北极星智能电网在线 ?? 来源:国网吉林省电力有限公司 ???? 2024/4/15 14:38:08 ?? 我要投稿 ??

关键词: 电力通信变电站磷酸铁锂电池

电力交易员技能提升培训班 .

北极星智能电网在线讯 :4月1日，随着伊通220千伏 变电站 通信电源技改工程结束，方形铝壳结构、叠片式的 磷酸铁锂电池 第一次被应用在国网吉林省电力有限公司通信系统内。这是目前吉林省建成并投入试运行的首套 电力通信 磷酸铁锂电池系统。该系统存储容量1200安时，可在四平市伊通地区供电异常时保证伊通220千伏变电站通信站供电30小时。

在电力通信系统中，电源是“心脏”，电池则是保证通信站连续供电的重要设备。正常供电时，电池可协助平滑滤波改善供电质量，当供电出现异常或故障时，电池可作备用电源供电，保证电力通信系统安全、可靠运行。

“我们此前的通信站大多使用铅酸电池，但这种电池存在使用寿命短、能量密度低、充放电次数受限制、对环境不友好等缺点，难以匹配电力通信站能耗高、小型化、轻型化、免维护发展的趋势。”国网四平供电公司四级职员宋鑫说。

相较于铅酸电池，磷酸铁锂电池具有能量密度大、循环寿命长、安全性能好、绿色环保等优点。“磷酸铁锂电池使用磷酸铁锂作为正极材料，碳作为负极材料，不含镉、铅、汞等重金属元素，对环境无污染。”宋鑫表示，磷酸铁锂电池化学储能的方式既高效又安全环保。

该系统建设期间，国网四平供电公司通信专业人员与电池研发人员、动力环境监控系统研发人员多次协同沟通、深入研究，最终实现磷酸铁锂电池在该动力环境监控平台全量接入。

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March 28, 2024March 28, 2024 3 days ago Press Release 0 Comments

Sign up for daily news updates from CleanTechnica on email. Or follow us on Google News! Biden-Harris Administration Approves Seventh Offshore Wind Project

The Biden-Harris administration has just announced the Department of the Interior’s approval of the Sunrise Wind offshore wind project – the nation’s seventh approval of a commercial-scale offshore wind project under President Biden’s leadership. These seven projects have the potential to provide more than 8 gigawatts of clean, renewable energy to power roughly 3 million homes, and support the Administration’s goal of deploying 30 gigawatts of offshore wind energy capacity by 2030.

Bidenomics and the President’s Investing in America agenda are growing the American economy from the middle out and bottom up – from rebuilding our nation’s infrastructure, to driving over half a trillion dollars in new private sector manufacturing and clean energy investments in the United States, to creating good-paying jobs and building a clean energy economy that will combat the climate crisis and make our communities more resilient.

“The Biden-Harris administration continues to make historic progress in developing the American offshore wind industry, which is paving the way for good-paying union jobs in manufacturing, shipbuilding and construction,” saidSecretary Deb Haaland. “The Interior Department’s approval of the seventh offshore wind project marks another substantial step towards fulfilling our clean energy goals. In collaboration with Tribes, labor groups, industry, and partners nationwide, we are steadfast in our commitment to fostering clean energy growth that enriches communities, bolsters national energy security, and tackles the climate crisis head-on.”

“BOEM and our partners remain focused on implementing the Biden-Harris administration’s vision of approving 30 gigawatts of offshore wind energy capacity by 2030,” saidBureau of Ocean Energy Management Director Elizabeth Klein. “Through constructive, broad-based engagement, we are navigating potential conflicts and advancing the responsible growth of offshore wind. As we propel this industry forward, we eagerly anticipate further cooperation and progress with our partners.”

“Today’s offshore wind project approval, the seventh under President Biden’s leadership, continues a surge of momentum that the Biden-Harris administration is delivering for the American offshore wind industry and workers and communities across the country,” saidPresident Biden’s National Climate Advisor Ali Zaidi. “Just in the last few weeks, our Administration has issued guidance to expand pathways for offshore wind projects to be eligible for the Energy Communities tax credit bonus in the President’s Inflation Reduction Act, celebrated the completion of the nation’s first commercial-scale offshore wind project, proposed a second offshore wind sale for the Gulf of Mexico and finalized the first wind energy area in the Gulf of Maine, and announced another $450 million available for port grants through the President’s Bipartisan Infrastructure Law – including for port projects that support offshore wind. We will continue turning offshore wind opportunities into realities, with a bright future ahead as we grow an American industry that is creating good-paying union jobs, supporting our manufacturing boom, and tackling the climate crisis.”

BOEM has held four offshore wind lease auctions, which have brought in almost $5.5 billion in high bids, including a record-breaking sale offshore New York and New Jersey and the first-ever sales offshore the Pacific and Gulf of Mexico coasts. The bureau has also advanced the process to explore additional opportunities for offshore wind energy development in the U.S., including in the Gulf of Maine and offshore Oregon and the U.S. Central Atlantic coast. The Department has also taken steps to evolve its approach to offshore wind to drive towards union-built projects and a domestic-based supply chain.

The Sunrise Wind project will have a total capacity of 924-megawatt (MW) of clean, renewable energy that BOEM estimates could power more than 320,000 homes per year. The project will support more than 800 direct jobs each year during the construction phase and about 300 jobs annually during the operations phase. The lease area is located approximately 16.4 nautical miles (nm) south of Martha’s Vineyard, Mass., approximately?26.5 nm?east of Montauk, N.Y., and approximately 14.5 nm from Block Island, R.I. A map of the area can be found on BOEM’swebsite.

In response to comments from government partners, key stakeholders, and the public, and after considering project feasibility, BOEM selected a preferred alternative that includes fewer wind turbine generators than proposed by Sunrise Wind. This decision aims to accommodate geotechnical feasibility of the project, reduce impacts to benthic habitat and Atlantic cod, and meet the energy needs of New York, Massachusetts and Rhode Island.

Invaluable feedback on the project’s potential environmental impacts was received through nation-to-nation consultations with Tribes, input from federal, state and local agencies, and from public meetings and comments. The Record of Decision includes measures aimed at avoiding, minimizing and mitigating the potential impacts that may result from the construction and operation of the project. These measures include a commitment by Sunrise Wind LLC to establishing fishery mitigation funds to compensate commercial and for-hire recreational fishers for any losses directly arising from the project.

