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SDC Power Core - Novel ZEV supercharging hardware

SDC Power Core - 新型ZEV增压硬件

基本信息

批准号：
78081
负责人：
金额：
$ 40.62万
依托单位：
PETALITE LIMITED
依托单位国家：
英国
项目类别：
Collaborative R&D
财政年份：
2020
资助国家：
英国
起止时间：
2020 至无数据
项目状态：
已结题

来源：
https://gtr.ukri.org/projects?ref=78081
关键词：
SDC Power Core Novel ZEV

项目摘要

**Answer**The SDC Power Core project will impact the ZEV industry by enabling faster roll-out of efficient, affordable and reliable charging infrastructure. Thus, increasing the speed of adoption of EVs which catalyses widespread benefits from reduced greenhouse gas and exhaust pollutant emissions. This solution will help increase availability of charging mobility across the population and improve quality of life.Electric vehicles (EVs) are central to UK Government plans to reduce Greenhouse gas emissions to almost zero by 2050\. The UK government will ban the sale of new petrol, diesel or hybrid cars in 2035\. In the UK, the EV market stood at $2.4bn in 2018 and is projected to grow at a robust CAGR \>14% to reach $5.4bn by 2024 (TechSci Research, 2019).The Department for Transport (2018) state that to meet EV rapid charging requirements, the number of rapid chargers located near major roads network needs to expand to 1,170 (from 460) and 27,000 (from 2,700) around towns and local areas by 2030\. To achieve this, it is essential that viable commercial models are in place to ensure continued maintenance and improvements to the network and charging infrastructure is affordable, efficient and reliable.All existing EV Charging Manufacturers will struggle to achieve this, as they all utilise the traditional Full-Bridge topology as the basis for their chargers, resulting in short product lifetime warranties (5 years), with inherently high upfront and on-going costs. These factors limit Return on Investment (ROI) for the customer (Charging Service Providers), thus slowing charging station deployment by up to 2x. Petalites Charging as a Service (CAS) business model reduces associated costs and simplifies operations and maintenance.To address this problem Petalite has invented a patent pending charging platform for an innovative new way of charging EVs, "SDC". **A true single stage topology, which has 50% less components_,_** **higher reliability**, **longer working lifetime (up to 4**x**MTBF**) compared to existing Full-Bridge topologies.**AIM**This industrial research project will develop the outputs from a successful 1-phase SDC Innovate UK (IUK) project (2019) in the rail industry. With existing rail industry tenders and timelines rail product roll-out is forecast for 2024/25\. This project will prototype the SDC Power Core in a laboratory environment and develop (TRL4-6) to comply with IEC 61851-23:2014 power standards and charge the 120m EVs produced over the next 10 years (McKinsey, 2018).

** 答案 ** SDC Power Core项目将通过更快地推出高效、经济和可靠的充电基础设施来影响ZEV行业。因此，加快电动汽车的采用速度，从而从减少温室气体和废气污染物排放中获得广泛利益。该解决方案将有助于提高整个人口的充电移动性的可用性，并提高生活质量。电动汽车（EV）是英国政府计划到2050年将温室气体排放量减少到几乎为零的核心。英国政府将在2035年禁止新的汽油、柴油或混合动力汽车的销售。在英国，2018年电动汽车市场规模为24亿美元，预计到2024年将以14%的强劲复合年增长率增长至54亿美元（TechSci Research，2019）。交通部（2018）指出，为了满足电动汽车快速充电要求，位于主要道路网络附近的快速充电器数量需要扩大到1个，170（从460）和27,000（从2,700）周围的城镇和地方地区到2030\。为了实现这一目标，必须建立可行的商业模式，以确保网络和充电基础设施的持续维护和改进是负担得起的，高效和可靠的。所有现有的电动汽车充电制造商都将努力实现这一目标，因为他们都使用传统的全桥拓扑结构作为其充电器的基础，导致产品寿命保证期较短（5年），具有固有的高前期和持续成本。这些因素限制了客户（充电服务提供商）的投资回报率（ROI），从而使充电站部署速度降低了2倍。Petalites充电即服务（CAS）商业模式降低了相关成本，简化了运营和维护。为了解决这个问题，Petalite发明了一种正在申请专利的充电平台，用于为电动汽车充电的创新新方式“SDC”。** 真正的单级拓扑结构，与现有的全桥拓扑结构相比，组件减少50%，可靠性 **** 更高 **，工作寿命更长（高达4**x**MTBF**）。** AIM** 该工业研究项目将开发铁路行业成功的一期SDC Innovate UK（IUK）项目（2019年）的成果。根据现有的铁路行业招标和时间表，预计铁路产品将于2024/25\推出。该项目将在实验室环境中对SDC Power Core进行原型设计，并开发（TRL 4 -6）以符合IEC 61851-23：2014电源标准，并为未来10年生产的1.2亿辆电动汽车充电（麦肯锡，2018年）。