Improvement & Optimisation of the Smart Hydrogen Leakage and Compositional Monitoring System

改进

• 批准号: 10090780
• 金额: $ 3.44万
• 依托单位: HYCCS TECH LTD
• 依托单位国家: 英国
• 项目类别: Collaborative R&D
• 财政年份: 2024
• 资助国家: 英国
• 起止时间: 2024 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=10090780
• 关键词: Improvement; Optimisation; Smart; Hydrogen; Leakage

Our innovative project emerges in response to a ground-breaking study commissioned by the UK's Department of Science, Innovation, and Technology(DSIT), projecting hydrogen emissions reaching 174kt/y by 2050 with a production of 12,000kt/y. This transformative initiative is purpose-built to tackle the pressing and costly challenge of hydrogen gas leakage, which holds increasing significance amid the UK's ambitious industrial and energy growth.Conventional off-the-shelf facilities are ill-suited to address the complexities of this unique issue. Thus, we present a revolutionary technology explicitly designed to meet the intricate demands of hydrogen gas detection and monitoring. While various "natural-gas" leak detection methods exist, they entail exorbitant CAPEX costs, frequent maintenance and repairs, and, crucially, they fall short in accurately and efficiently detecting hydrogen gas in national transmission and distribution systems.Our pioneering project focuses on adapting the world's first integrated smart technology, proficient in early gas leakage detection(visually represented) and compositional monitoring, exclusively for "Hydrogen" applications. The primary beneficiaries of this innovation will be the UK's industrial clusters and national gas networks, cornerstones of our nation's economic prosperity. To achieve this, in our previous A4I project our approach blended a multifaceted strategy: advanced thermodynamic modelling, an enhanced cloud platform for data analytics, state-of-the-art machine learning models, and a robust geographic information system(GIS). These elements combine to create an innovative early leakage detection and location identification system, offering real-time quantification of leak rates and compositional changes within the stream. Moreover, it provides valuable insights into the kinetics and transport properties of hydrogen-rich streams in transportation infrastructure.The integration of these cutting-edge features results in an unparalleled, cost-effective, and user-friendly system, seamlessly installed and operated throughout the hydrogen transmission and distribution networks' lifetime. Swiftly detecting and resolving hydrogen gas leakages, this technology saves valuable time and resources for gas distributors, effectively reducing operational expenses. The industry has faced persistent challenges in finding an effective technical solution for this pressing issue, making our integrated technology a game-changer. We firmly believe that our innovation holds the key to significantly mitigating hydrogen gas leakage identification and repair time, ushering in a new era of sustainability for gas transmission and distribution operators in the UK. In conclusion, our ground-breaking project promises to revolutionise hydrogen gas leak detection and monitoring, heralding a future of environmental responsibility and economic efficiency. We invite the UK government's support to bolster the nation's position as a global leader in sustainable energy solutions.

我们的创新项目是为了响应英国科学、创新和技术部 (DSIT) 委托进行的一项突破性研究而应运而生，该研究预计到 2050 年氢排放量将达到 174kt/y，产量将达到 12,000kt/y。这项变革性举措是专门为解决氢气泄漏这一紧迫且代价高昂的挑战而设计的，在英国雄心勃勃的工业和能源增长中，氢气泄漏的重要性与日俱增。传统的现成设施不适合解决这一独特问题的复杂性。问题。因此，我们提出了一项革命性的技术，专门用于满足氢气检测和监测的复杂需求。虽然存在各种“天然气”泄漏检测方法，但它们需要高昂的资本支出、频繁的维护和维修，而且最重要的是，它们无法准确有效地检测国家输配电系统中的氢气。我们的开创性项目专注于适应全球首创集成智能技术，精通早期气体泄漏检测（直观表示）和成分监测，专为“氢气”应用而设计。这项创新的主要受益者将是英国的产业集群和国家天然气网络，它们是我国经济繁荣的基石。为了实现这一目标，在我们之前的 A4I 项目中，我们的方法融合了多方面的策略：先进的热力学建模、增强的数据分析云平台、最先进的机器学习模型和强大的地理信息系统 (GIS)。这些元素结合起来创建了一个创新的早期泄漏检测和位置识别系统，提供泄漏率和流内成分变化的实时量化。此外，它还为交通基础设施中富氢流的动力学和传输特性提供了宝贵的见解。这些尖端功能的集成产生了无与伦比的、经济高效且用户友好的系统，可在整个过程中无缝安装和操作。氢传输和分配网络的寿命。该技术能够快速检测并解决氢气泄漏问题，为天然气分销商节省宝贵的时间和资源，有效降低运营费用。该行业在为这一紧迫问题寻找有效的技术解决方案方面面临着持续的挑战，这使得我们的集成技术成为游戏规则的改变者。我们坚信，我们的创新是显着减少氢气泄漏识别和修复时间的关键，为英国天然气传输和分配运营商开创可持续发展的新时代。总之，我们的突破性项目有望彻底改变氢气泄漏检测和监测，预示着环境责任和经济效益的未来。我们邀请英国政府提供支持，以巩固该国作为可持续能源解决方案全球领导者的地位。