The Record of Decision is available on the BOEMwebsiteand will be published in theFederal Register in the coming days.

Courtesy of Department of Interior.

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北极星智能电网在线 ?? 来源:浙江省人民政府 ???? 2024/4/10 16:09:33 ?? 我要投稿 ??

关键词: 电网建设智能化输电线路

电力交易员技能提升培训班 .

北极星智能电网在线讯 :4月9日，浙江印发浙江省推动大规模设备更新和消费品以旧换新若干举措（浙政发〔2024〕10号），其中提到，持续推动老旧变电设备和 输电线路 改造、电网设施 智能化 升级，每年投资25亿元以上。

文件指出，推动能源设备更新改造。到2027年，完成煤电机组节能降碳改造1200万千瓦、灵活性改造400万千瓦、供热改造600万千瓦，完成石油储运设备更新50个以上，完成风电装机升级改造7万千瓦以上、光伏装机退役10万千瓦以上，完成用能设备节能改造15000台（套），推动老旧低功率充电桩换新5000个。

原文如下：

浙江省人民政府关于印发浙江省推动大规模设备更新和消费品以旧换新若干举措的通知

各市、县（市、区）人民政府，省政府直属各单位：

现将《浙江省推动大规模设备更新和消费品以旧换新若干举措》印发给你们，请结合实际认真组织实施。

浙江省人民政府

2024年4月2日

（此件公开发布）

浙江省推动大规模设备更新和消费品以旧换新若干举措

根据国务院《推动大规模设备更新和消费品以旧换新行动方案》，结合我省实际提出以下举措。

一、总体要求

以习近平新时代中国特色社会主义思想为指导，统筹扩大内需和深化供给侧结构性改革，实施设备更新、消费品以旧换新、回收循环利用、标准提升四大行动，进一步释放投资和消费潜力，培育新质生产力，加快推动高质量发展。

（一）坚持市场为主、政府引导。遵循市场规律，依靠市场提供多样化供给和服务，引导企业适当让利。更好发挥政府作用，打好政策组合拳，推动惠企利民，激发最大乘数效应。

（二）坚持标准牵引、扶优汰劣。以标准为基础，建立激励与约束相结合的长效机制，加快淘汰超期服役、高耗能高排放、具有安全隐患的产品设备，促进产业高端化、智能化、绿色化发展。

（三）坚持全面推进、重点突破。强化统筹谋划，明确目标任务，分领域分层级推进，清单化闭环式管理，破解堵点卡点，确保政策精准、服务便捷、群众有感。

二、重点任务

（一）实施设备更新行动。

到2027年，全省工业、能源、建筑、交通、农业等领域设备投资规模较2023年增长30%以上，重点行业主要用能设备能效基本达到先进水平，规模以上工业企业数字化研发设计工具普及率、关键工序数控化率分别超过93%、75%。

1.完成工业企业数字化改造。支持企业在设计、生产、仓储和运营等环节的数字化改造，到2027年规上工业企业数字化改造实现全覆盖。支持企业对装备、生产线、车间等进行智能化升级，到2027年新增未来工厂80家、数字化车间（智能工厂）600个（家）。（责任单位：省经信厅、省应急管理厅。列第一位的为牵头单位，下同）

2.加快重点行业技术改造。聚焦钢铁、石化、化工、建材、机械、金属制品、轻纺、船舶、汽车、电子等重点行业和“415X”先进制造业集群，大力推动生产设备、用能设备等更新和技术改造。实施千亿技术改造投资工程，每年组织实施技术改造项目5500个。开展石化化工行业老旧装置淘汰退出和更新改造，到2027年力争实现老旧生产装置更新70%以上。（责任单位：省经信厅、省发展改革委、省应急管理厅、省能源局）

3.实施能效标准引领。到2027年，推动钢铁等重点领域生产线（装置）能效全部达到基准水平以上，能效标杆水平产能比例超过50%。（责任单位：省发展改革委、省经信厅、省能源局）严格落实能耗、排放、安全等强制性标准和工艺设备淘汰目录要求，依法依规淘汰不达标工艺设备。（责任单位：省经信厅、省发展改革委、省生态环境厅、省应急管理厅、省能源局）

4.推动能源设备更新改造。到2027年，完成煤电机组节能降碳改造1200万千瓦、灵活性改造400万千瓦、供热改造600万千瓦，完成石油储运设备更新50个以上，完成风电装机升级改造7万千瓦以上、光伏装机退役10万千瓦以上，完成用能设备节能改造15000台（套），推动老旧低功率充电桩换新5000个。持续推动老旧变电设备和输电线路改造、电网设施智能化升级，每年投资25亿元以上。（责任单位：省能源局）

5.加快环保设备更新改造。推动全省环境监测重点实验室、省控以上水质和空气自动站智能化升级，老旧实验室大型仪器、水质自动站、空气自动站等设备更新。鼓励重点排污单位对污染源自动监测设备进行更新改造。推动锅炉等特种设备除尘、脱硫、脱硝、挥发性有机物治理设施改造更新和脱氮设备安装。推进化工园区化工生产废水集中处理设施建设，到2027年新建或改扩建化工废水集中处理设施（工业污水处理厂）26个（座）。（责任单位：省生态环境厅、省经信厅、省能源局）

6.加快老旧住宅电梯报废更新改造。定期组织开展住宅电梯摸排，加快报废更新不符合现行产品标准、安全风险高的老旧住宅电梯。推动交付年限15年以上的老旧住宅电梯报废更新或大修改造，到2027年累积报废更新或大修改造老旧住宅电梯4000台以上。推进既有住宅加装电梯，到2027年新加装电梯4800台以上。（责任单位：省建设厅、省市场监管局）

7.完成燃气老旧管道和设施设备改造。加快改造或迁建不符合规范要求的燃气厂站，到2027年完成老旧小区燃气管道更新改造项目420个以上、老旧燃气厂站更新改造70个以上。（责任单位：省建设厅）

