【综述:航空航天碳氢燃料组成与其理化性能关系的研究进展】先进航空航天飞行器的发展对高性能液态碳氢燃料提出了更高的需求,然而燃料性能的全面测定不仅耗时、成本高,并且受限于操作条件。实际上,航空航天燃料的物理化学性能受到其化学组成的直接影响,因此,深入研究燃料性能与组成之间的内在关系对未来高品质燃料的设计和合成以及燃料性能的预测具有重要意义。
天津大学化工学院的邹吉军教授、潘伦副教授和北京化工大学化学工程学院的方云明教授在本文总结并分析了燃料组成和碳氢化合物分子结构对燃料物理化学性能的影响规律,燃料理化性质包括对密度、燃烧净热值、低温流动性(黏度和冰点)、闪点和热氧化安定性等;总结了基于燃料化学组成对燃料性能进行预测的相关研究方法。此外,我们将燃料H/C摩尔比和相对分子质量与理化性能进行了关联,采用最小二乘法的计算结果表明,该关联关系适用于密度、净燃烧热和黏度等关键性能指标的预测,这对航空航天碳氢燃料的设计、合成和性能预测具有重要意义。详情请点击https://t.cn/A6VfpmtH 识别图中二维码即可免费获取全文。
文章信息:Xiaoyu Wang, Tinghao Jia, Lun Pan, Qing Liu, Yunming Fang, Ji-Jun Zou, Xiangwen Zhang. Review on the Relationship Between Liquid Aerospace Fuel Composition and Their Physicochemical Properties. Trans. Tianjin Univ, 2021, 27(2): 87-109
天津大学化工学院的邹吉军教授、潘伦副教授和北京化工大学化学工程学院的方云明教授在本文总结并分析了燃料组成和碳氢化合物分子结构对燃料物理化学性能的影响规律,燃料理化性质包括对密度、燃烧净热值、低温流动性(黏度和冰点)、闪点和热氧化安定性等;总结了基于燃料化学组成对燃料性能进行预测的相关研究方法。此外,我们将燃料H/C摩尔比和相对分子质量与理化性能进行了关联,采用最小二乘法的计算结果表明,该关联关系适用于密度、净燃烧热和黏度等关键性能指标的预测,这对航空航天碳氢燃料的设计、合成和性能预测具有重要意义。详情请点击https://t.cn/A6VfpmtH 识别图中二维码即可免费获取全文。
文章信息:Xiaoyu Wang, Tinghao Jia, Lun Pan, Qing Liu, Yunming Fang, Ji-Jun Zou, Xiangwen Zhang. Review on the Relationship Between Liquid Aerospace Fuel Composition and Their Physicochemical Properties. Trans. Tianjin Univ, 2021, 27(2): 87-109
【2020年度高被引论文导读】[中国赞][中国赞][中国赞]
1.Review:Battery Technologies for Grid-Level Large-Scale Electrical Energy Storage 详情请点击https://t.cn/A6VccpDL
文章信息:Xiayue Fan, Bin Liu, Jie Liu, Jia Ding, Xiaopeng Han, Yida Deng, Xiaojun Lv, Ying Xie, Bing Chen, Wenbin Hu, Cheng Zhong
Trans Tianjin Univ, 2020, 26(2):92-103
2. Research Article:Enhancing the Stability of Passive Film on 304 SS by Chemical Modification in Alkaline Phosphate–Molybdate Solutions 详情请点击https://t.cn/A6VcF6hI
文章信息:Chengcheng Pan, Yang Song, Weixian Jin, Zhenbo Qin, Shizhe Song, Wenbin Hu, Da-Hai Xia Trans Tianjin Univ, 2020, 26(2):135-141
3. Review:2D MXene-Based Materials for Electrocatalysis详情请点击https://t.cn/A6VcIgTA
文章信息:Jiapeng Liu, Wenchao Peng, Yang Li, Fengbao Zhang, Xiaobin Fan Trans Tianjin Univ, 2020, 26(3):149-171
4. Review:A Review on Applications of Layered Phosphorus in Energy Storage 详情请点击https://t.cn/A6Vfp4Wd
文章信息:Cheng Liu, Yinghao Wang, Jie Sun, Aibing Chen Trans Tianjin Univ, 2020, 26(2):104-126
5. Review:Catalytic Reduction of CO₂ to CO via Reverse Water Gas Shift Reaction: Recent Advances in the Design of Active and Selective Supported Metal Catalysts详情请点击https://t.cn/A6VVt1QP
文章信息:Min Zhu, Qingfeng Ge, Xinli Zhu Trans Tianjin Univ, 2020, 26(3):172-187
