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200 1 $aSingle and multi component flow processes;$eproceedings$fEdited by R. L. Peskin and C. F. Chen$fPapers by]S. L. Soo ...[et al.]
210   $aNew Brunswick, N.J.$cCollege of Engineering, Rutgers, the State University$d1965
215   $aXI, 127 p.$cill.$d24 cm
300   $aSupported by the United States Atomic Energy Commission and by the Rutgers College of Engineering.
320   $aIncludes bibliographies.
610 0 $aFluid dynamics$vCongresses
610 0 $aMultiphase flow$vCongresses
676   $a533.2
701  1$aPeskin,$bRichard L$0749759
701  1$aChen,$bC. F$g(Chuan Fang),$f1932-$0749760
712 02$aStati Uniti d'America.$bAtomic Energy Commission
712 02$aRutgers University.$bCollege of Engineering.
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200 10$aGeoenergy Modeling I $eGeothermal Processes in Fractured Porous Media /$fby Norbert Böttcher, Norihiro Watanabe, Uwe-Jens Görke, Olaf Kolditz
205   $a1st ed. 2016.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2016.
215   $a1 online resource (XII, 107 p. 56 illus.)
225 1 $aComputational Modeling of Energy Systems,$x2570-1339
311   $a3-319-31333-9 
320   $aIncludes bibliographical references.
327   $aGeothermal Energy -- Theory -- Numerical Methods -- Heat Transport Exercises -- Introduction to Geothermal Case Studies -- Symbols -- Keywords -- References.
330   $aDemonstrates how to model flow and heat transport processes in porous and fractured media related to geothermal energy applications Provides theoretical scientific background and suggestions for future applications Includes five step-by-step OpenGeoSys exercises, highlighting the most important geothermal computational areas, including heat diffusion, heat advection in porous and fractured media, and heat convection This introduction to geothermal modeling deals with flow and heat transport processes in porous and fractured media related to geothermal energy applications. Following background coverage of geothermal resources and utilization in several countries, the basics of continuum mechanics for heat transport processes, as well as numerical methods for solving underlying governing equations are discussed. This examination forms the theoretical basis for five included step-by-step OpenGeoSys exercises, highlighting the most important computational areas within geothermal resource utilization, including heat diffusion, heat advection in porous and fractured media, and heat convection. The book concludes with an outlook on practical follow-up contributions investigating the numerical simulation of shallow and deep geothermal systems.
410  0$aComputational Modeling of Energy Systems,$x2570-1339
606   $aRenewable energy resources
606   $aThermodynamics
606   $aHeat engineering
606   $aHeat$xTransmission
606   $aMass transfer
606   $aRenewable and Green Energy$3https://scigraph.springernature.com/ontologies/product-market-codes/111000
606   $aRenewable and Green Energy$3https://scigraph.springernature.com/ontologies/product-market-codes/111000
606   $aEngineering Thermodynamics, Heat and Mass Transfer$3https://scigraph.springernature.com/ontologies/product-market-codes/T14000
615  0$aRenewable energy resources.
615  0$aThermodynamics.
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615  0$aHeat$xTransmission.
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615 14$aRenewable and Green Energy.
615 24$aRenewable and Green Energy.
615 24$aEngineering Thermodynamics, Heat and Mass Transfer.
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700   $aBöttcher$b Norbert$4aut$4http://id.loc.gov/vocabulary/relators/aut$0875356
702   $aWatanabe$b Norihiro$4aut$4http://id.loc.gov/vocabulary/relators/aut
702   $aGörke$b Uwe-Jens$4aut$4http://id.loc.gov/vocabulary/relators/aut
702   $aKolditz$b Olaf$4aut$4http://id.loc.gov/vocabulary/relators/aut
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