Cooling system for industrial equipment comprises fluid tank divided into two chambers, one chamber having base fluid and other having nanofluid, fluid controller, predictive model integrated into the controller, network of pipes connecting the fluid tank to the controller, and heat exchanger
	DAS M; TETRAVE S K; SEN S S S
	2024-12-16
专利权人	UNIV KALINGA IND TECHNOLOGY INST (UYKA-Non-standard)
申请日期	2024-12-16
专利号	IN202431099344-A
成果简介	NOVELTY - Cooling system comprises: fluid tank divided into two chambers, one chamber having base fluid and the other having nanofluid, where the base fluid has water, oil, and ethylene glycol, and the nanofluid is fluid with nanoparticles suspended in it to enhance thermal conductivity; fluid controller connected to the fluid tank to monitor the surface temperature of the industrial equipment in real-time via temperature sensors; predictive model integrated into the controller, to analyze real-time temperature data and predict future temperature trends to determine which fluid, base fluid or nanofluid, is required for optimal temperature regulation of the equipment; network of pipes connecting the fluid tank to the controller, where the controller selectively releases either the base fluid or the nanofluid based on the predicted temperature trends; and heat exchanger to transfer thermal energy from the coolant to another medium and the cooled fluid is directed back to the fluid tank for reuse. USE - The system is useful in industrial applications including manufacturing machines, data centers, power generation units, and chemical processing systems to maintain equipment performance and prolong its lifespan (claimed). ADVANTAGE - The nanofluid comprises nanoparticles comprising copper, aluminum oxide, silica, and other materials with enhanced thermal conductivity properties. The system operates with a dynamic switching mechanism between the base fluid and nanofluid based on temperature thresholds, ensuring energy-efficient operation and preventing the overuse of expensive nanofluids. The heat exchanger allows the thermal energy absorbed by the coolant to be transferred to another process or system, enabling the reuse of thermal energy for additional industrial processes. The fluid controller is configured to automatically regulate the flow rate of the coolant based on the temperature fluctuations of the industrial equipment, providing adaptive cooling for different operational conditions. The system optimizes heat dissipation, reduces energy consumption, and extends the lifespan of industrial machinery by maintaining optimal operating temperatures, ensuring both cost efficiency and environmental sustainability. The system utilizes an adaptive, dual-fluid approach for efficient temperature regulation.
IPC 分类号	F01P-007/14 ; F01P-007/16 ; G06F-001/20 ; H01M-010/613 ; H05K-007/20
国家	印度
专业领域	材料科学
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/14059
专题	中国科学院新疆生态与地理研究所
作者单位	UNIV KALINGA IND TECHNOLOGY INST (UYKA-Non-standard)
推荐引用方式 GB/T 7714	DAS M,TETRAVE S K,SEN S S S. Cooling system for industrial equipment comprises fluid tank divided into two chambers, one chamber having base fluid and other having nanofluid, fluid controller, predictive model integrated into the controller, network of pipes connecting the fluid tank to the controller, and heat exchanger. IN202431099344-A[P]. 2024.

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