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Optimization of electrical power production from high temperature geothermal fields with respect to silica scaling problems

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dc.contributor Jarðhitaskóli Háskóla Sameinuðu þjóðanna is
dc.contributor.author Nugroho, Andi Joko 1977 is
dc.date.accessioned 2017-06-01T14:26:54Z
dc.date.available 2017-06-01T14:26:54Z
dc.date.issued 2011
dc.identifier.isbn 9789979683032 (ób.)
dc.identifier.issn 1670-7427
dc.identifier.uri http://hdl.handle.net/10802/12776
dc.description Lokaritgerð (MSc) frá Háskóla Íslands is
dc.description Myndefni: myndir, línurit, töflur is
dc.description.abstract Silica scaling is an obstacle in the use of geothermal fluid from high-temperature fields. The potential issue of silica deposition rises with increasing resource temperature. A single flash condensing system is the most common energy conversion system for utilizing geothermal fluid from high-temperature fields, mainly due to its smallest possibility of silica precipitation. This thesis investigates the possibility of optimizing the employment of geothermal fluid from high-temperature fields by using an alternative energy conversion system in place of a conventional single flash cycle with a condensing turbine. Thermodynamic and silica scaling calculations were modelled and simulated in Matlab for five different energy conversion systems in order to obtain the optimum specific power output for each power conversion system. The models include: a single flash and a double flash condensing system, a combination of a single flash condensing cycle and a binary cycle utilizing separated brine, a combination of a single flash back pressure cycle and a binary cycle utilizing the turbine exhaust steam, and a combination of a single flash back pressure cycle and a binary cycle utilizing both separated brine and exhaust steam. An economical analysis was also performed to find the total capital investment needed for different energy conversion systems at their optimum power output production. The specific power outputs and total capital investments for different power conversion systems were finally compared. is
dc.description.abstract Results from the study show that the employment of geothermal fluid from a hightemperature field at a certain range of fluid enthalpy and resource temperature could be optimized by using the double flash system, the combination of a single flash condensing cycle and a binary cycle, or the combination of a single flash back pressure cycle and a binary cycle. These results can be used by a decision maker to identify the most appropriate energy conversion system for making use of geothermal fluid from hightemperature fields where silica scaling becomes a hindrance based on a given geothermal fluid enthalpy and resource temperature. is
dc.format.extent viii, 49 s. is
dc.language.iso en
dc.publisher United Nations University is
dc.publisher Orkustofnun is
dc.relation.ispartofseries United Nations University., UNU Geothermal Training Programme, Iceland. Report ; 2011:02
dc.relation.uri http://www.os.is/gogn/unu-gtp-report/UNU-GTP-2011-02.pdf
dc.subject Meistaraprófsritgerðir is
dc.subject Jarðhiti is
dc.subject Jarðhitavirkjanir is
dc.subject Raforkuver is
dc.subject Háhitasvæði is
dc.subject Útfellingar is
dc.subject Kísill is
dc.title Optimization of electrical power production from high temperature geothermal fields with respect to silica scaling problems en
dc.type Bók is
dc.identifier.gegnir 991000722079706886


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