Core Viewpoint - The article discusses the recent revision and release of the "Management Measures for Green Product Certification and Labeling" by the State Administration for Market Regulation, marking a significant shift towards comprehensive and unified regulation of green product certification in China [1] Group 1: Green Product Certification Overview - Green products are defined as those whose resource, energy, environmental, and quality attributes meet relevant evaluation standards [1] - The management measures emphasize a unified approach with standardized product directories, evaluation standards, certification rules, and product labeling [1] Group 2: Certification Types - The certification includes two types: full certification, which assesses all green attributes of a product, and partial certification, which evaluates specific green attributes [1] - Full certification involves a comprehensive evaluation against green product standards, while partial certification focuses on selected attributes [1] Group 3: Implementation and Oversight - The management measures detail regulations on certification implementation, certificate management, label usage, and supervisory responsibilities [1] - Responsibilities of all relevant parties are clearly defined within the framework [1] Group 4: Current Status of Certification - As of now, the green product certification directory covers 122 types of products closely related to consumers, with nearly 40,000 valid certification certificates issued [1] - Over 8,000 enterprises have obtained certification under this system [1]

Core Viewpoint - Honeywell has launched a groundbreaking technology called Biocrude Upgrading, which converts agricultural and forestry waste into ready-to-use renewable fuels, addressing the emission reduction needs of industries like shipping [1][2] Group 1: Technology Overview - The Biocrude Upgrading process utilizes economically viable biomass such as wood chips and crop residues to produce low-carbon marine fuel, gasoline, and sustainable aviation fuel (SAF) [1] - This renewable marine fuel offers a high cost-performance alternative to traditional heavy fuel oil for ship operators, featuring higher energy density compared to other biofuels available in the market [1] Group 2: Industry Impact - The new technology allows for the on-site conversion of plant and agricultural waste into low-carbon bio-crude, thereby reducing transportation costs [1] - Honeywell's Biocrude Upgrading technology addresses the long-standing challenge of converting bio-crude into fuel that can match the performance of traditional fuels [1] Group 3: Innovation and Development - Over the past decade, Honeywell has continuously innovated, introducing various processes for producing renewable alternative fuels, with the new Biocrude Upgrading technology further enriching its portfolio [2] - The technology portfolio includes Ecofining, ethanol-to-sustainable aviation fuel (ETJ), Fischer-Tropsch Unicracking, and UOP eFining technology for producing e-fuels using green hydrogen and carbon dioxide [2]

Core Viewpoint - The company has successfully implemented a floodwater recovery system that not only alleviates flood pressure but also reduces water costs and promotes regional water resource recycling [1][4]. Group 1: Floodwater Recovery System Implementation - The company developed a low-cost floodwater recovery system after experiencing severe flooding in September 2021, which allowed for the collection and treatment of floodwater for production use [2][4]. - The system was operational by September 28, 2021, and significantly increased the daily recovery of floodwater from 7,200 cubic meters to 9,600 cubic meters after initial implementation [2]. Group 2: Economic and Environmental Benefits - The floodwater recovery system has supplemented the company's water needs, reducing reliance on the Yellow River and saving approximately 9,600 yuan daily in water costs based on a rate of 4.8 yuan per cubic meter [4]. - By November 30, 2025, the system had contributed a total of 64,809 cubic meters of production water, effectively addressing water supply challenges and enhancing ecological protection [4]. Group 3: Operational Maintenance and Innovation - The company has integrated the floodwater recovery system into its daily management, ensuring regular maintenance and monitoring to sustain its operational efficiency [5]. - Continuous innovation in floodwater recovery processes and the integration of smart water management systems are prioritized to enhance flood safety and resource efficiency [6].