8.推动市政基础设施更新改造和建筑节能改造。加快市政基础设施更新改造，实施城市生命线安全工程，因地制宜推动完善市政管网等配套物联智能感知设备。到2027年，改造1000个以上居民小区的二次供水（加压调蓄）设备，新建或改建城镇生活污水处理厂40座以上、生活垃圾处理厂10座以上，完成既有生活垃圾焚烧厂超低排放改造40座以上、城市垃圾转运站规范化改造400座以上。以建筑设备、外围护结构等为重点，推进存量建筑节能改造，到2027年完成既有公共建筑节能改造500万平方米以上。（责任单位：省建设厅、省发展改革委、省生态环境厅）

9.加快公共交通和船舶新能源化。每年更新电动公交车500辆，到2027年力争各设区市主城区城市公交车电动化比例达到95%，新增和更新新能源出租车（含网约车）比例达到90%以上。推进新能源船舶绿色航线建设，到2027年新增新能源货船30艘。（责任单位：省交通运输厅）

10.支持交通运输设备更新。加快推动重点区域路网和千吨级内河航道网设施设备更新，到2027年完成公路、航道数字化改造各1000公里。加快推动老旧营运柴油货车、老旧运输船舶及非道路移动机械淘汰更新，到2025年基本淘汰国三及以下老旧营运柴油货车、淘汰国二及以下非道路移动机械30000台，到2027年累计淘汰国四及以下排放标准营运柴油货车16000辆、老旧内河货船400艘。（责任单位：省交通运输厅、省生态环境厅）

11.加快渔船设备报废更新。深入推进海上“千船引领、万船整治”工程，推动对船龄20年以上的渔船进行报废更新，到2027年力争打造数字化、标准化、现代化新型渔船700艘以上。全面推进对船龄10―20年的渔船进行更新改造，到2027年力争完成10000艘以上渔船北斗三代终端安装、3000艘以上渔船设施设备更新改造。加大对海上综合执法装备的更新力度。（责任单位：省海洋经济厅）

12.加快农业机械装备和设施更新。加快淘汰老旧或国二及以下柴油农业机械，到2027年累计淘汰6000台（套）以上。加快高效低耗智能农业机械推广应用，到2027年大中型拖拉机、插秧机、联合收割机等主要农业生产作业装备更新率达到60%以上。加快现代设施农业发展，到2027年累计建设提升大棚面积达到20万亩以上。推进现代化农事（机）服务中心建设，到2027年新建或改建省级、区域性现代化农事（机）服务中心320个。（责任单位：省农业农村厅、省供销社）

13.推进高校基础设施提质工程。推动基础设施维修改造，全面提升办学条件，实施新建或改扩建项目116个，到2027年基本建成与经济社会发展需求、高校办学规模和内涵式发展相适应的高校基础设施支撑体系。（责任单位：省教育厅）

14.提升教育教学设施设备水平。深入实施一流学科建设工程，更新学科建设需要的先进设备，到2027年专业设备投资规模较2023年增长30%以上。推动普通高校基础教育教学设备提质，严格落实职业教育实训教学条件建设标准。实施中小学“午休躺睡”工程。（责任单位：省教育厅）

15.提升文化旅游设施设备水平。实施全省旅游景区转型提质行动计划，推动人工智能、增强现实等技术的应用，打造智慧旅游新体验。积极推动全省剧院数字化改造。到2027年，完成索道缆车、观光车船、游乐设备、演艺设备等文化旅游设备更新投资30亿元。（责任单位：省文化广电和旅游厅）

16.开展以县级为重点的医疗装备更新。推进医疗卫生机构装备和信息化设施迭代升级，到2027年县级以下医疗卫生机构装备配置达标率达到100%。支持具备条件的医疗机构加快医学影像、放射治疗、远程诊疗、手术机器人等医疗装备更新改造，到2027年力争医疗装备投资规模较2023年增长30%以上。（责任单位：省卫生健康委）

17.推进医疗卫生基础设施建设。加快推动浙江大学医学院附属第一医院余杭院区二期建设工程（国家医学中心〔筹〕）、省公共卫生临床中心建设。争取国家医疗卫生应急综合演训基地项目（东部）落户浙江。推动医疗卫生机构消防安防基础设施设备更新改造。推进公立医院病房改造，优化病房结构，完善病房设施，到2027年2―3人间病房比例超过80%，适度提高以妇产科、儿科、老年科等为重点的单人间病房比例。（责任单位：省卫生健康委）

18.推动安防设备更新改造。开展前端物联感知设备智能化升级，加快交通枢纽、交通道路等重点场所视频监控和卡口类配套安防设备更新改造，到2027年新建或改建城市前端设备智能化比例达到100%，农村重点部位视频监控无盲区。（责任单位：省公安厅）

（二）实施消费品以旧换新行动。

到2027年，全省汽车以旧换新50万辆，新能源汽车年销售量达到100万辆、渗透率达到50%以上，家电年销售量较2023年增长20%。

1.开展汽车以旧换新。每年组织开展汽车以旧换新促销、巡展活动不少于50场，鼓励汽车企业推出以旧换新、购新能源车送充电桩等活动。严格执行机动车强制报废标准和车辆安全环保检验标准，依法依规淘汰符合强制报废标准的老旧汽车。推动杭州市持续优化小客车调控政策。（责任单位：省商务厅、省公安厅、省生态环境厅，杭州市政府）

2.推动电动自行车淘汰更新。鼓励电动自行车生产厂家、销售商采取旧车折价回购并出售合规新车的方式，开展电动自行车以旧换新。实施非标电动自行车清理整治，严厉打击违法生产、销售、改装等行为，到2027年全面淘汰备案非标电动自行车。（责任单位：省市场监管局、省公安厅、省商务厅）

3.鼓励家电产品以旧换新。支持家电销售企业联合生产、回收企业开展以旧换新促销活动，开设线上线下家电以旧换新专区，对以旧家电换购节能新家电的消费者给予优惠。（责任单位：省商务厅、省经信厅）推行消费争议先行赔付，引导商家积极开展无理由退换货服务承诺。（责任单位：省市场监管局）

4.推动家装消费品换新。通过政府支持、企业让利等方式，支持居民开展旧房装修。实施“厨卫换新”惠民工程。鼓励家居行业、重点企业开展以旧换新、旧房装修等促销活动，各乡镇（街道）、村（社区）、小区在场地使用上给予支持。持续推进困难老年人居家适老化改造，实现愿改尽改。推动家装样板间进商场、进社区、进平台，鼓励企业充分利用虚拟现实技术、直播等方式，开展线上样板间展示、宣传等营销活动。（责任单位：省商务厅、省民政厅、省建设厅）

