人民财讯1月8日电，中共合肥市委发布关于制定合肥市国民经济和社会发展第十五个五年规划的建议， 其中指出，围绕"量能生智"等重点方向，聚力推动具备科创优势和发展基础的未来产业创新发展、抢占 高地。量子科技产业，推进量子通信、量子计算、量子精密测量等领域创新突破和场景应用，加快关键 材料器件设备研发和产业化，拓展政务、金融、能源、气象等领域"量子+"示范项目。核聚变能和氢能 产业，以紧凑型聚变能实验装置等重大科技基础设施建设为引领，加快发展超导材料、装备、智能传感 器等核心产业，推进氢能、氨能等技术迭代应用，布局小型堆等先进核能技术。生物制造产业，聚焦生 物基化学品和材料、新食品、生物农业和非粮生物质原料等方向，拓展规模化应用。具身智能产业，推 进智能决策系统、高精度控制系统和创新结构设计一体发展，构建"精密加工-数据训练-测评验证-竞技 竞赛"全链条创新生态。把握细分领域和新赛道空间，跟踪布局脑机接口、第六代移动通信、深空深海 等若干方向，推动更多技术研发和产业化实现"并跑"、"领跑"。 ...

生物制造是未来物质生产重要形式，国际社会普遍认为生物制造有望成为第四次工业革命的核心驱动力 之一。 "我国工业体系完善，应用产品丰富，需求牵引强，拥有全球规模最大、最完备的发酵工业基础，为生 物制造发展和产品应用提供了广阔空间。"近日，以"生机无限制造未来"为主题的2025生物制造大会在 重庆举办，赛迪研究院消费品工业研究所所长李博洋在会上说。 他表示，要强化资源汇聚、平台搭建、服务保障，基于自身和制度优势，打造全球领先的先进高效绿色 的生物制造产业，"定义新一代工业标准，让每次发酵都替代一块油田，让每克碳排放都成为一种有用 的原料，让细胞工程成为中国制造的新名片。" 创新动能持续增强 "生物制造是以工业生物技术为核心，利用生物体如酶、细胞等作为催化剂，结合过程工程技术进行目 标产品生产的制造过程。与依赖石化原料和高能耗的制造方式相比，生物制造以可再生生物质为原料， 过程温和、污染小、能效高、可持续性强，是典型的'绿色制造'和'循环经济'代表。"中国工程院院士、 北京化工大学校长谭天伟表示，目前，全球约70%的制造业产品在技术上具备采用生物制造方式生产的 可能性。生物制造并非意味着对传统制造方式的全面替代，而 ...

Core Viewpoint - The article emphasizes the development of non-grain biomass resources for energy and bio-based materials, highlighting the upcoming NFUCon 2025 forum aimed at discussing commercialization paths, technological challenges, and opportunities in the biomass industry [2]. Group 1: Forum Overview - The NFUCon 2025 will be held from November 27-29, 2025, in Hangzhou, Zhejiang, organized by DT New Materials and the National Key Laboratory of Bio-based Transportation Fuels [2][3]. - The forum will gather industry representatives and experts to explore key areas such as biomass green pretreatment, non-grain sugars, bio-based chemicals and materials, and biomass energy [2][4]. Group 2: Forum Agenda - The forum will feature a series of specialized sessions, including: - Session 1: Biomass Green Pretreatment focusing on steam explosion technology and efficient pretreatment methods [6]. - Session 2: Non-grain sugars and their industrial applications [7]. - Session 3: Bio-based chemicals and their production processes [8]. - Session 4: Non-grain bio-based materials and their commercialization [8]. Group 3: Special Activities - A special activity titled "Technology Achievement Display and Matching" will be held to promote innovation and commercialization in the biomass sector, showcasing 50 innovative projects with commercial potential [9]. Group 4: Industry Participation - The forum will attract various participants, including: - Production companies involved in biomass energy and chemicals, cellulose materials, and green composite materials [14]. - Academic institutions focusing on biomass chemistry, advanced catalysis, and resource utilization [14]. - Equipment and solution providers for biomass processing and analysis [14].

Core Viewpoint - The article emphasizes the development of non-grain biomass resources for energy and material systems, highlighting the upcoming NFUCon 2025 forum aimed at discussing commercialization paths and technological advancements in the biomass industry [2]. Group 1: Forum Overview - The NFUCon 2025 forum will take place from November 27 to 29, 2025, in Hangzhou, Zhejiang, organized by DT New Materials and the National Key Laboratory of Biomass Transportation Fuel Technology [2][3]. - The forum will gather industry representatives and experts to explore key areas such as biomass green pretreatment, non-grain sugars, biomass-based chemicals and materials, and biomass energy [2][4]. Group 2: Forum Agenda - The forum will feature specialized sessions on non-grain biomass chemicals and materials, including topics like biomass green pretreatment, non-grain sugars, and biomass-based chemicals [5][6]. - Another major theme will focus on biomass energy, covering areas such as biomass methanol, fuel ethanol, biogas, and sustainable aviation fuel (SAF) [7][9]. Group 3: Supporting Organizations - The forum is supported by various institutions, including Zhejiang University and its associated research institutes, which contribute expertise in polymer science, food science, and biomass materials [3][9]. - The event will also involve participation from production enterprises, research institutions, and solution providers in the biomass sector [9][10]. Group 4: Innovation and Collaboration - The forum will include a special activity for showcasing and connecting innovative projects in the biomass utilization field, aiming to promote commercialization and industry collaboration [7][8]. - A total of 50 innovative projects with commercial potential will be selected for display and networking during the event [7].

Core Viewpoint - The successful trial production of Dongyue Chemical's 200,000 tons/year mixed waste plastic resource utilization project has garnered significant attention in the global waste plastic recycling industry, marking a notable advancement in the green chemical industry chain from waste plastic to high-end materials [1][2]. Group 1: Project Significance - The project has a large scale, processing 200,000 tons of waste plastic annually, establishing a replicable and innovative green chemical industry chain [2]. - The project utilizes a "one-step" deep catalytic cracking technology (CPDCC), significantly improving yield compared to traditional two-step methods [2]. Group 2: Industry Trends - High polymer recycling has become a leading trend in the chemical industry, with major companies in China, such as Sinopec and Wanhua Chemical, actively investing in this area [3][4]. - Internationally, Japanese chemical giants are also focusing on high polymer recycling, with significant investments in bio-based chemicals and materials [5][6]. Group 3: International Developments - Mitsubishi Chemical has completed a waste plastic chemical recycling facility in Japan, with an annual capacity of 20,000 tons, utilizing supercritical water chemical recycling technology [6]. - Other Japanese companies, such as Ube and Toray, are also making strides in recycling initiatives, including the recovery of nylon fibers from discarded fishing nets and the establishment of a committee for efficient dismantling of end-of-life vehicles [8][10]. Group 4: Technological Innovations - The article highlights the advancements in chemical recycling technologies, particularly the supercritical water thermal cracking method, which is noted for its high efficiency and lower carbon emissions compared to traditional pyrolysis methods [19]. - Major global players, including BASF and ExxonMobil, are also involved in high polymer recycling, indicating a broad industry shift towards sustainable practices [20].