据悉，北京市鼓励工厂结合行业特性、工艺流程、技术创新、产品场景等要素，在绿色发展、生态环境 等方面实施特色鲜明、亮点突出的项目，走出符合工厂自身特点、体现工厂自身特色的美丽之路。 据悉，美丽工厂是市级绿色工厂或绿色绩效评价中达到绿色基准企业（浅绿企业）及以上等级的工厂， 以绿色低碳、环境优美、智慧高效为导向，建设成内外兼备、与自然和谐共生的现代化工厂。 《建设指引》要求，加强固定源污染排放控制，通过采取源头防控、全流程管理、末端治理等措施，持 续降低厂区内各类大气和水污染物的产生与排放。推动用能结构低碳转型，在厂区因地制宜建设分布式 光伏、分散式风电、地源热泵等可再生能源利用项目，充分挖掘工厂余热余压利用空间，探索开展氢能 等新能源利用。提升能源利用效率，应用节能低碳新工艺、新技术、新产品，持续开展技术改造和设备 更新，工厂单位产品、工序能耗应达到国家和北京市相关行业能耗限额标准的先进值或标杆水平。提高 资源利用水平，持续推进工厂数字化智能化转型升级，促进工厂生产制造全过程的综合优化和效率提 升。提高绿色设计水平，降低原材料消耗强度，推动工业固废源头减量，提高一般工业固体废物综合利 用率，发展循环经济。同时建 ...

37年职业生涯中，他曾多次获得气矿和作业区先进个人。1992年让他尤为难忘。那年3月，成35井正值 施工，在妻子生病需要照顾时，邵林仍旧选择坚守井场。提及此事，他嗓音低沉："那时候生产任务 紧，少一个人进度就会受影响。"话音落下，是短暂的静默。同年6月，他刚做完阑尾炎手术，伤口未 愈，听说队里人手不足，又拖着病体返回岗位。 责任在于坚守，更在于关键时刻的挺身而出。1995年5月，罐26井搬迁屡遭村民阻拦。邵林巡查时，发 现有人盗窃物资，当即上前制止。事后队长提出奖励，他摆摆手："保护国家财产，是份内的事。" 脸庞黝黑，是岁月与阳光留下的印记;双手粗糙，每一道纹路都刻写着与管线、阀门交手的记忆。1月4 日，在中国石油西南油气田公司重庆气矿永川采输气作业区足202中心站，即将退休的邵林依然身姿挺 拔，目光专注，仔细地巡检着每处设备。"站好最后一班岗，心里才踏实。"37年如一日的坚守，凝结成 他朴实的话语。 1988年9月，邵林从东观技校毕业，投身川东油气开发一线。从轰鸣的钻塔到静谧的浅层气井，从老气 田的艰辛挖潜到智能化页岩气平台的全新课题，他的足迹遍布油气生产的各个角落。作业工、采气 工……岗位在变，但"干一行 ...

Core Viewpoint - The successful production of qualified products from a 200,000 tons/year ABS plant by Jilin Petrochemical Company, utilizing the continuous bulk method developed by Dalian University of Technology, marks a significant advancement in China's domestic capabilities in ABS technology and equipment [1][2]. Group 1: Technology and Production - The continuous bulk method for producing ABS offers advantages over traditional emulsion methods, including shorter processes, lower energy consumption, reduced investment, superior product performance, and environmental friendliness [1]. - The new ABS plant increases Jilin Petrochemical's total ABS production capacity to 1.8 million tons/year, positioning it among the top producers globally and promoting the high-end and green transformation of China's petrochemical products [1]. Group 2: Research and Development - Professor Li Yang's team at Dalian University of Technology has developed a complete independent intellectual property system covering process methods, product systems, and equipment design, focusing on high-end chemical materials [1]. - The ABS products produced using this new method exhibit characteristics such as pure white color, resistance to yellowing, low residual monomer content, and impact resistance that meets international leading standards, supporting the upgrade of China's ABS industry [1]. Group 3: Collaboration and Future Directions - The rapid transformation of this technology is attributed to a new collaborative model formed by Dalian University of Technology, which integrates original research, discipline-specific company transformation, and application by leading enterprises [2]. - The university plans to continue enhancing organized research and deepening the integration of industry and academia, supporting more high-level research outcomes to meet national demands and contribute to the upgrade of China's high-end chemical materials and manufacturing [2].