（三）实施回收循环利用行动。

到2027年，全省建成再生资源集中分拣处理中心300个、再生资源回收站点15000个，二手车交易量增长至160万辆以上，报废回收机动车超过65万辆。

1.建设废旧产品设备回收网络。建立健全回收站点、分拣中心和集散交易市场一体化的废旧物资回收体系，到2027年实现“县县全覆盖”。优化报废汽车回收拆解企业布局，鼓励回收企业提供上门取车、线上回收、免费拖车等服务。完善公共机构、国有企事业单位废旧产品设备回收渠道，推动行政事业单位报废物资统一回收。（责任单位：省商务厅、省财政厅、省国资委、省机关事务局、省供销社）

2.加快二手商品流通交易。放宽二手车经营主体准入，推动在二手车交易市场设置登记服务站。大力发展二手车出口业务。推动二手电子产品交易规范化，防范泄露及恶意恢复用户信息。支持手机、平板电脑、智能手表等电子产品销售企业开展二手产品鉴定、翻新维修和销售业务。（责任单位：省商务厅、省公安厅、省市场监管局）

3.发挥互联网平台渠道作用。推动大型电子商务平台建立“换新+回收”渠道，构建逆向物流系统，促进废旧产品循环利用。推广“互联网+二手”模式，鼓励龙头平台企业制定推动跨品类置换措施，促进闲置物品流通。（责任单位：省商务厅、省市场监管局）

4.加快再制造产业培育和产品梯次利用。鼓励对具备条件的汽车零部件、工程机械、机床工具等设备实施再制造。（责任单位：省经信厅、省发展改革委）强化退役动力电池在储能等领域梯次利用，探索开展风电、光伏设备残余寿命评估，推进设备及关键部件梯次利用。（责任单位：省发展改革委、省经信厅、省科技厅、省国资委、省能源局）

5.推动资源高水平再生利用。推进报废汽车、退役光伏组件、废旧家电、废旧电池、废旧轮胎等再生资源分类利用和集中处置。支持衢州市、丽水市发展废钢铁精深加工产业，金华市、台州市发展废有色金属精深加工产业，嘉兴市深化退役光伏设备回收利用关键技术研发。逐步提高再生材料使用比例，到2027年钢铁行业废钢比例达到50%。率先建设符合国际标准的再生塑料使用信息化追溯系统，推广海洋塑料治理“蓝色循环”模式。（责任单位：省发展改革委、省经信厅、省生态环境厅，嘉兴市、金华市、衢州市、台州市、丽水市政府）

（四）实施标准提升行动。

到2027年，参与制修订国家标准100项以上，发布省级地方标准80项以上、“浙江制造”标准200项以上，培育“双碳”认证企业200家以上。

1.加快完善能耗、排放标准。推进火电、炼化、多晶硅等行业能耗限额国家标准和充电桩、电机泵、冷水机组等重点用能设备能效国家标准升级。加快制修订严于国家标准的纺织产品、金属铸件、锅炉、电炉等重点用能产品能效限额省级地方标准，以及锅炉大气污染物排放、汽车维修行业污染物排放等强制性省级地方标准。（责任单位：省市场监管局、省发展改革委、省经信厅、省生态环境厅、省能源局）

2.强化产品技术标准提升。提升汽车、家电、家装等大宗消费品质量标准水平，加快完善新能源汽车整车安全、电机系统等标准。建设标准创新型企业，打造一批重点消费品标准“领跑者”。建立健全碳标签、碳标识等标准认证体系。（责任单位：省市场监管局、省发展改革委、省经信厅、省生态环境厅）

3.加强资源循环利用标准供给。鼓励电子商务平台完善“互联网+二手”服务标准。落实二手货品质鉴定和交易市场管理、电子产品二手交易中信息清除等国家标准，推动家具绿色设计、再生铜等国家标准升级，制定循环再利用纤维制品、再生塑料等资源循环利用标准。推进建筑垃圾、蓄电池回收处理等循环经济标准化试点项目建设。（责任单位：省市场监管局、省发展改革委、省经信厅、省建设厅、省商务厅）

4.强化国内国际标准衔接。参与制定电子商务交易、绿色直播、文化旅游等领域相关国际标准、国家标准。推动更多企事业单位参与国际标准制定，并在碳达峰碳中和、数字经济等优势领域提出国际标准提案。强化技术性贸易措施应对与服务，加强质量标准、检验检测、认证认可等国内国际衔接。（责任单位：省市场监管局、省商务厅、省文化广电和旅游厅）

三、保障措施

（一）加大设备更新政策支持力度。积极争取中央预算内投资、超长期特别国债等资金，支持符合条件的设备更新、循环利用、标准提升项目。持续实施生产制造方式转型样板项目计划，引导制造业加快高端化、智能化、绿色化技术改造。统筹省住房与城市建设专项资金、省建筑业碳达峰碳中和奖补资金，支持加快建筑和市政基础设施更新。统筹利用省交通运输发展专项资金，支持老旧营运柴油货车淘汰、重载营运货车新能源化及内河新能源船舶更新、老旧货船淘汰等。统筹中央城市交通发展奖励资金和省级新能源汽车推广应用奖补资金，支持新能源公交车更新等。持续实施好中央和省级农机报废更新补贴（偿）、农机购置与应用补贴等政策，支持老旧农业机械更新。统筹中央和省级渔船更新改造补助资金，支持渔船报废更新和设施设备更新改造。严格落实设备更新和技术改造贷款贴息政策。鼓励国有企业加快设备更新。（责任单位：省发展改革委、省经信厅、省财政厅、省建设厅、省交通运输厅、省农业农村厅、省海洋经济厅、省国资委）

