Hydrogen generation system used to generate hydrogen for fuel applications has receiving chamber to receive water and catalytic mixture, agitator to mix water and catalyst mixture, hydrogen generator to receive electroconductive mixture from agitator, first and second regulators, and control unit
	MURALA P; BEGUM S S; CHOWDARY C M; MASOOD J A I S; ANUMALA A; BABU P M; KUMAR T P; PRASAD V S J C; GURRAM K; REVALLA M; CHAKRAVARTHY K N S
	2024-10-28
专利权人	QIS COLLEGE ENG & TECHNOLOGY (QISC-Non-standard)
申请日期	2024-10-28
专利号	IN202441082335-A
成果简介	NOVELTY - Hydrogen generation system (100), comprises: a receiving chamber (101) to receive water and a catalytic mixture; an agitator (102) to mix the water and the catalyst mixture to form an electroconductive mixture; a hydrogen generator (103) to receive the electroconductive mixture from the agitator for generating many gases; a first regulator (104) for regulating flow of the electroconductive mixture from the agitator to the hydrogen generator; a second regulator for regulating pumping of the generated gases from the hydrogen generator to many outlets, where the gases include hydrogen, ozone and oxygen, and the outlets include a hydrogen outlet, an ozone outlet and an oxygen outlet respectively; and a control unit for controlling the operation of the first regulator and the second regulator. The catalytic mixture includes 40-60 wt.% sodium carbonate, 30-40 wt.% potassium nitrate and 10-20 wt.% sodium chloride. USE - The system is useful for generating hydrogen for fuel applications (claimed), where hydrogen is used as a clean fuel, with its potential applications spanning from transportation to power generation and industrial processes. ADVANTAGE - The system: integrates flow regulation with advanced hydrogen generation techniques to optimize gas output; is an innovative hydrogen generation system with enhanced efficiency and effectiveness; optimizes the conductivity of the electroconductive substrate for hydrogen generation to obtain desired concentration of hydrogen, and it also generates other byproduct gases e.g. ozone and oxygen which can be utilized for other purposes; provides a reliable, efficient, and cost-effective solution for producing hydrogen fuel, ultimately contributing to a sustainable energy future; provides an efficient, integrated solution for hydrogen generation, addressing the need for clean fuel sources in various applications; enhances the feasibility of hydrogen as a sustainable energy carrier by combining advanced electrolysis technology with flow rate and conductivity management; produces hydrogen through electrolysis powered by renewable energy, significantly minimizing greenhouse gas emissions compared to traditional fossil fuel-based methods; provides hydrogen which when used as a fuel, there is no harmful byproduct, contributing to cleaner air and a reduction in pollutants; utilizes integrated energy management system that maximizes the utilization of renewable energy sources; generates hydrogen which meets the required standards for various fuel applications, minimizing additional processing steps. can be scaled to suit various applications, from small-scale decentralized generation to large-scale industrial operations, making it versatile for different market needs; reduces the need for separate purification and storage systems, simplifying installation and lowering capital expenditures; has high-pressure storage tank designed with advanced safety features, ensuring safe handling and minimizing the risks associated with hydrogen storage; aids in developing a hydrogen economy, promoting the use of hydrogen in transportation, industry, and energy storage by providing an efficient method for hydrogen generation; and reduces dependence on imported fossil fuels, contributing to energy security and resilience by generating hydrogen locally from renewable resources. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for generating hydrogen for fuel applications, comprising receiving water and a catalyst mixture by a receiving chamber, mixing the water and the catalyst mixture to form an electroconductive mixture in an agitator at a speed of 150-450 rotations per minute and a temperature of 25-45℃, sending the electroconductive mixture from the agitator to a hydrogen generator, where the flow of the electroconductive mixture from the agitator to the hydrogen generator is regulated by a first regulator, generating many gases in the hydrogen generator by reaction of the electroconductive mixture passing through a membrane, and pumping the gases from the hydrogen generator to many outlets, where the pumping of the gases is regulated by a second regulator. DESCRIPTION OF DRAWING(S) - The figure illustrates a block diagram of the hydrogen generation system for fuel applications. 100Hydrogen generation system 101Receiving chamber 102Agitator 103Hydrogen generator 104First regulator
IPC 分类号	C01B-013/02 ; C25B-001/04 ; C25B-015/02 ; H01M-008/04746 ; H01M-008/0656
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/14736
专题	中国科学院新疆生态与地理研究所
作者单位	QIS COLLEGE ENG & TECHNOLOGY (QISC-Non-standard)
推荐引用方式 GB/T 7714	MURALA P,BEGUM S S,CHOWDARY C M,et al. Hydrogen generation system used to generate hydrogen for fuel applications has receiving chamber to receive water and catalytic mixture, agitator to mix water and catalyst mixture, hydrogen generator to receive electroconductive mixture from agitator, first and second regulators, and control unit. IN202441082335-A[P]. 2024.

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