{"toolsUsed":"Matlab","description":"theoretical thermodynamics of resorption power generation at ideal equilibrium; an Excel file is included, where the cyclic performance results of using different salts are presented as each datasheet has one salt results; this data is from Matlab simulation results.","collectionDateRangeStart":"05\/2015","collectionDateRangeEnd":"12\/2015","geographicCoverage":"N\/A","validationMethod":"theoretical validation","secondaryOverview":"N\/A","publicationTitle":"Journal article:Chemisorption Power Generation Driven by Low Grade Heat \u2013 Theoretical Analysis and Comparison with Pumpless ORC; conference article:An Analysis and comparison of pumpless organic Rankine cycle and thermochemical sorption power generation.","universityEmailAddress":"huashan.bao@ncl.ac.uk","personalEmailAddress":"bhs.mazw@gmail.com","missingData":"N\/A","definitions":"The abbreviations \"Des\" and \"Ads\" mean desorption and adsorption; the \"amb\" means ambient; the \"limit_P_exp\" means the lower limit of the working fluid pressure for vapour expansion; the \"sen\" means sensible heat; the \"reh\" means reheating; the \"exp\" means expansion;the \"En eff\" and \"Ex eff\" mean energy efficiency and exergy efficiency, respectively.","variableExplanation":"mechanical work output, the energy efficency of the mechanical energy"}