（二）加大以旧换新政策支持力度。坚持省市县三级联动支持消费品以旧换新，利用中央财政安排的节能减排补助资金促进汽车更新消费。支持地方统筹中央现代商贸流通体系资金、省级商贸和开放发展财政专项资金，加大家电等耐用消费品以旧换新力度，鼓励有条件的地方对消费者购买绿色智能家电给予补贴。落实政府绿色采购政策，实施节能产品、绿色产品和环境标志产品优先采购和强制采购，持续推动政府采购支持绿色建材促进建筑品质提升试点工作。（责任单位：省财政厅、省建设厅、省商务厅）

（三）优化金融支持。运用中央银行货币政策工具，引导金融机构加强对设备更新和技术改造的支持，2024年力争全省制造业中长期贷款新增超过4000亿元。推动银行机构加强对绿色智能家电生产、服务和消费的金融支持。鼓励金融机构在依法合规、风险可控前提下，适当降低乘用车贷款首付比例，合理确定汽车贷款期限和信贷额度。推动金融租赁、融资租赁公司发挥“融资+融物”的经营优势，强化省属国有融资租赁企业带头作用，为需求主体提供设备直接租赁、售后回租等金融服务。（责任单位：人行浙江省分行、省国资委、省地方金融局、金融监管总局浙江监管局）

（四）加强要素保障。将生活垃圾分类收集、中转贮存及再生资源回收设施建设纳入公共基础设施用地范围，优先保障用地需求，符合划拨条件的采用划拨方式供地，需有偿使用的应低于同类地段同类性质的供地价格。加强企业技术改造项目用能要素保障，开辟节能审查绿色通道，通过节能技术改造产生的节能量，可用于平衡新上项目用能需求。提升服务质效，落实落细各项税收支持政策。（责任单位：省自然资源厅、省税务局、省能源局）

（五）强化创新支撑。聚焦各领域重大技术装备研发和生产的关键共性技术及科学问题，通过“揭榜挂帅”“赛马”等机制开展重大项目攻关，到2027年组织实施重大科技项目200个以上，取得重大国产化替代成果100项。提升省实验室、省技术创新中心、省制造业创新中心等高能级创新平台建设质效，推进概念验证中心、中试基地建设。深入实施制造业首台（套）提升工程，到2027年新培育认定首台（套）产品1000项以上，通过保险补偿、应用奖励等方式支持首台（套）产品的推广应用。（责任单位：省科技厅、省经信厅）

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Thursday, Apr 11 2024

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WASHINGTON, D.C. — Today the U.S. Bureau of Land Management (BLM) published final rules to govern leasing and rental rates for renewable energy projects on public lands. The final rules closely follow recommendations from the Solar Energy Industries Association (SEIA) to streamline clean energy development on federal lands.

The new rules will:

Reduce rents and fees for renewable energy projects through 2035 and eliminate duplicative payments for renewable energy developers;.

Extend lease terms for renewable projects to 50 years;.

Remove competitive leasing requirements in priority development areas; and .

Make it easier to develop standalone energy storage projects on public lands. .

Following is a statement from Abigail Ross Hopper, president and CEO of SEIA on BLM’s final rules:

“Today the U.S. Bureau of Land Management (BLM) codified SEIA’s recommendations to make it faster, easier, and cheaper to build clean energy projects on public lands. We need to pull every lever we can to efficiently deploy clean energy, and our nation’s public lands remain an untapped resource. BLM’s new rules are a smart step forward and will help to reverse decades of preferential treatment for fossil fuel interests.

“We commend BLM for working alongside the solar and storage industry to deliver thoughtful rules that will help us strengthen the grid and deliver reliable clean energy to more consumers. We will continue to push for pragmatic solutions that will help us achieve our ambitious clean energy goals.”

###

About SEIA®:

The Solar Energy Industries Association® (SEIA) is leading the transformation to a clean energy economy, creating the framework for solar to achieve 30% of U.S. electricity generation by 2030. SEIA works with its 1,000 member companies and other strategic partners to fight for policies that create jobs in every communityand shape fair market rules that promote competition and the growth of reliable, low-cost solar power. Founded in 1974, SEIA is thenational trade association for the solar and solar + storage industries, building a comprehensive vision forthe Solar+ Decade through research, education and advocacy. Visit SEIA online atwww.seia.organd follow @SEIA on Twitter, LinkedIn and Instagram.

Media Contact:

Jen Bristol, SEIA's Senior Director of Communications, [emailprotected] (202) 556-2886

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April 4, 2024 1 week ago US Department of Energy 0 Comments

Sign up for daily news updates from CleanTechnica on email. Or follow us on Google News! New Tool Estimates Cost To Build New Pumped Storage Hydropower Facilities To Support a Clean Energy Grid

Mountains—could soon store a whole lot of clean energy. These vertically blessed places are ideal spots for a well-established form of energy storage that is getting renewed attention: pumped storage hydropower.

As the country transitions to a clean power grid, researchers are searching for the best ways to store energy to use when winds slow down, clouds block the sun, and the grid needs a boost. Some experts are hoping to forge better batteries, like the well-loved lithium-ion batteries that power electric cars. But batteries are like cheetahs—they often run best for short distances.Pumped storage hydropowermay be older technology but, like us endurance-running humans, can outlast their competition, often storing energy for eightto 12 hours at a time or more. Utility-scale batteries are often too expensive if they are built to store more than four hours of energy.

“Pumped storage hydropower is maybe the most promising energy storage solution we have to achieve the huge ramp up needed to achieve a clean electricity sector,” said Daniel Inman, a researcher at the National Renewable Energy Laboratory (NREL) who studies the economics behind these energy storage technologies.

Pumped storage hydropower plants rely on two reservoirs, one situated at a higher elevation, to store energy. Using excess energy from wind turbines, solar panels, and other power plants, water is pumped up into the top reservoir; when the grid needs more energy to meet demand, that water is released and flows down, spinning a turbine to generate clean electricity.

Despite their great promise, few new pumped storage hydropower facilities have been built since the 1970s—in part because these technologies often come with high upfront costs and reservoirs can impact the environment, especially if they are connected to a river. Today, investors are considering a more environmentally friendly option: closed-loop systems, which are separated from naturally flowing waterways.

But the decades-long gap since a pumped storage facility was last constructed in the United States makes it difficult to predict how much closed-loop facilities might cost, especially for people and organizations without much experience building these types of plants. And that means developers and grid planners lack the data needed to make informed decisions about how many new facilities the country could or should build to support its evolving grid.

