System for evaluating performance of a thermic            fluid for heat transfer application, includes storage            tank adapted to store thermic fluid, solar thermal            collector fluidically connected to storage tank and            adapted to receive solar radiation to provide first            predefined amount of heat to thermic fluid

	System for evaluating performance of a thermic fluid for heat transfer application, includes storage tank adapted to store thermic fluid, solar thermal collector fluidically connected to storage tank and adapted to receive solar radiation to provide first predefined amount of heat to thermic fluid
	VALAVARASU G; NARAYANAN K; MANOJ K; RAJASEKHAR A; RAMESH K
	2023-06-13
专利权人	HINDUSTAN PETROLEUM CORP (ONGC-C)
申请日期	2023-06-13
专利号	IN202341040244-A
成果简介	NOVELTY - A system (100) for evaluating performance of a thermic fluid for heat transfer application, includes storage tank (107) adapted to store the thermic fluid; a solar thermal collector (120) fluidically connected to the storage tank and adapted to receive solar radiation to provide a first predefined amount of heat to the thermic fluid; a corrosometer (122) positioned downstream to the solar thermal collector (120) and adapted to determine corrosiveness of the thermic fluid; and a steam plant emulator (130) fluidically coupled to the solar thermal collector (120) to receive heated thermic fluid, and fluidically coupled to storage tank, where steam plant emulator receives first predefined amount of heat from heated thermic fluid to heat water to emulate steam generation, and determine a heat transfer coefficient of thermic fluid based on emulation. USE - System for evaluating performance of a thermic fluid for heat transfer application. ADVANTAGE - None given. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method (200) for evaluating the performance of a thermic fluid, involves supplying (202) thermic fluid from a storage tank (107) to solar thermal collector (120) fluidically connected to the storage tank (107); heating (204) thermic fluid by providing first predefined amount of heat from solar thermal collector (120), where solar thermal collector (120) is adapted to receive solar radiation to provide the first predefined amount of heat to the thermic fluid; determining (206) corrosiveness of thermic fluid by a corrosometer (122) positioned downstream to the solar thermal collector (120); and measuring (208) a heat transfer coefficient of thermic fluid by steam plant emulator (130) fluidically coupled to the thermic fluid heater (126) to receive heated thermic fluid, and fluidically coupled to the storage tank (107), where steam plant emulator (130) receives first predefined amount of heat from heated thermic fluid to heat water to emulate steam generation, and determine heat transfer coefficient of thermic fluid based on emulation. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic of a system for evaluating the performance of a thermic fluid. 100System 107Storage tank 120Solar thermal collector 122Corrosometer 130Steam plant emulator
IPC 分类号	C12M-001/00 ; C12M-001/34 ; F03G-006/00 ; F24S-010/70 ; F28D-020/00
国家	印度
专业领域	能源矿产
语种	英语
成果类型	专利
文献类型	科技成果
条目标识符	http://119.78.100.226:8889/handle/3KE4DYBR/21629
专题	中国科学院新疆生态与地理研究所
作者单位	HINDUSTAN PETROLEUM CORP (ONGC-C)
推荐引用方式 GB/T 7714	VALAVARASU G,NARAYANAN K,MANOJ K,et al. System for evaluating performance of a thermic fluid for heat transfer application, includes storage tank adapted to store thermic fluid, solar thermal collector fluidically connected to storage tank and adapted to receive solar radiation to provide first predefined amount of heat to thermic fluid. IN202341040244-A[P]. 2023.

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