Guus Willemsen scite author profile

Guus Willemsen

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Institute of Food Science & Technology

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The Den Haag Geothermal District Heating Project – 3-D Models for Temperature Prediction.

Pechnig¹,

Mottaghy²,

Willemsen³

et al. 2009

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In the frame of the " Den Haag Zuidwest" geothermal district heating system a deep geothermal installation is projected. The target horizon of the planned doublet is the " Delft sandstone", an upper Jurassic sandstone layer, which has been extensively explored for oil-and gas reservoirs in the last century. In the target area, this layer is found at a depth of about 2200 m with an average thickness of about 50 m. Information on temperature and production rates is crucial for planning a deep geothermal installation. In the first planning stage temperature predictions were made by extrapolating temperature data from the neighbouring oil and gas exploration wells. A critical point of this method is, that the existing wells are only located at NNW-SSE striking anticline structures, while the doublet is planned to be drilled into a syncline in order to achieve higher production temperatures at greater depth.Since no direct information on temperature is available, a 3-D underground model was constructed. The main objective was to find out whether there is a significant influence of the 3-dimensional structures of anticlines and synclines on the temperature field, which could cause formation temperatures deviating from the predicted extrapolated data. To achieve this target, a larger area had to investigated, which resulted in model dimensions of about 22.5 x 24.3 km size and a depth of 5 km.The most critical feature in numerical models is to provide representative model input parameters. Therefore, all available information were collected: a) the subsurface geometry, depth and thickness of the stratigraphic layers known from seismic data sets 2) borehole geophysical data and c) geological and petrographical information from exploration wells. In addition 50 cuttings samples were taken from two selected key wells in order to provide direct information on thermal properties of the underlying strata. Thermal conductivity and rock matrix density were measured in the laboratory. These data were combined with a petrophysical log analysis (Gamma Ray, Sonic, Density and Resistivity), which resulted in continuous profiles of porosity, effective thermal conductivity and radiogenetic heat production. These profiles allowed to asses in detail the variability of the petrophysical properties with depth and to check for lateral changes between the wells. Using these profiles, statistical values were calculated for the stratigraphic layers and were incorporated as input parameter in the 3-D model.The model is based on finite differences. The numerical grid consists of 2,430,000 nodes, horizontally equally spaced by 150 m and ver-tically by 50 m. Simulations were performed in the forward mode under steady state heat trans-port conditions. This was carried out by a 3-D coupled heat and flow forward computer code using the numerical simulation tool SHEMAT (Clauser 2003). The model was tested and calibrated against some available bottom hole temperature data. In

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Opportunities for Geothermal Energy in Franekeradeel, Netherlands

Heijnen

Buik

Willemsen

et al. 2009

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The potential for the exploration and exploitation of geothermal energy for greenhouses in Franekeradeel in the north of the Netherlands has been investigated. Available borehole and seismic data have been used for the evaluation of the subsurface. These data show that the Slochteren Formation sandstone reservoirs are very likely present at a depth of ca 3,000 m. These reservoirs are deemed to be suitable for the production of hot water. From interpreted 2D seismic lines could be inferred that the Slochteren Formation is around 200 m thick at the proposed location. Based on the local geothermal gradient, the temperature at the top is estimated to be around 100 ºC. At the surface location a fault zone is present in the subsurface complicating the siting of the injection and production wells. Towards the northeast the proposed reservoir is seemingly less faulted. A minimum transmissivity of 11 Dm is expected, based on the measured porosity in nearby boreholes and porositypermeability relationships in the surrounding area. A potential flow rate of 160 m 3 /h is hence inferred, leading to a thermal capacity of 11 MW t which can be delivered with one doublet. Different well configurations were studied. The conclusion is that deviated wells from the edge of the surface location towards the northeast carry the lowest risk at still acceptable costs. From financial analyses taking different options into account, it was concluded that geothermal energy can deliver significant amounts of renewable energy for heating of greenhouses. In the optimum situation, the cost price of heat amounts to 6,20 Euro/GJ delivering annual 202 TJ of energy. This price is below the current price (January 2008) of natural gas at 0,20 Euro/m 3 .

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Guus Willemsen

The Den Haag Geothermal District Heating Project – 3-D Models for Temperature Prediction.

Opportunities for Geothermal Energy in Franekeradeel, Netherlands

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