That is why Inman—along with fellow NREL researchers Stuart Cohen, Vignesh Ramasamy, and Evan Rosenlieb—created anew cost-estimation toolthat can evaluate the potential construction and labor costs associated with closed-loop pumped storage hydropower plants.

Pumped storage hydropower is the biggest source of grid-scale energy storage capacity in the United States,accounting for about 96% in 2022. And yet, according to Inman, closed-loop pumped storage hydropower has been overlooked in the last decade, despite the fact that the technology protects ecosystems better than most traditional open-loop plants (those that are built alongside rivers). Pumped hydro facilities also provide grid inertia—if a snag cuts off power temporarily, a facility’s large turbines continue spinning, helping to bridge that power gap.

Earlier, in 2017, researchers at Australian National Universitypublished a basic cost estimation tool for pumped storage hydropower. While their tool provides broad, generic cost estimates using a few core characteristics of pumped storage systems, the NREL model is far more detailed. With this new tool, users can select a wider range of desired system characteristics and account for local geology, labor rates, and inflation, among other factors.

“This tool allows potential project developers to get a ballpark figure for what a particular facility might cost,” Inman said. “And a more realistic cost estimation would allow us to develop capacity expansion modeling results that are more realistic.”

For grid planners, this tool could provide a more accurate picture of how many pumped storage hydropower facilities could reasonably be built over the coming decades—an important metric in understanding what kind of energy storage the country’s future grid might have or need.

To create a reliable and resilient clean power grid, the world is likely to need both batteries and new pumped storage hydropower facilities. Now, thanks to NREL’s new cost estimation tool, it is easier than ever to estimate how and where these two technologies can work together to build that future.

Learn more about NREL’s pumped storage hydropower cost estimation tool. And remember tosubscribe to the NREL water power newsletter,The Current, to make sure you don’t miss a water power update.

By Caitlin McDermott-Murphy, the Department of Energy, NREL

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北极星智能电网在线 ?? 来源:国家电网报 ??作者:李泽鹏 周楠?? 2024/3/26 15:43:28 ?? 我要投稿 ??

关键词: 绿色数据中心节能降耗国网河南电力

北极星智能电网在线讯 :3月中旬，河南省工业和信息化厅公布2023年度河南省省级 绿色数据中心 认证结果，国网河南省电力公司数据中心成为首批省级绿色数据中心之一。

该公司从管理、技术方面共同发力，大力推进 节能降耗 。在管理方面， 国网河南电力 组建节能降耗柔性团队，全量管理耗能设备，实时掌握设备运行状态，并结合用能情况制订数据中心节能降碳工作方案及分级分类管控措施。在技术方面，国网河南电力在数据中心引进多种节能降耗技术，引入水冷、全变频等技术，并搭建能耗预测及动态分析模型，动态调控高能耗设备运行工况。

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北极星智能电网在线讯 :北极星输配电网获悉，1月25日，工信部等九部门印发《原材料工业数字化转型工作方案（2024―2026年）》，其中在新技术应用场景研发工程中提到，生产调度及巡检，基于产品价值链的多装置动态优化、基于数字孪生的管网调 度执行、基于物料平衡的调度排产优化、装置静态反应模型及效益核算、智能外操 巡检、高空管廊和储运罐区及变电站智能巡检、特种 机器人 作业等。

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January 24, 2024 6 hours ago Guest Contributor 0 Comments

Sign up for daily news updates from CleanTechnica on email. Or follow us on Google News ! When it comes to the transition to clean energy, 2023 was quite a year for progress: record-breaking amounts of solar installed in the United States, a solid drop in carbon emissions from the US power sector, more than one million electric vehicles sold in the country for the first time, “breakneck” growth in renewable energy globally, and more.

But the fact that 2024 is a leap year seems apt for a period in which the US clean energy market seems poised to leap to a whole new level, in exciting and even startling ways. Here are a few predictions about what to expect in the coming year.

Solar will have its biggest year ever .

Solar and wind have been clean energy generation superstars for a while now, and 2024 should be no exception. While preliminary year-end data from the US Energy Information Administration (EIA) show solar’s impressive 2023, EIA projects that 2024 will be even bigger for solar installations, with an anticipated 63 percent more than the 2023 tally. That growth would increase total US solar capacity (including rooftop solar) by more than 30 percent. And EIA projects the capacity of wind power, already the largest source of renewable electricity in the country, to grow 4.7 percent.

Solar and wind together will leap past coal .

With all that new generating capacity, wind turbines and solar panels will be producing appreciably more electricity than in years past. Solar could generate 41 percent more in 2024 than in 2023, and wind 7 percent more, according to EIA. For wind, that would be two and a half times as much electricity as it produced in the United States in 2014, and would increase its generation to 11 percent of the US supply. For solar, the decade will have brought it from well below one percent of US electricity supply in 2014 to 7.5 percent in 2024 (again, with rooftop solar).

All that points to a watershed moment for solar+wind: EIA says , “We expect solar and wind generation together in 2024 to overtake electric power generation from coal for the first year ever.” In fact, solar and wind could overtake coal by a sizeable margin. Taking small solar into account, solar and wind together could generate almost 30 percent more electricity than coal this year.

Renewables will reach one-quarter of US electricity .

The growth in wind and solar also suggests another watershed moment is in the offing for US renewable electricity. While hydroelectric generation depends at least as much as some other renewables on the vagaries of the weather (precipitation and snowpack, in hydro’s case), EIA projects production closer to the long-term hydro average, after a few down years. It also suggests that US geothermal plants may generate at close to their recent average.

Add hydro and geothermal generation to that from wind and solar and you can see another notable milestone in clean energy’s progress: those four renewable energy sources could account for fully one-quarter of US electricity this year, or even a little more. That would be double their contribution of a decade ago. And that progress could set up fossil-fuel generation (chiefly gas and coal) to drop below the 50 percent mark soon after.

US offshore wind will produce a record amount .

This one doesn’t exactly involve going out on a limb, but 2024 should mark a notable leap for offshore wind in the United States. The two projects that were under construction at the end of 2023—off the coasts of Long Island and Massachusetts—should reach full power in 2024.

