. "6"^^ . "Pokro\u010Dil\u00FD p\u0159\u00EDstup k modelov\u00E1n\u00ED rekupera\u010Dn\u00EDho v\u00FDm\u011Bn\u00EDku pomoc\u00ED exergi\u00ED tepeln\u00FDch tok\u016F"@cs . "1"^^ . . "P\u016Fvodn\u00ED metoda pou\u017E\u00EDvala tzv. %22vn\u011Bj\u0161\u00ED pohled%22 na v\u00FDm\u011Bn\u00EDk, p\u0159i kter\u00E9 hodnocen\u00ED vych\u00E1zelo z exergi\u00ED tepeln\u00FDch tok\u016F na vstupech a v\u00FDstupech v\u00FDm\u011Bn\u00EDku. Z nich byly posl\u00E9ze vypo\u010D\u00EDt\u00E1ny jednotliv\u00E9 exergetick\u00E9 \u00FA\u010Dinnosti. Nyn\u011Bj\u0161\u00ED modifikovan\u00FD p\u0159\u00EDstup k modelu se sna\u017E\u00ED postihnout detailn\u011Bji vlastnosti v\u00FDm\u011Bn\u00EDku a parametry ovliv\u0148uj\u00EDc\u00ED sd\u00EDlen\u00ED tepla. Sd\u011Blen\u00FD tepeln\u00FD tok je ovlivn\u011Bn n\u011Bkolika parametry, konstantn\u00EDm parametrem je geometrick\u00E1 plocha teplosm\u011Bnn\u00E9 plochy rekupera\u010Dn\u00EDho v\u00FDm\u011Bn\u00EDku. Prom\u011Bnn\u00FDm parametrem maj\u00EDc\u00EDm nejvy\u0161\u0161\u00ED d\u016Fle\u017Eitost je sou\u010Dinitel prostupu tepla p\u0159es teplosm\u011Bnnou plochu zahrnuj\u00EDc\u00ED u b\u011B\u017En\u00E9ho deskov\u00E9ho v\u00FDm\u011Bn\u00EDku konvekci mezi ochlazovan\u00FDm vzduchem a pevnou teplosm\u011Bnnou plochou, veden\u00ED tepla materi\u00E1lem plochy a druh\u00E9 sd\u00EDlen\u00ED tepla konvekc\u00ED do oh\u0159\u00EDvan\u00E9ho proudu vzduchu. V \u010Dl\u00E1nku bude p\u0159edstavena mo\u017Enost anal\u00FDzy rekupera\u010Dn\u00EDho v\u00FDm\u011Bn\u00EDku s ohledem na velikost a zm\u011Bny sou\u010Dinitele prostupu tepla teplosm\u011Bnn\u00E9 plochy."@cs . "Pokro\u010Dil\u00FD p\u0159\u00EDstup k modelov\u00E1n\u00ED rekupera\u010Dn\u00EDho v\u00FDm\u011Bn\u00EDku pomoc\u00ED exergi\u00ED tepeln\u00FDch tok\u016F" . "978-80-254-3373-7" . "P(GP103/08/P358)" . . "Pokro\u010Dil\u00FD p\u0159\u00EDstup k modelov\u00E1n\u00ED rekupera\u010Dn\u00EDho v\u00FDm\u011Bn\u00EDku pomoc\u00ED exergi\u00ED tepeln\u00FDch tok\u016F"@cs . "Praha" . . . . "The beginning method utilized outer approach to exchanger, which included only analysis of exergy of heat fluxes in heat exchanger's inlets and outlets. After that exergy efficiencies used to be calculated. In this article is presented advanced approach to model containing detailed parameters of a heat exchanger and parameters of heat transfer. Transferred heat relay on several parameters, constant one is area of heat transfer surface. Changing parameter of the highest importance is heat transfer coefficient of a heat transfer surface. This coefficient determined for a common crosflow plate heat exchanger involves convection heat transfer from cooled air flow to solid surface, than conduction through surface and finally the second convection heat transfer to heated air flow. The article presents exergy analysis of recuperative heat exchanger based on differences of heat transfer coefficient of heat exchanging surface."@en . . . . "RIV/68407700:21110/08:01147631" . "Advanced approach to recuperative heat exchanger modeling based on exergy of heat fluxes"@en . . "Adamovsk\u00FD, Daniel" . . . "Advanced approach to recuperative heat exchanger modeling based on exergy of heat fluxes"@en . "IBPSA-CZ" . . "Brno" . "Simulace budov a techniky prost\u0159ed\u00ED" . "RIV/68407700:21110/08:01147631!RIV09-GA0-21110___" . "2008-11-06+01:00"^^ . . "Pokro\u010Dil\u00FD p\u0159\u00EDstup k modelov\u00E1n\u00ED rekupera\u010Dn\u00EDho v\u00FDm\u011Bn\u00EDku pomoc\u00ED exergi\u00ED tepeln\u00FDch tok\u016F" . . "1"^^ . . "P\u016Fvodn\u00ED metoda pou\u017E\u00EDvala tzv. %22vn\u011Bj\u0161\u00ED pohled%22 na v\u00FDm\u011Bn\u00EDk, p\u0159i kter\u00E9 hodnocen\u00ED vych\u00E1zelo z exergi\u00ED tepeln\u00FDch tok\u016F na vstupech a v\u00FDstupech v\u00FDm\u011Bn\u00EDku. Z nich byly posl\u00E9ze vypo\u010D\u00EDt\u00E1ny jednotliv\u00E9 exergetick\u00E9 \u00FA\u010Dinnosti. Nyn\u011Bj\u0161\u00ED modifikovan\u00FD p\u0159\u00EDstup k modelu se sna\u017E\u00ED postihnout detailn\u011Bji vlastnosti v\u00FDm\u011Bn\u00EDku a parametry ovliv\u0148uj\u00EDc\u00ED sd\u00EDlen\u00ED tepla. Sd\u011Blen\u00FD tepeln\u00FD tok je ovlivn\u011Bn n\u011Bkolika parametry, konstantn\u00EDm parametrem je geometrick\u00E1 plocha teplosm\u011Bnn\u00E9 plochy rekupera\u010Dn\u00EDho v\u00FDm\u011Bn\u00EDku. Prom\u011Bnn\u00FDm parametrem maj\u00EDc\u00EDm nejvy\u0161\u0161\u00ED d\u016Fle\u017Eitost je sou\u010Dinitel prostupu tepla p\u0159es teplosm\u011Bnnou plochu zahrnuj\u00EDc\u00ED u b\u011B\u017En\u00E9ho deskov\u00E9ho v\u00FDm\u011Bn\u00EDku konvekci mezi ochlazovan\u00FDm vzduchem a pevnou teplosm\u011Bnnou plochou, veden\u00ED tepla materi\u00E1lem plochy a druh\u00E9 sd\u00EDlen\u00ED tepla konvekc\u00ED do oh\u0159\u00EDvan\u00E9ho proudu vzduchu. V \u010Dl\u00E1nku bude p\u0159edstavena mo\u017Enost anal\u00FDzy rekupera\u010Dn\u00EDho v\u00FDm\u011Bn\u00EDku s ohledem na velikost a zm\u011Bny sou\u010Dinitele prostupu tepla teplosm\u011Bnn\u00E9 plochy." . "387223" . "21110" . "exergy; exergy analysis; recuperation; secondary heat utilization"@en . . "[86BC63351E0D]" .