6. Review:Alternative Strategies Toward Sustainable Ammonia Synthesis 详情请点击https://t.cn/A6VVbvLF
文章信息:Chengcheng Li, Tuo Wang, Jinlong Gong Trans Tianjin Univ, 2020, 26(2):67-91
7. Research Article:Mesoporous Graphene Hosts for Dendrite-Free Lithium Metal Anode in Working Rechargeable Batteries详情请点击https://t.cn/A6VcFFNb
文章信息:He Liu, Xinbing Cheng, Rui Zhang, Peng Shi, Xin Shen, Xiaoru Chen, Tao Li, Jiaqi Huang, Qiang Zhang Trans Tianjin Univ, 2020, 26(2):127-134
8. Review:Applications of Lithium-Ion Batteries in Grid-Scale Energy Storage Systems详情请点击https://t.cn/A6Vfp4WB
文章信息:Tianmei Chen, Yi Jin, Hanyu Lv, Antao Yang, Meiyi Liu, Bing Chen, Ying Xie, Qiang Chen Trans Tianjin Univ, 2020, 26(3):208-217
9. Research Article:Evaluation and Analysis of Battery Technologies Applied to Grid-Level Energy Storage Systems Based on Rough Set Theory 详情请点击https://t.cn/A6Vfp4W1
文章信息:Zhiyuan Xie, Liang Du, Xiaojun Lv, Qing Wang, Jianglei Huang, Tianyi Fu, Shengyue Li Trans Tianjin Univ, 2020, 26(3):228-235
10. Research Article:Quantification of the Atmospheric Corrosion of 304 and 2205 Stainless Steels Using Electrochemical Probes Based on Thevenin Electrochemical Equivalent Circuit Model详情请点击https://t.cn/A6Vfp4Wr
文章信息:Yu Zhu, Yang Song, Likun Xu, Zhenbo Qin, Shizhe Song, Wenbin Hu, Da-Hai Xia Trans Tianjin Univ, 2020, 26(3):218-227
识别图中二维码即可免费获取全文。
1.Review:Battery Technologies for Grid-Level Large-Scale Electrical Energy Storage 详情请点击https://t.cn/A6VccpDL
文章信息:Xiayue Fan, Bin Liu, Jie Liu, Jia Ding, Xiaopeng Han, Yida Deng, Xiaojun Lv, Ying Xie, Bing Chen, Wenbin Hu, Cheng Zhong
Trans Tianjin Univ, 2020, 26(2):92-103
2. Research Article:Enhancing the Stability of Passive Film on 304 SS by Chemical Modification in Alkaline Phosphate–Molybdate Solutions 详情请点击https://t.cn/A6VcF6hI
文章信息:Chengcheng Pan, Yang Song, Weixian Jin, Zhenbo Qin, Shizhe Song, Wenbin Hu, Da-Hai Xia Trans Tianjin Univ, 2020, 26(2):135-141
3. Review:2D MXene-Based Materials for Electrocatalysis详情请点击https://t.cn/A6VcIgTA
文章信息:Jiapeng Liu, Wenchao Peng, Yang Li, Fengbao Zhang, Xiaobin Fan Trans Tianjin Univ, 2020, 26(3):149-171
4. Review:A Review on Applications of Layered Phosphorus in Energy Storage 详情请点击https://t.cn/A6Vfp4Wd
文章信息:Cheng Liu, Yinghao Wang, Jie Sun, Aibing Chen Trans Tianjin Univ, 2020, 26(2):104-126
5. Review:Catalytic Reduction of CO₂ to CO via Reverse Water Gas Shift Reaction: Recent Advances in the Design of Active and Selective Supported Metal Catalysts详情请点击https://t.cn/A6VVt1QP
文章信息:Min Zhu, Qingfeng Ge, Xinli Zhu Trans Tianjin Univ, 2020, 26(3):172-187
