An all-encompassing innovative Green Hydrogen supply chain system incorporating a revolutionary multiple stage process of metal hydride pairs resulting in a significant energy savings.

包罗万象的创新绿色氢供应链系统，结合了金属氢化物对的革命性多阶段工艺，可显着节省能源。

基本信息

批准号：
10071948
负责人：
金额：
$ 85.48万
依托单位：
HYDROSTAR EUROPE LTD
依托单位国家：
英国
项目类别：
Collaborative R&D
财政年份：
2023
资助国家：
英国
起止时间：
2023 至无数据
项目状态：
未结题

来源：
https://gtr.ukri.org/projects?ref=10071948
关键词：
encompassing innovative Green Hydrogen supply

项目摘要

HydroStar is an innovative and disruptive company focussed on Green Hydrogen hardware development and optimisation which can be easily manufactured and scaled.Last year the company won a Smart Grant to develop metal hydride storage systems to store Green Hydrogen produced from renewable solar energy, partnering with London South Bank University. This has been a successful partnership, investigating the benefits of different metal hydride materials and developing demonstration units to prove the concept of storing Green Hydrogen from renewables in metal hydrides.This project will leverage the knowledge gained and the proven technology from the Smart Grant project to develop a disruptive the hydrogen supply chain solution targeting hydrogen refuelling stations (HRSs), which reduces overall energy consumption of the hydrogen compression, storage and transportation supply chain from 35.5% to 5.5% of hydrogen embodied energy.This will be achieved using an innovative multiple stage process of metal hydride 'pairs', enabling the connection of renewable generation to the end user. Each pair of metal hydrides will function as both a hydrogen storage mechanism and continuous hydrogen delivery system, allowing the system to react to variable demands and spikes in requirements.

Hydrostar是一家创新且破坏性的公司，专注于绿色氢硬件开发和优化，可以轻松制造和缩放。last年赢得了一项智能拨款，开发了金属氢化物存储系统，以存储由可再生太阳能生产的绿色氢，与伦敦南岸大学合作。 This has been a successful partnership, investigating the benefits of different metal hydride materials and developing demonstration units to prove the concept of storing Green Hydrogen from renewables in metal hydrides.This project will leverage the knowledge gained and the proven technology from the Smart Grant project to develop a disruptive the hydrogen supply chain solution targeting hydrogen refuelling stations (HRSs), which reduces overall energy consumption of the hydrogen compression, storage and transportation supply chain from 35.5％至5.5％的氢体现能量。这将是使用金属氢化金属“ Pair”的创新多重阶段过程来实现的，从而使可再生生成与最终用户的联系。每对金属氢化物将既充当氢存储机制，又是连续的氢输送系统，从而使系统能够应对需求的可变需求和尖峰。