From Waste to Clean Food

从废物到清洁食品

• 批准号: 501951-2016
• 负责人: Bahrami, Majid
• 金额: $ 13.19万
• 依托单位: Simon Fraser University
• 依托单位国家: 加拿大
• 项目类别: College - University Idea to Innovation 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=644464
• 关键词: Waste; Clean; Food

Providing potable water and clean food to feed the hungry planet are now priorities and daunting challenges for**every country. These challenges have arisen due to the combination of dramatic global weather pattern change,**disastrous man-made environmental pollution, and a rapidly growing world population, that is to surpass 8.5**Billion in 2030. One promising solution is growing our food and medicine in an engineered environment in**closed greenhouses (CGs) for optimum and reliable plant growth year-round. With an estimated 60% of the**energy produced globally converted to waste-heat (<100°C), this research program aims to develop and test the**next-generation of CGs, equipped with waste-heat driven technologies, to produce clean food and fresh water**under any climatic conditions sustainably.**The College University Idea to Innovation (CU-I2I) program combines the expertise and infrastructure of the**Laboratory for Alternative Energy Conversion (LAEC) at Simon Fraser University (SFU) and the horticulture**college programs and Institute for Sustainable Horticulture of Kwantlen Polytechnic University (KPU) with**industrial partners: i) Argus Control Systems, a pioneer company in automation and control of greenhouses; ii)**the BC Greenhouse Growers' Association; and iii) Nexus Biofuel, a BC biofuel plant company capable of**converting farm and municipality waste into high-quality fuel and heat. This program covers an array of novel**key clean technologies and is crucial for growing crops and providing climate control and fresh water, paving**the road for the mass market and global acceptance of CGs.**From Waste to Clean Food will strengthen the research links between college, university, and industry, as**well as accelerating the development and commercialization of the needed technologies for sustainable CGs. It**is well aligned with the CU-I2I objectives and has significant potential for IP development. Canadian**greenhouse growers and clean tech companies will further benefit from the training of HQP with skills highly**in demand in clean energy and water systems, greenhouse climate control and new cropping systems.**

提供饮用水和清洁食品来养活饥饿的地球现在是每个国家的首要任务和艰巨的挑战。这些挑战是由于全球天气模式的剧烈变化、灾难性的人为环境污染和快速增长的世界的结合而出现的。人口，到 2030 年将超过 85 亿。一个有前途的解决方案是在封闭温室 (CG) 的工程环境中种植我们的食品和药品，以实现全年最佳可靠的植物生长。全球产生的**能源的 60% 转化为废热（<100°C），该研究项目旨在开发和测试**下一代 CG，配备废热驱动技术，以生产清洁食品和淡水**在任何气候条件下可持续。**学院大学创意创新 (CU-I2I) 项目结合了**西蒙弗雷泽大学 (SFU) 替代能源转换实验室 (LAEC) 的专业知识和基础设施以及这昆特兰理工大学 (KPU) 园艺**学院课程和可持续园艺研究所与**工业合作伙伴：i) Argus Control Systems，温室自动化和控制领域的先驱公司；ii)** BC 温室种植者协会； iii) Nexus Biofuel，一家不列颠哥伦比亚省生物燃料工厂公司，能够**将农场和城市废物转化为高质量燃料和热量。该计划涵盖了一系列新颖的**关键清洁技术，并且至关重要。用于种植农作物并提供气候控制和淡水，为大众市场和全球接受CG铺平了道路。**从废物到清洁食品将加强学院、大学和工业之间的研究联系**加速可持续 CG 所需技术的开发和商业化，这与 CU-I2I 的目标非常一致，并且对加拿大**温室种植者和清洁技术公司具有巨大的潜力，将进一步从培训中受益。 HQP 具有高技能**需求清洁能源和水系统、温室气候控制和新的种植系统。**