Production and utilization of environmentally friendly Bio-Eco-products towards Transport4.0

生产和利用环保生物生态产品迈向交通4.0

• 批准号: EP/X02279X/1
• 负责人: Jose Herreros
• 金额: $ 24.26万
• 依托单位: University of Birmingham
• 依托单位国家: 英国
• 项目类别: Fellowship
• 财政年份: 2023
• 资助国家: 英国
• 起止时间: 2023 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FX02279X%2F1
• 关键词: Production; utilization; environmentally; friendly; Bio

Bio-Eco-Trans4.0 aims to develop environmentally friendly, sustainable and energy efficient technologies and productsfrom waste within the scope of road transport as well as to strength the professional career of Dr Carmona-Cabello tobecome a world-leading researcher in the production of waste-derived products. The novelties of Bio-Eco-Trans4.0 arethe development of new materials using waste feedstock, the integration of product functionally and air quality impacton product's design, and embedding the concepts of circular economy, industry 4.0 and digitalisation within a biorefinery.The findings could be also relevant to other methods of transport and 3D printing materials. Bio-Eco-Trans4.0will contribute to mitigate the impact of the transport sector on energy demand (33% of the total energy production), airquality (4.2 million deaths worldwide annually) and greenhouse gas emissions (GHG) (24% of total CO2 from EU) usinga whole life cycle approach. The fellowship aligns with the Framework of Policies for Energy and Climate Change 2021-2030 targeting a reduction of GHG (40%), an increase in renewable energy (27%) and an improvement in energyefficiency (27%) compared to 1990. The experience of the fellow in the development and characterisation of bio- andeco- products, the excellent environment and complementary expertise at the host institutions and the pathways tostrength/develop collaborations with industry provide the right ingredients to maximise its impact.

Bio-Eco-Trans4.0旨在从道路运输范围内的废物中开发环境友好，可持续和节能的技术和产品，并加强Carmona-Cabello博士的专业生涯，使其成为世界领先的废物衍生产品生产研究员。Bio-Eco-Trans4.0的新颖之处在于利用废物原料开发新材料，产品功能和空气质量影响产品设计的整合，以及在生物炼制中嵌入循环经济、工业4.0和数字化的概念。这一发现也可能与其他运输方法和3D打印材料相关。bio - eco - trans4.0将采用全生命周期方法，有助于减轻运输部门对能源需求（占能源生产总量的33%）、空气质量（全球每年420万人死亡）和温室气体排放（占欧盟二氧化碳总量的24%）的影响。该奖学金与《2021-2030年能源和气候变化政策框架》保持一致，目标是与1990年相比，减少温室气体（40%）、增加可再生能源（27%）和提高能效（27%）。研究员在生物和生态产品的开发和表征方面的经验，在主办机构的良好环境和互补的专业知识，以及加强/发展与行业合作的途径，提供了适当的成分，以最大限度地发挥其影响力。