Eco-friendly hybrid standalone power generation system for isolated areas for frigid climate conditions in Northern Canada

适用于加拿大北部寒冷气候条件下偏远地区的环保混合独立发电系统

• 批准号: 499705-2016
• 负责人: Chandra, Ambrish
• 金额: $ 3.17万
• 依托单位: École de technologie supérieure
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2016
• 资助国家: 加拿大
• 起止时间: 2016-01-01 至 2017-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=607606
• 关键词: Eco; friendly; hybrid; standalone; power

In this project implementation in real time of Eco Friendly hybrid standalone power generation system (Eco-HSPGS) for isolated areas in Northern of Canada will be investigated. The proposed Eco-HSPGS consists of wind turbine (WT), solar PV arrays, diesel generators (DGs), battery bank, and water treatment system. It is controlled to get high efficiency from all the energy sources (ESs) and to provide clean, uninterrupted electric power to the connected isolated load with reduced cost. The system will be designed to survive and operate under severe climate conditions. In addition, to minimize the technician support in these remote areas, remotely controlled troubleshooting system will be introduced. New gearless WT driven variable speed transverse flux synchronous permanent magnetic generator will be used. New method to de-icing the surface of solar PV array and to keep warm the proposed Ni-Cd battery pack will be proposed. To regulate the system frequency and voltage, as well as, improving the power quality at the point of common coupling (PCC), new control strategy for the interfacing voltage source converter (VSC) will be developed. Robust phase locked loop (PLL) to ensure perfect synchronization between system elements will be developed. New control strategies for maximum power tracking from solar PV array and WT, as well as, water treatment system as a secondary load will be developed. For perfect synchronization between AC terminal of DGs and PCC, control strategy will be developed. To validate the proposed Eco-HSPGS and its control algorithm in real time under presence of severe conditions, modified Imalog industrial platform will be used.

在本项目中，将调查加拿大北方偏远地区生态友好型混合独立发电系统（Eco-HSPGS）的真实的实施情况。该系统由风力涡轮机、太阳能光伏阵列、柴油发电机、蓄电池组和水处理系统组成。它被控制以从所有能源（ES）获得高效率，并以降低的成本向连接的隔离负载提供清洁、不间断的电力。该系统将被设计为在恶劣的气候条件下生存和运行。此外，为了尽量减少这些偏远地区的技术支持，将引入远程控制的故障排除系统。采用新型无齿轮风力发电机驱动的变速横向磁通同步永磁发电机。提出了一种新的太阳能光伏阵列表面除冰和镍镉电池组保温的方法。为了调节系统的频率和电压，以及改善在公共耦合点（PCC）的电能质量，接口电压源型变换器（VSC）的新的控制策略将被开发。将开发可靠的锁相环，以确保系统元件之间的完美同步。将开发新的控制策略，用于跟踪太阳能光伏阵列和WT的最大功率，以及作为二次负载的水处理系统。为了使DG和PCC的交流终端之间实现完美的同步，将开发控制策略。为了在恶劣条件下真实的实时验证所提出的Eco-HSPGS及其控制算法，将使用改进的Imperial工业平台。