Core Viewpoint - The successful application of a self-developed precious metal catalyst by the company in the production of rubber antioxidant 4010NA marks a significant advancement in the rubber industry, enhancing product quality and reducing production costs [1] Group 1: Technological Development - The company has developed a precious metal catalyst to address issues with traditional copper-based catalysts, which have complex processes and quality issues due to copper ion loss [1] - After successful industrial trials in 2021, the company established the world's first fixed-bed continuous production facility for the precious metal catalyst with an annual capacity of 12,000 tons in 2022 [1] - The project team overcame several technical bottlenecks through close collaboration and multiple testing phases, leading to the successful application of the catalyst in the 4010NA production line [1] Group 2: Production and Market Impact - The application of the precious metal catalyst in the 4010NA facility has significantly reduced reaction pressure and optimized the ketone-alcohol ratio, enhancing the safety level of the production process [1] - The new technology is expected to substantially lower the production costs of rubber antioxidant 4010NA, thereby increasing its market competitiveness and supporting technological upgrades in rubber products [1]

Core Viewpoint - The establishment of the national-level pilot platform for fine chemical industry in Liaoning is a significant step towards enhancing technological innovation and industrial transformation in the region, as recognized by the Ministry of Industry and Information Technology [1][4]. Group 1: Platform Establishment and Collaboration - The pilot platform was established through a strategic collaboration between the government and the Chinese Academy of Sciences, utilizing a "government funding + technology equity" model [2]. - The platform aims to bridge the gap between scientific research and industrial application, focusing on five key areas: catalysts, pharmaceutical intermediates, electronic chemicals, polymer materials, and new energy materials [2][3]. Group 2: Technological Advancements and Achievements - The platform has successfully developed a complete process for low-cost production of key monomers for PEN, addressing critical challenges in the industry, and has been recognized as internationally advanced [3]. - Collaborations with prestigious institutions have led to the development of new processes for producing MMA, which is expected to reduce reliance on imports for high-end raw materials [3]. Group 3: Economic Impact and Future Plans - The platform has facilitated the industrialization of 12 projects, attracting over 3 billion yuan in investments, and is currently managing 16 pilot projects while holding a reserve of over 10 quality projects [4]. - Future plans include focusing on strategic emerging fields such as new energy materials and high-end electronic chemicals, enhancing digital transformation, and promoting green low-carbon technology [5].

Core Insights - The article highlights the dedication and commitment of an individual, Shao Lin, who has worked in the oil and gas industry for 37 years, showcasing the importance of perseverance and responsibility in the sector [1][2][3] Group 1: Career Journey - Shao Lin began his career in the oil and gas industry in September 1988 after graduating from a technical school, demonstrating a long-standing commitment to the field [1] - Throughout his career, he has held various positions, adapting to changes in technology and methods, from traditional drilling to modern shale gas platforms [3] - He has received multiple accolades for his contributions, reflecting his dedication and hard work in the industry [1] Group 2: Key Contributions - In 2009, Shao Lin played a crucial role in enhancing production at the Shuanglong gas field by analyzing data and implementing technical improvements, resulting in a significant increase in daily output [2] - He has actively mentored younger colleagues, emphasizing the importance of hands-on experience and knowledge transfer within the industry [2] - Shao Lin has consistently taken initiative in challenging situations, such as addressing equipment malfunctions and ensuring the integrity of operations [2][3] Group 3: Personal Philosophy - Shao Lin embodies the spirit of continuous learning, stating that one should learn throughout their life, which is vital in the ever-evolving oil and gas sector [3] - His commitment to the industry is evident in his willingness to tackle new challenges, even as he approaches retirement [3] - He expresses a deep emotional connection to his work, indicating a lifelong dedication to being part of the oil and gas community [3]

Core Insights - Zhejiang Huangxing Chemical Co., Ltd. has successfully applied phase change materials in lithium batteries for electric tools, addressing heat accumulation issues during fast charging and high discharge rates, with the technology patented [1] - The phase change material helps maintain a stable temperature by absorbing excess heat generated by the battery, which typically exceeds 70 degrees Celsius after 20 minutes of operation, thus extending the operational duration of the battery pack [1] Group 1 - The company has developed organic phase change materials due to their excellent chemical stability, non-toxic nature, and compatibility with battery materials, after rigorous screening of potential base materials [1] - Traditional passive cooling solutions like thermal silicone pads and graphite sheets are insufficient for managing the heat generated by lithium batteries, prompting the company's specialized R&D efforts [1] - The phase change composite material for lithium batteries is expected to achieve mass production by June 2024 [1] Group 2 - The research team has also developed phase change temperature control valves and thermal conductive materials for computer CPUs and GPUs, with products already exported to Europe and the United States [2] - The company plans to increase R&D investment to focus on next-generation smart phase change materials and wide-temperature composite phase change materials to meet global demand for efficient energy storage materials [2]