【摘 要】
:
吸附储热是一种有着较高储热密度和较低热损失的储热方式.沸石-液态水吸附储热系统以沸石颗粒作为储热介质,具有系统简单、换热性能好和储热密度大等优点.利用Fluent建立了反
【机 构】
:
毕节高新技术产业开发区国家能源大规模物理储能技术研发中心,贵州毕节551712;中国科学院工程热物理研究所,北京100190;中国科学院大学,北京100049;毕节高新技术产业开发区国家能源大规模物理
论文部分内容阅读
吸附储热是一种有着较高储热密度和较低热损失的储热方式.沸石-液态水吸附储热系统以沸石颗粒作为储热介质,具有系统简单、换热性能好和储热密度大等优点.利用Fluent建立了反应器二维轴对称对流换热模型,分析了进水流速、反应器高径比和颗粒粒径对系统释热过程出口水温的影响.研究表明,在计算条件下,该系统能够获得最大70℃的温升幅度,且进口流速越小,温升幅度越大;高径比越大,温升幅度越大,当高径比≥1.5时,温升不再随高径比的增加而增大;此外,粒径越小,反应速率和温升幅度越大,也越有利于沸石与水的充分反应.本研究有助于完善固-液吸附过程释热特性,为沸石-液态水吸附储热系统的设计和应用提供理论指导.
其他文献
The influence of a high magnetic field (HMF) on the nucleation kinetics of paramagnetic aluminum and diamagnetic zinc melts has been investigated by differentia
1.IntroductionrnPhotodetectors are of great importance for a variety of industrial and scientific applications, such as in spectroscopy, solar energy harvesting
石榴石固体电解质型的固态锂金属电池因具有高能量密度、高安全性和长循环寿命等优点而受到了研究人员的重点关注,然而石榴石型电解质和锂负极之间存在巨大的界面阻抗,严重阻
Due to the sodium abundance and availability,sodium-ion batteries (SIBs) have the potential to meet the worldwide growing demand of electrical energy storage.P2
该文是一篇近两个月的锂电池文献评述,以“lithium”和“batter*”为关键词检索了 Web of Science从2021年2月1日至2021年3月31日上线的锂电池研究论文,共有2566篇,选择其中1
Electromagnetic wave (EMW) absorbing materials play a vital role in modern communication and information processing technologies to inhibit information leakage
Investigation about the corrosion behavior of Ti alloys in different ambient environment is of great significance for their practical application.Herein,we syst
Intermetallic compounds have the characteristics of long-range ordered structure and combination of metallic and covalent bonds,showing intrinsic brittleness an
The so-called bimodal microstructure of Ti-6Al-4V alloy,composed of primary α grains (αp) and transformed β areas (βtrans),can be regarded as a “dual-phase
ZL205A alloys tend to form disordered and defective microstructure due to the large solidification intervals and multi-phase.Accordingly,finding ways to effecti