hot Gas Raman Identification and measurement For Foundation INdustries (GRIFFIN)

基础行业的热气拉曼识别和测量 (GRIFFIN)

• 批准号: 95372
• 金额: $ 71.01万
• 依托单位: IS-INSTRUMENTS LIMITED
• 依托单位国家: 英国
• 项目类别: Collaborative R&D
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=95372
• 关键词: hot; Gas; Raman; Identification; measurement

The UK Government is committed to moving to a zero-carbon economy, including within the most energy-intensive sectors. These sectors consume a considerable amount of energy, but also play an essential role in delivering the UK's transition to a sustainable, low-carbon economy, as well as in contributing to economic growth and rebalancing the economy. UK Foundation Industries generate 10% of the UK's entire CO2 emissions and for three of these industries, glass, cement and ceramics, manufacture is energy and capital intensive.Future environmental regulations create challenges in competing with new plants from the developing world but also offer new opportunities. COVID-19 impact resulted in near total suspension of foundation industry production. Subsequent recovery is further challenged by new, UK policies and plummeting raw material values which are compounding negative impact to decimated sectors.This energy efficiency industrial research project aims to deliver a transformative new instrument for the glass, cement and ceramics industries, utilising analytical Raman gas measurement instrumentation, originally developed for nuclear decommissioning by project lead IS-Instruments. The data provided by the instrument will enable these Foundation Industries and others, to make a step-change in process control, energy consumption and environmental emissions monitoring.Significant energy savings will be directly enabled through accurate, near-to-real-time hot gas measurement, realising the future potential of mixing natural gas with cleaner energy sources such as hydrogen, when combined with more accurate and near-to-real-time burner in-process control. The optimised environmental monitoring capability of this instrument will enable greater understanding and the value added by additional in-process monitoring technologies will deliver a new technology enabling step changes to prcessing within the foundation industries.To deliver this collaborative, innovative project, IS-Instruments will be supported by UK Foundation Industry partners Glass Technology Services (Glass), Breedon Group (Cement) and Wienerberger (Ceramics) with world class University expertise from Southampton's Optoelectronics Research Centre and Sheffield Hallam's Materials Engineering Research Institute.

英国政府致力于转向零碳经济，包括在能源密集型行业。这些行业消耗大量能源，但在英国向可持续低碳经济转型以及促进经济增长和经济再平衡方面也发挥着至关重要的作用。英国基础工业的二氧化碳排放量占英国全部二氧化碳排放量的 10%，其中玻璃、水泥和陶瓷这三个行业的制造属于能源和资本密集型。未来的环境法规为与发展中国家的新工厂竞争带来了挑战，但也带来了新的挑战。机会。 COVID-19 的影响导致地基行业生产几乎完全暂停。随后的复苏受到英国新政策和原材料价格暴跌的进一步挑战，这对遭受重创的行业造成了负面影响。该能源效率工业研究项目旨在利用分析拉曼气体为玻璃、水泥和陶瓷行业提供一种变革性的新仪器测量仪器，最初由项目负责人 IS-Instruments 为核退役而开发。该仪器提供的数据将使这些基础工业和其他行业能够在过程控制、能源消耗和环境排放监测方面做出重大改变。通过准确、近乎实时的热气将直接实现显着的节能测量，结合更准确和近乎实时的燃烧器过程控制，实现天然气与氢气等清洁能源混合的未来潜力。该仪器优化的环境监测能力将有助于加深理解，并且附加过程监测技术的附加值将提供一项新技术，使基础行业内的加工过程发生重大变化。为了实现这一协作、创新项目，IS-Instruments 将得到英国基金会工业合作伙伴 Glass Technology Services（玻璃）、Breedon Group（水泥）和 Wienerberger（陶瓷）的支持，以及南安普顿光电研究中心和谢菲尔德哈勒姆材料学院的世界一流大学专业知识工程研究院。