Demand-Side Flexibility in Low-Carbon Grids

低碳电网的需求侧灵活性

• 批准号: 402786-2013
• 负责人: Bouffard, François
• 金额: $ 1.75万
• 依托单位: McGill University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2014
• 资助国家: 加拿大
• 起止时间: 2014-01-01 至 2015-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=551012
• 关键词: Demand; Side; Flexibility; Low; Carbon

Mitigating the consequences of climate change by reducing greenhouse gas emissions and improving our energy security present great challenges. This is especially the case for the electricity industry as classic fully-controllable coal and gas-fired power plants are bound to be replaced partly by clean wind and solar generation, which unfortunately lack the means to regulate their own power output. Most classic power stations are generally flexible because they can change their power output at will to meet the changing demand for electricity and to counter unpredicted events like equipment failures on the grid. Industrialized and increasingly digital economies are clearly not willing to sacrifice their reliable electricity supply in spite of a shift in the composition of the electricity generation mix. This motivates the search for potentially new solutions to provide the needed flexibility to balance electricity generation and consumption. Electricity consumers and many of their appliances are inherently flexible as, for example, one can delay doing the laundry. The premise of this work is that consumers, on aggregate, can provide flexibility just like thermal power plants. This flexibility is poorly understood, modelled or quantified, however. The research program we are proposing is seeking to investigate that flexibility and formally study its use in power systems. In the long run, we aim to help set up a rigorous theory of demand flexibility and its use with its models, methodologies and, most importantly, boundaries of its applicability. The specific focus of this research is on developing methods to estimate and to characterize the flexibility potential of aggregated flexible consumers, showing how and under what conditions consumers' actions can aggregate to provide useful services in support of the grid and its users and in a context of low-carbon generation. Consumers in Canada are potentially some of the most flexible in the world because of the importance of inherently flexible electric heating. Most Canadians own a hidden resource which deserves to be better understood and assessed, especially since it may greatly contribute to catalyze the decarbonization of the electricity sector while improving its reliability and economics.

通过减少温室气体排放和改善我们的能源安全来减轻气候变化的后果，是一项巨大的挑战。电力行业尤其如此，因为传统的完全可控的燃煤和燃气发电厂必然会被清洁的风能和太阳能发电所取代，不幸的是，这些发电厂缺乏调节自身发电量的手段。大多数传统的发电站通常是灵活的，因为它们可以随意改变其功率输出，以满足不断变化的电力需求，并应对电网设备故障等不可预测的事件。工业化和日益数字化的经济体显然不愿意牺牲其可靠的电力供应，尽管发电组合的构成发生了变化。这促使人们寻找潜在的新解决方案，以提供平衡发电和消费所需的灵活性。电力消费者和他们的许多电器本质上是灵活的，例如，一个人可以推迟洗衣服。这项工作的前提是，消费者，总的来说，可以提供灵活性，就像火力发电厂。然而，对这种灵活性的理解、建模或量化都很差。我们提出的研究计划旨在研究这种灵活性，并正式研究其在电力系统中的应用。从长远来看，我们的目标是帮助建立一个严格的需求灵活性理论，并利用其模型，方法，最重要的是，其适用性的边界。本研究的具体重点是开发方法来估计和表征聚合灵活的消费者的灵活性潜力，显示如何以及在什么条件下消费者的行动可以聚合提供有用的服务，支持电网及其用户，并在低碳发电的背景下。由于固有的灵活电加热的重要性，加拿大的消费者可能是世界上最灵活的消费者之一。大多数加拿大人拥有一种隐藏的资源，值得更好地了解和评估，特别是因为它可能大大有助于促进电力部门的脱碳，同时提高其可靠性和经济性。