Multifunctional porous electrode for use in energy            storage and conversion device in electric vehicle, has            integrated fluid flow channels being provided for            optimized thermal dissipation, and network of            interconnected pores is placed within electrode            material

	Multifunctional porous electrode for use in energy storage and conversion device in electric vehicle, has integrated fluid flow channels being provided for optimized thermal dissipation, and network of interconnected pores is placed within electrode material
	KUMAR N ; SAVANUR V ; KESAVA R A ; SETTY S B ; THATIKONDA K S ; RAMANUJA M
	2024-11-16
专利权人	KUMAR N (KUMA-Individual) ; SAVANUR V (SAVA-Individual) ; KESAVA R A (KESA-Individual) ; SETTY S B (SETT-Individual) ; THATIKONDA K S (THAT-Individual) ; RAMANUJA M (RAMA-Individual) ; UNIV GURU NANAK ENG TECHNOLOGY INST (UYGU-Non-standard) ; UNIV CMR (UYCM-Non-standard) ; UNIV WOXSEN (UYWO-Non-standard) ; MARRI LAXMAN REDDY INST TECHNOLOGY & MAN (MARR-Non-standard)
申请日期	2024-11-16
专利号	IN202441088699-A
成果简介	NOVELTY - The electrode has integrated fluid flow channels being provided for optimized thermal dissipation in energy storage and conversion devices. A network of interconnected pores is placed within electrode material that maximizes surface area for electrochemical reactions and facilitates efficient ion transport, where the porous electrode is designed to maintain a high energy density while allowing efficient thermal management by circulating a cooling fluid through microfluidic channels without compromising electrode's electrochemical performance. USE - Multifunctional porous electrode for use in an energy storage and conversion device in an electric vehicle. ADVANTAGE - The microfluidic channels allow the circulation of cooling fluids i.e. air or liquid coolants through the electrode, thus significantly improving thermal dissipation without compromising electrochemical performance. The electrode facilitates porous nature of the electrode to maximize available surface area for electrochemical reactions while the fluid flow system ensures consistent temperature regulation during highdemand scenarios i.e. rapid charging and discharging cycles. The electrode facilitates integrated approach to enhance energy efficiency and system longevity by preventing thermal hotspots and mitigating risk of overheating. The electrode system paves way for more reliable, efficient, and scalable energy solutions by enabling effective heat management ultimately contributing to advancement of next-generation energy technologies. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are also included for: calable porous electrode structure and thermal management system DESCRIPTION OF DRAWING(S) - The drawing shows a perspective view of porous electrode. 1Porous electrode 2Fluid flow channels 3Heat Dissipation Zones
IPC 分类号	H01G-011/26 ; H01M-010/613 ; H01M-004/86 ; H01M-004/96 ; H05K-007/20
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/14515
专题	中国科学院新疆生态与地理研究所
作者单位	1.KUMAR N (KUMA-Individual) 2.SAVANUR V (SAVA-Individual) 3.KESAVA R A (KESA-Individual) 4.SETTY S B (SETT-Individual) 5.THATIKONDA K S (THAT-Individual) 6.RAMANUJA M (RAMA-Individual) 7.UNIV GURU NANAK ENG TECHNOLOGY INST (UYGU-Non-standard) 8.UNIV CMR (UYCM-Non-standard) 9.UNIV WOXSEN (UYWO-Non-standard) 10.MARRI LAXMAN REDDY INST TECHNOLOGY & MAN (MARR-Non-standard)
推荐引用方式 GB/T 7714	KUMAR N,SAVANUR V,KESAVA R A,et al. Multifunctional porous electrode for use in energy storage and conversion device in electric vehicle, has integrated fluid flow channels being provided for optimized thermal dissipation, and network of interconnected pores is placed within electrode material. IN202441088699-A[P]. 2024.

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