01000nam a2200301 i 450099100086140970753620020507102436.0930520s1992 ||| ||| | eng 9810210167b10139904-39ule_instLE00638136ExLDip.to Fisicaita53(082.2)53.1.353.1.6553.7.4510.35Garrido, M.S.461422Complexity in physics and technology /edited by Manuel S. Garrido and R. Vilela MendesSingapore :World Scientific,c1992x, 306 p. :ill.Vilela Mendes, R..b1013990421-09-0627-06-02991000861409707536LE006 53.1.65 GAR12006000161978le006-E0.00-l- 01010.i1016610527-06-02Complexity in physics and technology186812UNISALENTOle00601-01-93ma -engxx 0102033nam 2200457z- 450 9910476902103321202105281000125176(CKB)5470000000567013(oapen)https://directory.doabooks.org/handle/20.500.12854/70080(oapen)doab70080(EXLCZ)99547000000056701320202105d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierOptimal Scheduling of Combined Heat and Power Generation Considering Heating Grid DynamicsKarlsruheKIT Scientific Publishing20211 online resource (146 p.)Karlsruher Beiträge zur Regelungs- und Steuerungstechnik3-7315-1056-1 As the share of renewable generation increases in electric grids, the traditionally heat driven operation of combined heat and power plants (CHPs) reaches its limits. Thermal storage is required for a flexible operation of CHPs. This work proposes three novel methods to use a heating grid as thermal storage by exploiting its thermal dynamics. These include the first approach proving global optimality, a novel linear formulation of grid dynamics and an easily real world applicable approach.Electrical engineeringbicsscdistrict heatingFernwärmegemischtganzzahlige Optimierungmixed integer programmingoptimal unit commitmentoptimale Einsatzplanungthermal storagethermische Speichervariable dependent time delayvariablenabhängige VerzögerungElectrical engineeringMerkert Lennartauth1327561BOOK9910476902103321Optimal Scheduling of Combined Heat and Power Generation Considering Heating Grid Dynamics3038018UNINA