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首页> 外文会议>14th cryogenics 2017 >LIQUID AIR ENERGY STORAGE - PART OF THE JOINT PROJECT “OFFSHORE WIND SOLUTION”
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LIQUID AIR ENERGY STORAGE - PART OF THE JOINT PROJECT “OFFSHORE WIND SOLUTION”

机译:液态空气能量存储-联合项目“海上风电解决方案”的一部分

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The growth core "Offshore Wind Solution" (OWS) is one of the largest since the beginning of this fundingrnprogram. The growth core is generally engaged with the broadening as well as the increase of technical andrneconomic efficiency of offshore wind energy as a key part of the exit from nuclear and fossil-fuel energy inrnGermany and Europe. Within the project an energy storage system adapted to the requirements of offshorernwind farms has to be developed.rnThis energy storage is based on the principle of liquefied air, in which the existing processes for thernliquefaction and regasification have to be adapted to the requirements of the electricity storage to achievernsignificant efficiency gains and to utilize synergies in the process chain. Within the project, the partialrnprocesses are transformed in such a way that the energy losses of the process chain are as low as possible.rnThis also means that all processes must be adapted and optimized to the available cooling and heat flows,rnwith regard to their energy requirements and thermal benefit.rnThe major components within this procedure are different accumulators for cold, heat and pressure and arnflexible electrical energy storage. Currently, the identified and evaluated subcomponents are coordinatedrnwith respect to their performance and size and the regulatory process chain is matched, whereby the dynamicrncontrol processes require the biggest part of project work. Subsequently, the details of the most importantrnsubcomponents are designed and developed or enhanced for increasing efficiency.
机译:自该计划启动以来,增长核心“海上风电解决方案”(OWS)是规模最大的核心之一。增长核心通常与海上风能的扩大以及技术和经济效率的提高有关,这是退出核能和化石燃料能源进入德国和欧洲的关键部分。在该项目中,必须开发适合海上风电场要求的储能系统。该储能基于液化空气的原理,其中现有的液化和再气化过程必须适应电力需求存储可以显着提高效率并在流程链中发挥协同作用。在项目中,对部分过程进行转换,以使过程链的能量损失尽可能低。这也意味着所有过程都必须针对可用的冷却和热流进行调整和优化,以节省其能量要求和热效益。该程序中的主要组件是用于冷,热和压力以及柔性电能存储的不同蓄能器。当前,已识别和评估的子组件在性能和规模方面得到协调,并且监管流程链也已匹配,因此动态控制流程需要项目工作的最大部分。随后,设计和开发或增强了最重要的子组件的细节,以提高效率。

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  • 来源
    《14th cryogenics 2017》|2017年|361-364|共4页
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  • 作者

    Großmann Bjoern; Eggers Detlef; Bobsin Philipp; Wendt Christian; Matthies Rene; Ebert Kevin; Gluck Nikolai;

  • 作者单位

    Institut für Luft- und Kältetechnik gemeinnützige Gesellschaft mbH (ILK), Dresden, 01309,Germany, bjoern.grossmann@ilkdresden.de;

    RST Rostock System-Technik GmbH, Rostock, D-18119, Germany,d.eggers@rst-rostock.de;

    RST Rostock System-Technik GmbH, Rostock, D-18119, Germany,p.bobsin@rst-rostock.de;

    Airbus Safran Launchers GmbH, Bremen, D-28199, Germany, christiandr.wendt@airbusafranlaunchers.com;

    KAEFER Isoliertechnik GmbH Co. KG, Bremen, D-28199, Germany,rene.matthies@kaefer.com;

    KAEFER Isoliertechnik GmbH Co. KG, Bremen, D-28199, Germany,kevin.ebert@kaefer.com;

    Fraunhofer Anwendungszentrum Großstrukturen in der Produktionstechnik, Rostock, D-18119,Germany, nikolai.glueck@hro.ipa.fraunhofer.de;

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