And when they do, they’ll represent a celebration-worthy increase in the number of US offshore wind turbines (from 7 to 81) and offshore wind megawatts (from 42 to 980, given more powerful turbines). Those leaps should get us enough electricity generation to meet the needs of the equivalent of more than a half million Northeast households. And they should pave the way for the many other US offshore wind projects under development.

Through 2024, and beyond .

None of this progress is a done deal, and each of the renewable energy technologies faces a lot of headwinds, despite the sector’s many clear benefits. Higher interest rates, for example, hit capital-intensive renewables harder than some other options. Even if things do roll out as projected, EIA projects generation from gas plants—the largest single source of electricity on our grid—will increase in 2024, albeit at an appreciably lower rate than in recent years. Making real—and accelerated—progress is going to take continued action: ramping up the US clean energy workforce and the capacity to manufacture and install solar panels and wind turbines, pushing for ever-stronger state/regional/federal policies to remove barriers and drive efficiency, pushing back on disinformation about all these technologies, and making sure equity is central to the clean energy transition.

But those leaps are also just a taste of the surges and crossover points we can expect in 2024. There’s also plenty more to watch for. Montana, for example, is about to have more installed wind capacity than coal. Energy storage capacity (think batteries) may grow a stunning 80 percent nationally. And, since electrification is also key to our transition, keep an eye on heat pumps, which are now outselling gas furnaces in the United States and are set to keep driving oil and gas out of our homes and businesses.

Clean energy has a lot going for it and has long been well worth serious attention. This leap year should be no exception.

Courtesy of Union of Concerned Scientists, The Equation . By John Rogers , energy campaign analytic lead.

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Only two forms of clean energy can currently provide the scale of power needed to keep electricity flowing 24/7, while the world transitions away from fossil fuels. Both hydropower and nuclear power offer the non-stop baseload power required for sustainable economic growth and improved human welfare.

Nuclear energy already provides around a quarter of the world’s low-carbon electricity. It offers large amount of reliable, dispatchable power providing stability and resilience to the electrical grid and backing up variable renewables such as solar and wind when sunshine or wind are lacking.

According to a 2022 report from the International Energy Agency (IEA): “Nuclear energy can help make the energy sector's journey away from unabated fossil fuels faster and more secure.”

Wind and solar are expected to lead the push to replace fossil fuels. But IEA experts advise that electricity grids also need more stable, resilient and dispatchable power to keep the flow of energy going non-stop. This cannot currently be provided by renewables alone.

Gas has been providing this stability, but it still emits greenhouse gases. Hydropower can also provide grid stability, but only in specific environments.

Like hydro, nuclear power does not release any carbon during its use.

Aside from its low carbon credentials, nuclear power has other features that further support energy supply security and the clean energy transition. For example, one large nuclear power plant can replace multiple coal-fired power plants to provide the same level of energy. Or small modular reactors could be slotted in to replace the old coal-fired plants of similar size, on the same site.

Energy-intensive industries, such as steel production, which use coal for heating and hydrogen production, could also be decarbonized using nuclear power, thanks to the ability of advanced reactors to produce high temperature steam.

Nuclear electricity production costs are less sensitive to changes in fuel prices than electricity from oil and gas. Uranium is available from a range of diverse producer countries, and is incredibly energy dense, meaning comparatively low volumes are required. Enough uranium fuel for several years of electricity production can also be easily stored on the site of nuclear power plants.

When compared with other sources of electricity from cradle to grave, nuclear energy has the lowest carbon footprint , uses fewer materials and takes up less land. For example, solar power needs more than 17 times as much material and 46 times as much land to produce one unit of energy.

Nuclear power is also the second safest source of energy in the world and nuclear waste is carefully managed and regulated . Nuclear energy has some challenges, including high upfront costs. But over their long lifetime, nuclear power plants produce some of the most competitively priced low-carbon energy.

As IAEA Director General Rafael Mariano Grossi wrote in his recent op-ed for the World Economic Forum in Davos : “Nuclear is one of the safest, cleanest, least environmentally burdensome and — ultimately, over the lifetime of a nuclear power plant — one of the?cheapest sources of energy available.”

These benefits are being increasingly recognised by environmental activists and world leaders. For example, at COP28 in Dubai, leaders from 22 countries came together to sign a declaration to triple global nuclear energy capacity by 2050 to meet climate goals and energy needs.

“After 28 years in the wilderness, nuclear is finally having its moment at the world’s most important gathering on climate change—and not a moment too soon,” said Zion Lights, a former UK spokesperson for the environmental movement Extinction Rebellion. “As someone who once protested against nuclear energy and changed her mind about it, it is heartening to see just how much attitudes to nuclear energy have changed.”

This year will see the first ever Nuclear Energy Summit , hosted jointly by the IAEA and Belgium, on 21 March 2024.

Co-chaired by IAEA Director General Rafael Mariano Grossi and Belgian Prime Minister Alexander De Croo, it will be the highest-level meeting to date exclusively focused on the topic of nuclear energy.

“More and more countries are either planning to introduce nuclear power in their energy mix or expand already existing nuclear energy programmes. We have seen a clear positive shift in recent years, with a growing realization that nuclear energy is an indispensable part of the solution to some of the most pressing global challenges of our time,” said Director General Grossi. .

Biden-Harris Administration Announces $254 Million to Decarbonize America’s Industrial Sector and Revitalize Domestic Manufacturing .

49 Projects Across 21 States and a New Funding Opportunity will Help Advance Next-Generation Technologies to Significantly Cut Emissions and Support President Biden’s Efforts to Build a Clean Energy Economy

WASHINGTON, D.C. — In support of President Biden’s Investing in America agenda , the U.S. Department of Energy (DOE) today announced $171 million for 49 projects across 21 states to reduce industrial greenhouse gas (GHG) emissions and accelerate the development of innovative decarbonization technologies. DOE also announced that applications are open for an $83 million funding opportunity to decrease emissions from hard-to-decarbonize industrial sectors, which represent roughly 30 percent of total U.S. carbon emissions.?Today’s announcements support DOE’s Industrial Heat Shot and Clean Fuels & Products Shot and will help the nation meet the Biden-Harris Administration’s ambitious goal of a net-zero emissions economy by 2050. Advancing next-generation technologies that reduce harmful emissions is a key component of President Biden’s Investing in America agenda to tackle the climate crisis, create new, good-paying jobs across the nation, and strengthen America’s manufacturing and industrial competitiveness.

