Homegrown Bio-Offsite Manufactured (Bio-OSM) Accelerator

本土生物异地制造 (Bio-OSM) 加速器

• 批准号: 83420
• 金额: $ 7.36万
• 依托单位: EDINBURGH NAPIER UNIVERSITY
• 依托单位国家: 英国
• 项目类别: Small Business Research Initiative
• 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=83420
• 关键词: Homegrown; Bio; Offsite; Manufactured; OSM

The UK has the renewable natural resource, internationally recognised expertise, and technical capabilities necessary to be at the forefront of a new approach to delivering a sustainable and resilient built environment in response to the COVID-19 recovery (**build back better**), the **declared climate emergency**, and **UN Sustainable Development Goals**. Managed responsibly, the renewable natural capital of the UK can underpin its prosperity and create a built environment which has a positive influence on the health and wellbeing of its occupants. This demonstration project represents the first phase of an iterative journey to market commercialisation for homegrown engineered timber products and a subsequent '[SNRG][0]' courtyard proposal. The core outputs are to design, engineer, manufacture, construct and evaluate the engineered homegrown timber elements of an individual, two storey home that directly replicates modules that will make up a completed courtyard development.The project will harness well-established international developments in building construction technology, and align them with societal and financial shifts in UK housing design, together with the move towards offsite manufacture of buildings (demonstrated by the **UK Government's 2017 presumption in favour of offsite**), specifically focussing on housing. The UK has experienced a wide-spread market shift in the appetite for mass timber production, with no manufacturing facilities currently in existence, aside from the prototyping equipment at CSIC. Therefore, with increasing demand for the product based on benefits such as its overall life-cycle costs, reduced wastage, increased construction and delivery speed, health and wellbeing improvements and building fabric performance, there is an immediate requirement to investigate an optimal mass timber solution from a UK context.The project objective is to evidence homegrown engineered timber products for the UK market from a mechanical, engineering, productivity, and cost perspective. To rigorously interrogate the potential solution, the proposed project will be fully digitised via the creation of a **digital twin** which will capture all available information, as well as test project suitability with the supply chain and give consideration to **Design for Manufacture and Assemble (DfMA) and Disassembly (DfMA+D)** requirements. This will ensure **mass customisation and standardisation**, enable full process automation, and take cognisance of the need to design and construct for circularity and the paradigm of the **Circular Economy**. In the current COVID-19 climate, factory shift patterns can better manage social distancing, automation can reduce manual handling and personalisation can ensure continuous value add to our **renewable natural resources**.[0]: https://www.oursnrg.com/

英国拥有可再生的自然资源、国际公认的专业知识和技术能力，这些都是在新方法的最前沿提供可持续和有弹性的建筑环境，以应对COVID-19复苏（** 重建得更好 **）、** 宣布的气候紧急状态 ** 和 ** 联合国可持续发展目标 **。负责任地管理，英国的可再生自然资本可以支撑其繁荣，并创造一个对居住者的健康和福祉产生积极影响的建筑环境。该示范项目代表了本土工程木材产品市场商业化迭代之旅的第一阶段，以及随后的“[SNRG][0]”庭院提案。核心产出是设计、工程、制造、建造和评估一个单独的两层住宅的工程本土木材元素，该元素直接复制将构成一个完整庭院开发的模块。该项目将利用建筑施工技术的成熟国际发展，并将其与英国住房设计的社会和金融转变相结合，再加上建筑物的非现场制造（** 英国政府2017年支持非现场制造的推定 ** 就证明了这一点），特别关注住房。英国经历了大规模木材生产需求的广泛市场转变，除了CSIC的原型设备外，目前没有制造设施。因此，随着对该产品的需求不断增加，其好处包括整体生命周期成本，减少浪费，提高施工和交付速度，改善健康和福祉以及建筑织物性能，迫切需要研究英国背景下的最佳大规模木材解决方案。该项目的目标是从机械，工程，生产力和成本的角度。为了严格询问潜在的解决方案，拟议的项目将通过创建一个 ** 数字孪生模型 ** 来完全数字化，该模型将捕获所有可用信息，并测试项目与供应链的适用性，并考虑 ** 制造和装配设计（DfMA）和可持续发展（DfMA+D）** 要求。这将确保 ** 大规模定制和标准化 **，实现全流程自动化，并认识到设计和建造循环性和 ** 循环经济 ** 范式的必要性。在当前的COVID-19气候下，工厂轮班模式可以更好地管理社交距离，自动化可以减少人工处理，个性化可以确保我们的 ** 可再生自然资源 ** 持续增值。[0]：https://www.oursnrg.com/网站