门克庆煤矿，位于鄂尔多斯市乌审旗图克镇，国家首批智能化示范矿井。李人立的儿子李雷就在这里工 作，同样是煤矿工人，父子的青春记忆却天差地别。两代人不同的青春记忆，是内蒙古能源行业迭代升 级历程的缩影。 如今在能源领域，内蒙古除了煤炭开采更智能、资源利用更高效、生产工艺更清洁、矿山环境更美丽、 矿区秩序更和谐，还肩负一项重要的使命。 【编者按】能源安全是关系国家经济社会发展的全局性、战略性问题。习近平总书记强调，"我们必须 从国家发展和安全的战略高度，审时度势，借势而为，找到顺应能源大势之道"。在习近平总书记提出 的"四个革命、一个合作"能源安全新战略指引下，我国新型能源体系建设取得积极进展，能源发展实现 新突破、开创新局面。 为充分展现能源领域新质生产力发展成效，《中国能源报》推出"深入践行国家能源安全"系列报道。 《中国能源报》将目光聚焦北疆，携手内蒙古自治区能源局、自治区矿山安全监管局，深入工作一线， 全方位呈现内蒙古在能源保供、安全治理与技术创新领域的坚实步伐与卓越成就。从顶层设计到基层实 践，多方合力，共同谱写能源高质量发展的崭新篇章。 本期为系列纪录片第一集——一块煤能走多远。 告别混沌，一块块煤炭来 ...

Core Insights - The "Evolving Energy: Ma Yifeng Annual Speech 2026" conference held in Qingdao attracted 2,000 offline participants and over 3 million online viewers, featuring major energy companies and investment firms [1][3] - Ma Yifeng's keynote highlighted a new trend in the renewable energy and dual carbon industry, emphasizing explosive growth in industry innovation and sharing 25 successful energy project case studies [3][5] - The conference included professional training sessions focusing on key areas such as electricity trading, virtual power plants, and energy storage, providing insights into the future of the renewable energy sector [5][6] Industry Trends - The conference showcased the increasing collaboration among large energy companies, state-owned enterprises, and investment firms, indicating a strong interest in developing innovative solutions for the energy sector [1][6] - Ma Yifeng's analysis of China's renewable energy expansion into Africa highlighted successful business models that adapt to local market needs, showcasing the potential for international growth [3] - The event facilitated networking opportunities through dedicated areas for resource exchange, enhancing collaboration and partnerships within the industry [6] Training and Development - The training sessions featured eight industry experts discussing critical topics such as the electricity spot market and new opportunities arising from market developments, indicating a focus on equipping companies for future challenges [5] - Participants expressed that the in-depth discussions and cutting-edge insights provided new perspectives on navigating the impending changes in the renewable energy landscape [5] Networking and Collaboration - The conference included innovative resource exchange areas designed to foster efficient collaboration among participants, highlighting the importance of building a cooperative ecosystem in the energy sector [6] - Attendees had the opportunity to visit leading projects and technologies, enhancing their understanding of practical applications and outcomes in the renewable energy field [6]

Core Insights - The research team led by Academician Li Can from the Dalian Institute of Chemical Physics has made significant progress in the field of artificial photosynthesis and biomanufacturing, specifically in synthesizing optically pure L-lactic acid using renewable energy sources like solar energy [1][2] - The team has developed a strategy that combines chemical catalysis and biological synthesis, utilizing dihydroxyacetone as an intermediate to convert carbon dioxide and water into L-lactic acid with a high conversion rate [1][2] Group 1 - The team achieved a conversion rate of 99% for dihydroxyacetone to L-lactic acid using Pichia pastoris cells, with a yield of over 100 grams per liter during fed-batch fermentation, showcasing a significant advantage over traditional glucose-based methods [1] - The research highlights the potential of using "liquid sunlight" as a basis for synthesizing various chemicals and high-end chemical products through green biomanufacturing [1][2] Group 2 - The strategy effectively combines the advantages of chemical catalysis for carbon dioxide conversion with the product selectivity of biological synthesis, allowing for the targeted biomanufacturing of high-end bio-based chemicals, including bulk food and feed macromolecular raw materials [2] - Future plans include further technological development and demonstration to scale up the industrial application of synthesizing optically pure L-lactic acid from carbon dioxide and water [2]