“Today’s announcement will help advance the innovative technologies we need to lower costs and improve energy efficiency in America’s factories and industrial centers,” said U.S. Secretary of Energy Jennifer M. Granholm. “Ensuring America's industrial sector and its robust workforce remain strong and competitive is key to maintaining our nation’s edge as a global economic powerhouse and accelerating President Biden’s vision of a strong, made-in-America clean energy future.”

Accelerating Groundbreaking Emissions-Reducing Technologies

Managed by DOE’s Industrial Efficiency and Decarbonization Office , the 49 selectees will support high-impact, applied research, development, and pilot-scale technology validation and demonstration (RD&D) projects aiming to reduce energy usage and GHG emissions from industrial subsectors, such as the chemicals industry which accounts for about 40 percent of all industrial energy use and emissions in the United States. The projects will also advance cross-sector industrial decarbonization approaches to tackle challenges common across various industries.

Of the projects selected, 16 will be led by private industry, 22 by academic institutions, 3 by non-profit organizations, and 8 by DOE National Laboratories. Selected projects will advance decarbonization technologies in the following areas:

Decarbonizing Industrial Heat (10 projects, $25.3 million): Selected projects will accelerate high-impact technology innovations for equipment and components to decarbonize thermal processes across the industrial sector. .

Low-Carbon Fuels Utilization R&D (6 projects, $20.7 million): Selected projects will focus on research, development, validation, and demonstration needed to accelerate the commercial readiness of hydrogen-fueled process heating technology and low-carbon-input, flexible CHP (combined heat and power). .

Exploratory Cross-Sector R&D (5 projects, $14 million): Selected projects, partially funded by DOE’s Advanced Materials and Manufacturing Technologies Office , will focus on emerging R&D areas for technologies and materials that enable industrial decarbonization and significantly increase energy efficiency. .

Decarbonizing Chemicals (6 projects, $30.5 million): Converting between chemical building blocks to create consumer and industrial products, such as fuels, polymers, and paints, is incredibly energy intensive. Selected projects will focus on decarbonization technologies for high-volume chemicals with significant CO2 emissions, including advanced separations processes, advanced reactor systems, and dynamic catalyst science. .

Decarbonizing Iron and Steel (7 projects, $37 million): Selected projects, partially funded by DOE’s Hydrogen and Fuel Cell Technologies Office , will focus on decarbonization opportunities in iron and steel production, including innovative manufacturing technologies to enable decarbonization; electrification of existing manufacturing processes; overcoming challenges associated with utilizing hydrogen in steelmaking; and addressing scrap contaminants in recycling. .

Decarbonizing Food and Beverage Manufacturing (5 projects, $11.1 million): Selected projects will focus on low- and zero-carbon solutions for process heating, cooling, and refrigeration in a wide variety of energy-intensive food and beverage operations. .

Decarbonizing Cement and Concrete (5 projects, $20 million): Selected projects will address cement’s direct process emissions and will accelerate the commercial readiness of emerging low-carbon or net-zero technologies for the cement and concrete industry that provide energy savings and other benefits such as reduced complexity and improved process efficiency and optimization. .

Decarbonizing Forest Products (5 projects, $12 million): Selected projects will focus on decarbonization opportunities in energy-intensive drying, paper forming, and pulping processes. .

Selection for award negotiations is not a commitment by DOE to issue an award or provide funding. Before funding is issued, DOE and the applicants will undergo a negotiation process, and DOE may cancel negotiations and rescind the selection for any reason during that time.

More information on the projects announced today can be found here .

Tackling Decarbonization Challenges in Energy- and Emissions-Intensive Industries

The Energy- and Emissions-Intensive Industries (EEII) funding opportunity will focus on applied RD&D for the highest GHG-emitting industrial subsectors, specifically: chemicals and fuels; iron and steel; food and beverage; building and infrastructure materials (including cement and concrete, asphalt pavements, and glass); and forest products. Together, these industries account for more than 65 percent of U.S. industrial manufacturing emissions, which jeopardize public health and pollute global ecosystems. Decarbonizing these industries is essential to decarbonizing supply chains and meeting President Biden’s clean energy and climate goals.

This funding opportunity will also include a joint topic with the? Hydrogen and Fuel Cell Technologies Office and the? Office of Fossil Energy and Carbon Management focused on pre-front-end engineering and design (pre-FEED) studies that support the development of decarbonized industrial processes using innovative, pre-commercial technologies.

Concept papers are due March 19, 2024, at 5:00pm ET, and full applications are due June 11, 2024, at 5:00pm ET. DOE's Office of Energy Efficiency and Renewable Energy envisions awarding multiple financial assistance awards in the form of cooperative agreements. The estimated period of performance for each award will be approximately 12 to 36 months. Learn more about this funding opportunity.

This funding is part of DOE’s? Technologies for Industrial Emissions Reduction Development Program ?( TIEReD ), which leverages resources across the Department’s applied research offices to invest in fundamental science, research, development, initial pilot-scale demonstration projects, and technical assistance and workforce development. Projects ultimately selected will also advance the goals of the?DOE Industrial Decarbonization Roadmap , which focuses on the highest emitting industries where decarbonization technologies will have the greatest impact, such as iron and steel, aluminum, cement and concrete, and other energy-intensive industrial processes.

Today’s announcements advance two of DOE’s Energy Earthshots : the Clean Fuels & Products Shot and the Industrial Heat Shot . The Energy Earthshots Initiative targets the remaining solution points of the most challenging technical problems across our energy economy and will accelerate breakthroughs of more abundant, affordable, and reliable clean energy solutions within the decade. The Clean Fuels & Products Shot aims to dramatically decarbonize the transportation and chemical industries through a staged RD&D strategy that will provide the technologies necessary to cut GHG emissions and establish the United States as a world leader in clean fuel and clean carbon-based chemical production. The Industrial Heat Shot aims to develop cost competitive industrial heat decarbonization technologies with at least 85 percent lower greenhouse gas emissions by 2035.

DOE is committed to investing in bold industrial decarbonization technologies at each stage of the innovation pipeline.? Learn more about DOE’s all-hands-on-deck strategy?to decarbonize the U.S. industrial sector.

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