluate the performances of a geothermal heat pump installation.  This ‘real’ monitoring often needs several years, including at least one heating season and one cooling season, thus respecting the natural rhythm of the seasons.  Such monitoring is not only long but is extremely expensive.

CSTB has developed a unique methodology that goes beyond these constraints.  It uses a 12-day test sequence based on climatic data.  A calculation automatically determines the appropriate test sequence.  In this test (in which each day of the test corresponds to the average day of one month), the heat pump outlet temperatures (at the evaporator and at the condenser side) and the corresponding flows are measured and sent to the virtual environment at each time step of the test (namely every 5 seconds).  In return, the simulated environment calculates the conditions of fluid to be controlled at the inlet of the heat pump (realised using charge and discharge loops).  Temperature sensors, for example to determine the temperature in the zone or the outside temperature, are replaced by variable resistance boxes exactly reproducing the temperatures of the virtual system, so that the heat pump and the regulation act as they would in a real building.

Peter Riederer, CSTB geothermal laboratory, concludes:  “12 days instead of 365 is obviously attractive!  We could even reduce this time further for some of the systems.  In any case, we are working on it …”

Contact Information

For further information contact
Email peter.riederer@cstb.fr
Web www.cstb.fr
Web Link http://www.cstb.fr/actualites/english-webzine/anglais/january-2010/evaluation-of-heat-pumps-combination-of-virtual-and-real.html