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热能工程专业论文适合发表sci吗

时间:2022-06-13分类:论文发表指导

  想要在sci上发表论文,首先就是要了解sci收录哪些方向的论文,热能工程专业论文适合发表sci吗?

  SCI收录报道并标引了6400多种自然科学、工程技术、生物医学范畴的所有领域的领先期刊,学科范围涉及农业与食品科技、天文学、行为科学、生物化学、生物学、生物医学、化学、计算机科学、电子学、工程学、环境科学、遗传学、地球科学、仪器、材料科学、数学、医学、微生物学、原子能科学、药理学、物理学、精神病学与心理学、统计与概率、技术与应用科学、兽医学、动物学等170多个领域,其中工程学也包括热能工程专业论文。

热能工程sci期刊

  范例一:

  热能工程专业sci论文范例:Effects of aging heat treatment after friction surfacing on microstructure and corrosion behavior of aluminum matrix composite

  摘要:This research has studied the effect of artificial aging heat treatment on the microstructure and corrosion behavior of Al-Zn-Mg-Cu alloy matrix composite. In the present study, nickel-aluminide reinforcement was fabricated in-situ during the stir casting process of Al-Zn-Mg-Cu alloy. After friction surfacing of an as-cast composite consumable rod on AA1050 substrate and post-processing artificial aging heat treatment at 125 ℃ for 18 hours, significant grain growth was observed in the nickel-fre

  来源:《Transactions of Nonferrous Metals Society of China》

  (录用定稿)网络首发时间:2022-05-31

  范例二:

  热能工程专业sci论文范例:Experimental Investigation on Finned Solar Still With Enhanced Thermal Energy Storage

  摘要 / Abstract:In the present study, a novel solar still incorporated with fins and phase change material (PCM)-based energy storage was designed. To investigate the influence of fins and energy storage unit, four cases of stills were considered. In case I, a conventional type was considered, whereas square hollow fins were fitted over the basin liner of the still in case II. In addition to fins as in case II, case III employs an energy storage unit wherein PCM was packed beneath the basin liner. Case IV was similar to case III except for the extension of fins into the storage unit.

  来源:《J. Thermal Sci. Eng. Appl》(录用定稿)网络首发时间:2022-06-03

  范例三:

  热能工程专业sci论文范例:Multiobjective Optimization of a Combined Heating and Power System Based on Compressed-Air Energy Storage and Thermochemical Technology

  摘要 / Abstract:Compressed-air energy storage has been considered as a promising technology to smooth the fluctuations of renewable energy sources and improve the peak-shaving flexibility capacity of power systems. In order to improve the energy degree of compression heat and enhance the system performance, the current paper described a novel combined heating and power system that integrates compressed-air energy storage with thermochemical technology. In the proposed system, the compression heat is coupled with methanol decomposition reaction to convert the thermal energy to chemical energy (H2 and CO). A sensitivity analysis was carried out to investigate the effects of five key parameters on the system performance.

  来源:《Journal of Energy Engineering》(录用定稿)网络首发时间:2022-06-02

  不同的研究领域发表论文的难度也存在较大差异,受学科特点影响,有的学科研究周期长、出成果慢,所以发文章的频率会相对较低,而有的学科研究周期短、变量多、容易出新成果,因而发文章的频率也就相应更高。更多关于sci论文发表的问题可查看网站以往其他文章。

  推荐阅读:SCI论文网上查询流程

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