高分子循环利用已成为缓解全球资源紧缺与环境压力的重要途径，世界许多国家都已出台强制使用再生高分子的政策法规。新央企中国资源循环集团的 重磅成立，或标志着我国高分子循环利用产业将迈向新的发展地位，战略意义凸显。 世界不同区域对于高分子循环回收的最新态度和举措是什么？面向"十五五"，国家对于高分子循环利用产业的顶层设计将有何指导？高分子循环回收到 底能不能挣钱？究竟哪种先进技术能实现大规模可复制？循环高分子材料的应用能为制品企业带来多少的税收减免红利？产品的碳足迹怎样追溯与核 算？如何在强制法规与产业"内卷"中脱颖而出？分子可逆设计能否从根本上打破高分子难回收枷锁？ 第三届高分子循环再利用大会 将于 12月11-13日 在 浙江宁波 召开，本届大会围绕 政策趋势、化学回收&物理回收技术、循环材料高值化利用（纺织、 家电、汽车、包装、风机叶片）、动态可持续高分子 展开交流与合作。大会将邀请国际领先企业、代表性专家学者、政府、园区、资本、协会和联盟等 各方共探高分子循环利用之路。 会议倒计时五天，最全最便捷参会指南 ，这里有您关心的所有信息，快来了解： 参会指南 01 交通地址 会场： 宁波凯洲皇冠假日酒店 地址： ...

Core Viewpoint - The article highlights the successful trial production and launch of the first "land aircraft carrier" flying vehicle from the world's first mass production line for flying cars, located in Guangzhou, marking a significant milestone in the flying car industry [2][4][5]. Production Details - The production facility covers approximately 120,000 square meters and is designed for the production of the split-type flying car "land aircraft carrier," with a full production capacity of 10,000 units per year and an initial capacity of 5,000 units. The factory is the first in the world to achieve a production capacity of this scale [4]. - In full production, the assembly line can produce one flying vehicle every 30 minutes. The factory incorporates automotive assembly line concepts while meeting the high precision requirements of aviation manufacturing, with a composite materials workshop capable of producing 300 tons annually, making it one of the largest aviation carbon fiber component manufacturing bases globally [4]. Market Orders - As of October 12, Xiaopeng Huitian has signed orders for 600 flying cars with several groups in the Middle East, setting a record for the largest overseas batch. The total global orders for the "land aircraft carrier" have reached 7,000 units [5]. Technical Innovations - The "land aircraft carrier" is the world's first mass-produced split-type flying car, featuring a design that separates the land and flight components, allowing for automatic separation and combination within five minutes. Key technologies include: 1. **Flight Body Design**: Utilizes a 6-axis, 6-rotor distributed electric propulsion system with two reversible ducts, ensuring safety even with the failure of four rotors, meeting civil aviation safety standards. The body is made of lightweight carbon fiber and features a panoramic dual-seat cockpit that supports both manual and automatic driving modes, allowing users with no prior experience to master flying skills in three hours [5]. 2. **Safety Redundancy System**: Equipped with a multi-parachute rescue system that can deploy at altitudes as low as 50 meters, controlling the landing speed to within 5 m/s. Critical systems such as power, flight control, and electrical systems are designed with redundancy to ensure safe operation even after a single point failure [6]. 3. **Land Vehicle Functionality**: The land vehicle is a three-axis, six-wheel car with 6x6 all-wheel drive and rear-wheel steering, featuring a range-extended hybrid power system that can recharge the flying component multiple times, providing a long range of over 500 km. It is designed to fit into standard parking spaces when on the ground [7].