Publication detail
Study of cooling homogeneity and water distribution of Quette facility
HORSKÝ, J. HRABOVSKÝ, J. KOTRBÁČEK, P. STRÁNSKÝ, M.
Czech title
Studie rovnoměrnosti chlazeni a rozložení vody Quette zařízení
English title
Study of cooling homogeneity and water distribution of Quette facility
Type
summary research report - contract. research
Language
en
Original abstract
The goal of this project is to characterize and study actual cooling conditions of the “Quette”. To achieve this the laboratory and plant measurements were carried out. For laboratory measurements several test plates from the same material as test plate of plant measurements were created. Based on the experimental measurements new optimal configuration of the cooling system was prepared. The non-homogeneity of water distribution and big pollution of water were the main parameters affecting the optimal configurations of the cooling system.
Czech abstract
Cílem tohoto projektu je charakterizace a studie chladících podmínek „Quette“. K dosažení tohoto cíle bylo připraveno laboratorní a provozní měření. Pro laboratorní měření bylo vyrobeno několik tetovacích desek ze stejného materiálu jako je používaný v provozu. Na základě experimentálního měření bude navrženo optimální chlazení. Nerovnoměrné rozložení vody a její velké znečištění jsou hlavní parametry pro optimalizaci chladící soustavy.
English abstract
The goal of this project is to characterize and study actual cooling conditions of the “Quette”. To achieve this the laboratory and plant measurements were carried out. For laboratory measurements several test plates from the same material as test plate of plant measurements were created. Based on the experimental measurements new optimal configuration of the cooling system was prepared. The non-homogeneity of water distribution and big pollution of water were the main parameters affecting the optimal configurations of the cooling system.
Keywords in Czech
Quette, rozložení vody, přenos tepla, intenzita chlazení
Keywords in English
Quette, water distribution, heat transfer, cooling intensity
Released
15.12.2014
Pages from–to
1–89
Pages count
89