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理特咨询(ADL):2024工业供热脱碳应对气候变化研究报告(英文版)(20页).pdf

上传人: 白**** 编号:160022 2024-04-23 20页 6.21MB

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1、DECARBONIZING INDUSTRIAL HE AT TO FACE CLIMATE CHANGEIs thermal energy storage the missing link in Europes industrial decarbonization strategy?2024We would like to acknowledge all those who contributed in the review of this Report,especially:Florence Carlot,Vincenzo Ippolito.Amaury Klossa,Chiara Lor

2、eti,Daniel Monzon,Andrea Romboli,Leonardo Rosetto,and Christian WeberSAVERIO CALDANIManaging Partner,Rome&MadridLUIS DEL BARRIO CASTROPartner,MadridIRENE MACCHIARELLIPartner,RomeIGOR MARULLIConsultant,RomeCONTENTEXECUTIVE SUMMARY 31.EUROPEAN INDUSTRIAL HEAT CONSUMPTION 42.DECARBONIZATION STRATEGIES

3、83.TES TECHNOLOGY 124.INSIGHTS FOR UTILITIES 16CONCLUSION 182Decarbonizing industrial heat consumption is crucial to reduce carbon emissions and mitigate the effects of climate change.Currently,the top five heat-demanding industries in the EU chemical&petrochemical;nonmetallic minerals;food,beverage

4、&tobacco;paper pulp,paper&graphic arts;and iron&steel account for more than 80%of heat consumption and urgently need decarbonization strategies.Direct and indirect electrification,carbon capture,utilization,and storage(CCUS),and biomass are among the main technologies for decarbonizing industrial he

5、at.Thermal energy storage(TES)is a potential solution for direct electrification,particularly for industries with process temperatures that reach up to 500C.Key strengths of TES technology include storage opportunities(i.e.,ability to store heat for later use and to integrate non-programmable renewa

6、ble systems such as photovoltaics and wind),ease of installation,modularity,and cost competitiveness.Utilities can seize the opportunity and be pioneers in this market by focusing on testing the technology and building partnerships with vendors to speed up commercial deployment.Additionally,they can

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本文主要讨论了欧洲工业脱碳策略中热能存储技术的应用。主要观点如下: 1. 欧洲工业部门消耗约2500太瓦时(TWh)能源,其中约1800 TWh用于产生热量,占总能源消耗的72%。 2. 化学、非金属矿物、食品饮料烟草、造纸和钢铁五大行业占欧盟工业热能消耗的80%以上。这些行业主要使用天然气、化石燃料和汽油产生热量。 3. 热能存储(TES)技术是实现工业脱碳的有效途径,特别是对于温度高达500°C的行业。TES技术具有存储机会、易于安装、模块化设计和成本竞争力等优势。 4. 公用事业公司可以通过测试该技术和与供应商建立合作伙伴关系来抓住市场机遇,加快商业化部署。 5. 创新解决方案如TES可以帮助工业客户实现脱碳目标,为低碳经济做出贡献。
欧洲工业脱碳策略中,热能存储技术扮演什么角色? 热能存储技术如何帮助工业客户实现脱碳目标? 公用事业公司如何利用热能存储技术推动工业脱碳?
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