000200096 001__ 200096
000200096 005__ 20190316235931.0
000200096 037__ $$aSTUDENT
000200096 245__ $$aStudy of district heating potential in power plants with CO2 capture
000200096 260__ $$c2014
000200096 269__ $$a2014
000200096 336__ $$aStudent Projects
000200096 520__ $$aA thermo-economic and environomic analysis for the integration of district heating in several power plants using carbon capture and sequestration is done. Variable district heating temperatures have been studied by evaluating the energetic and economic performance compared to the previous systems. The study is ended by a sensitivity analysis, which allows one to assess the importance of each parameter. The results have given great improve in the overall efficiencies (up to 20%), especially when substitutions are considered. The costs are slightly increased by the implementation of district heating, but are rapidly balanced by his benefit. No big improve of the carbon performances without substitution, but these performances where already really good (89% capture). Therefore one has always to keep in mind the targeted goals in order to set the right objective function.
000200096 6531_ $$aCO2 capture
000200096 6531_ $$aDistrict heating
000200096 6531_ $$aPower plants
000200096 6531_ $$aEnergy integration
000200096 700__ $$0(EPFLAUTH)192540$$aBoesinger, Jacques$$g192540
000200096 720_2 $$0240374$$aMaréchal, François$$edir.$$g140973
000200096 720_2 $$0242383$$aTock, Laurence$$edir.$$g166530
000200096 8564_ $$s1382702$$uhttps://infoscience.epfl.ch/record/200096/files/Projet_SIE_Jacques_Boesinger_2014.pdf$$yn/a$$zn/a
000200096 909C0 $$0252481$$pIPESE$$xU12691
000200096 909CO $$ooai:infoscience.tind.io:200096$$pSTI$$qGLOBAL_SET
000200096 917Z8 $$x166530
000200096 937__ $$aEPFL-STUDENT-200096
000200096 973__ $$aEPFL
000200096 980__ $$aSTUDENT$$bSEMESTER