Energy efficient home - a living laboratory in Wilden

节能之家——威尔顿的生活实验室

• 批准号: 486232-2015
• 负责人: Alam, Shahria
• 金额: $ 2.33万
• 依托单位: University of British Columbia
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=643671
• 关键词: Energy; efficient; home; living; laboratory

Due to scarcity of natural energy resources, energy efficient smart homes are the future of human abode. Continuous development on construction materials and practices, and implementation of new heating, ventilation and air conditioning (HVAC) as well as heat recovery systems can substantially help meet the goal of sustainable living. However, living in a residential place is a dynamic phenomenon and largely dependent on the dwellers' pattern of energy usage. To investigate the performance of the construction materials and practices, and HVAC systems the concept of living laboratory emerged where the temperature and energy are being monitored to understand the effect of energy usage, the performance of the construction materials, heat recovery and HVAC system interaction.****A living laboratory study is being planned in the fastest growing area in Canada, the Okanagan valley. One of the largest sustainable construction industries, Blenk Development will be the partner in this study where two residences will be instrumented with traditional and advanced construction materials and HVAC systems. The objective is to assess the thermal characteristics of the construction materials, monitor the energy usage pattern, temperature etc. throughout the year. A comprehensive model for energy consumption will be developed based on the real temperature and energy data, type of materials used, and environmental data. Upon validation, the model will be able to take the meteorological data and forecast the average energy usage to predict the future energy needs for residential usage. The study will provide a means for the construction industries and home buyers to select the type of materials and HVAC system based on the computational model. Finally, a cost model will be developed as a decision making tool to select the right type of construction materials and**components such as concrete, window types, heat recovery systems, HVAC systems towards the goal of sustainable energy efficient living.

由于自然资源稀缺，节能智能家居是人类居住的未来。建筑材料和实践的不断发展，以及新型供暖、通风和空调 (HVAC) 以及热回收系统的实施，可以极大地帮助实现可持续生活的目标。然而，居住在住宅区是一个动态现象，很大程度上取决于居民的能源使用模式。为了研究建筑材料和实践以及暖通空调系统的性能，出现了生活实验室的概念，在该实验室中，对温度和能源进行监测，以了解能源使用的影响、建筑材料的性能、热回收和暖通空调系统的相互作用。****正在计划在加拿大发展最快的地区奥肯那根山谷进行一项生活实验室研究。作为最大的可持续建筑行业之一，Blenk Development 将成为这项研究的合作伙伴，其中两栋住宅将配备传统和先进的建筑材料以及暖通空调系统。目的是评估建筑材料的热特性，全年监测能源使用模式、温度等。将根据真实的温度和能源数据、所用材料类型和环境数据开发综合能源消耗模型。经过验证，该模型将能够获取气象数据并预测平均能源使用量，以预测未来住宅使用的能源需求。该研究将为建筑行业和购房者提供一种基于计算模型选择材料类型和暖通空调系统的方法。最后，将开发一个成本模型作为决策工具，以选择正确类型的建筑材料和**组件，例如混凝土、窗户类型、热回收系统、暖通空调系统，以实现可持续节能生活的目标。