6. Review:Alternative Strategies Toward Sustainable Ammonia Synthesis 详情请点击https://t.cn/A6VVbvLF
文章信息:Chengcheng Li, Tuo Wang, Jinlong Gong Trans Tianjin Univ, 2020, 26(2):67-91
7. Research Article:Mesoporous Graphene Hosts for Dendrite-Free Lithium Metal Anode in Working Rechargeable Batteries详情请点击https://t.cn/A6VcFFNb
文章信息:He Liu, Xinbing Cheng, Rui Zhang, Peng Shi, Xin Shen, Xiaoru Chen, Tao Li, Jiaqi Huang, Qiang Zhang Trans Tianjin Univ, 2020, 26(2):127-134
8. Review:Applications of Lithium-Ion Batteries in Grid-Scale Energy Storage Systems详情请点击https://t.cn/A6Vfp4WB
文章信息:Tianmei Chen, Yi Jin, Hanyu Lv, Antao Yang, Meiyi Liu, Bing Chen, Ying Xie, Qiang Chen Trans Tianjin Univ, 2020, 26(3):208-217
9. Research Article:Evaluation and Analysis of Battery Technologies Applied to Grid-Level Energy Storage Systems Based on Rough Set Theory 详情请点击https://t.cn/A6Vfp4W1
文章信息:Zhiyuan Xie, Liang Du, Xiaojun Lv, Qing Wang, Jianglei Huang, Tianyi Fu, Shengyue Li Trans Tianjin Univ, 2020, 26(3):228-235
10. Research Article:Quantification of the Atmospheric Corrosion of 304 and 2205 Stainless Steels Using Electrochemical Probes Based on Thevenin Electrochemical Equivalent Circuit Model详情请点击https://t.cn/A6Vfp4Wr
文章信息:Yu Zhu, Yang Song, Likun Xu, Zhenbo Qin, Shizhe Song, Wenbin Hu, Da-Hai Xia Trans Tianjin Univ, 2020, 26(3):218-227
识别图中二维码即可免费获取全文。
【综述:非水系钾离子电池用有机电极材料】在过去的几十年中,锂离子电池(LIBs)的技术和市场已经逐渐成熟。鉴于其出色的能量密度和长循环寿命,LIBs被广泛用于便携式电子设备,电动汽车和大规模储能领域中。随着市场需求的快速增长,锂元素的低丰度促使研究人员越来越注重其它碱金属离子及碱土金属离子电池的开发。钾离子电池(KIBs)由于其独特的优势引起了广泛的关注,有希望成为LIBs的补充或替代品。在KIBs使用过程中,钾离子的嵌入通常会导致传统的无机电极材料产生严重的结构变形,从而导致电池低容量和快速容量衰减。相反,有机电极材料(OEMs)其分子之间通过范德华力相连,具有较大的层间距和柔性的结构,有利于钾离子的嵌入脱出。因此,在 LIBs和钠离子电池中被广泛研究的OEMs多可适用于KIBs。此外,OEMs还具有低成本、高比容量、高可再生性、种类丰富等优势,成为KIBs电极材料的研究热点。
中国科学院大连化学物理研究所的李先锋研究员在本文中对现有KIBs中OEMs研究进行了全面梳理。以典型的正极和负极材料为基本框架,含有不同基团的OEMs为类比对象,对其反应机理、电化学行为等进行详细而深入的讨论和总结。并对KIBs中OEMs的性能改进策略及未来发展趋势进行了详细阐述。详情请点击https://t.cn/A6VfNzfO 识别图中二维码即可免费获取全文。
文章信息:Mingtan Wang, Wenjing Lu, Huamin Zhang, Xianfeng Li. Organic Electrode Materials for Non-Aqueous K-Ion Batteries. Trans Tianjin Univ, 2021, 27(1): 1-23
中国科学院大连化学物理研究所的李先锋研究员在本文中对现有KIBs中OEMs研究进行了全面梳理。以典型的正极和负极材料为基本框架,含有不同基团的OEMs为类比对象,对其反应机理、电化学行为等进行详细而深入的讨论和总结。并对KIBs中OEMs的性能改进策略及未来发展趋势进行了详细阐述。详情请点击https://t.cn/A6VfNzfO 识别图中二维码即可免费获取全文。
文章信息:Mingtan Wang, Wenjing Lu, Huamin Zhang, Xianfeng Li. Organic Electrode Materials for Non-Aqueous K-Ion Batteries. Trans Tianjin Univ, 2021, 27(1): 1-23
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