Sensor and live-data app development to allow data digitisation for an innovative, sustainable micro-wind turbine that harnesses wind energy to reduce electricity bills by £1.4K and emissions by 9,000 kg of CO2 per year

传感器和实时数据应用程序开发，可实现创新、可持续微型风力涡轮机的数据数字化，该涡轮机利用风能每年减少 1,400 英镑电费和 9,000 公斤二氧化碳排放

• 批准号: 10044926
• 金额: $ 6.36万
• 依托单位: ENTURI ENERGY LTD
• 依托单位国家: 英国
• 项目类别: Grant for R&D
• 财政年份: 2022
• 资助国家: 英国
• 起止时间: 2022 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=10044926
• 关键词: Sensor; live; data; app; development

Enturi is a UK renewable energy SME with a core project team of Alex Shakeshaft (CEO/co-founder, BEng/MSc, ex-RAF, project management) and Stuart Roberts (CTO/co-founder, MEng, ex-RAF, graduate battery engineer).To stay on the net-zero path, wind energy needs to be scaled up 11-fold by 2050\. Annual wind capacity additions of 390GW need to be made by 2030\. To reach net-zero emissions by 2050, the annual clean energy investment globally will need to more than triple by 2030 to around £3.32T (International-Energy-Agency, 2021). Future growth in the wind turbine sector will be accelerated by operational efficiency, enabled by accessible and transparent data digitisation (DNV, 2019)Enturi is developing a data sensor and live-data app to permit the digitisation of novel micro-wind turbines that can feed a portable/decentralised renewable energy station to rapidly expand digitised renewable energy data. The development of the sensor and live-data app will permit transparent and accessible data visualisation and data sharing. This will allow end users to monitor energy generation, energy storage, and cost savings, as well as allow Enturi to offer end-to-end solutions by monitoring/tracking turbine faults to rapidly address operational errors (maintenance).The modular/portable/inexpensive turbine will reduce noise pollution, minimise the impact on biodiversity, consume less space/time to install, and be manufactured from sustainable materials. It will also be compatible with the existing infrastructure. The affordable/low-impact turbine has the potential to save up to £1.4K/year on electricity bills and 9K kg of CO2 emissions.The solution will address the industry needs and decarbonisation objectives and will align with the UK Innovation Strategy, COP26 climate pact targets, Paris Agreement, Sixth Carbon Budget, Maritime 2050 Strategy, the UK's Clean Green Initiative, and 2050 net-zero targets. The turbine will be unobtrusive (no landscape scarring), have low blade exposure (reducing noise/biodiversity impact), and drive a circular economy because it will be made from sustainable materials. The simple/transparent/accessible data enabled via the sensor and app will allow rapid responses/reactions to system failures to ensure operational efficiency and effective maintenance, as well as inform and engage end users with visualised cost savings. The design will mitigate current design flaws in large-scale wind-power generating systems.

Enturi是由Alex Shakeshaft（首席执行官/联合创始人，Beng/MSC，EX-RAF，EX-RAF，项目管理）和Stuart Roberts（CTO/CTO/联合创始人，Meng，Ex-Raf，Ex-Raf，Ex-Raf，研究生电池工程师）的核心项目团队（首席执行官/联合创始人，Beng/MSC，EX-RAF）。每年的风能增加390GW需要在2030年之前进行。为了到2050年达到零排放，到2030年，全球年度清洁能源投资将需要超过三倍，至3.32英镑左右（国际能源 - 机构，2021年）。风力涡轮机部门的未来增长将通过运营效率加速，通过可访问且透明的数据数字化（DNV，2019年），Enturi正在开发一个数据传感器和Live-Data应用程序，以允许新型的微翼涡轮机的数字化，该数字化可以供应便携式/不良的可再生能源站以快速扩展可扩展的能源数据，以快速扩展可扩展数字数据。传感器和Live DATA应用程序的开发将允许透明且可访问的数据可视化和数据共享。这将使最终用户能够监视能源发电，存储和节省的能源，并允许Enturi通过监视/跟踪涡轮机的故障来迅速解决操作错误（维护）来提供端到端的解决方案。模块化/便携式/廉价涡轮机将减少噪声污染，从而减少对生物多样性的影响，从而减少对生物多样性的影响，从而使材料更少，从而使可持续的材料与可持续的材料相关。它也将与现有的基础架构兼容。负担得起的/低功能涡轮机有可能节省高达1.4k/年的电费和9k kg的二氧化碳排放。该解决方案将解决行业需求和脱碳目标，并与英国创新策略，COP26 COP26气候条约目标，巴黎预算，第六碳预算，第六碳预算，海上2050年的绿色绿色，绿色的绿色，绿色的绿色，绿色的目标和2050年。涡轮机将不引人注目（无景观疤痕），叶片暴露低（减少噪声/生物多样性影响），并推动循环经济，因为它将由可持续材料制成。通过传感器和应用程序启用了简单/透明/可访问的数据，将允许对系统失败的快速响应/反应，以确保运行效率和有效的维护，并为最终用户提供可视化的成本节省。该设计将减轻大规模风力发电系统中的当前设计缺陷。