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41.
42.
介绍空分制氮装置采用膨胀机循环与液氮循环的两种工艺流程及能量平衡 ,示出了两种循环的实例比较。指出外供液氮可以作为冷源替代膨胀机 ,且单耗低、操作更方便 ,设备维护量更小、氮气提取率更高 相似文献
43.
燃气联合循环的新发展 总被引:4,自引:0,他引:4
根据国内外能源结构的调整变化,就我国和世界上其他国家采用燃气联合循环发电的情况以及能电共生新趋势作一些介绍,供规划建设联合循环发电决策参考。 相似文献
44.
采用5种活性炭对加氢催化柴油进行吸附脱硫,通过对活性炭的吸附效果及工艺参数的研究,探索了活性炭吸附脱硫最适宜的工艺条件。实验结果表明,分别选用比表面积为854.97,1 108.61 m2/g,相应微孔平均孔径为0.581 4,0.627 4 nm的活性炭,在粒度为40~80目,流速为0.25 mL/m in,吸附柱高径比为30/1的条件,可将不同原料油中有机硫含量分别从1 354.96,665.50μg/g降至360.40,69.61μg/g,脱硫率分别为73.40%和89.54%;在20~100℃时,随着温度的升高,活性炭吸附脱硫效果增强。 相似文献
45.
测井曲线拐点在测井层序地层分析中的应用研究 总被引:4,自引:3,他引:1
在层序地层学研究中,层序界面的划分是基础和重要的环节,而利用测井资料分析可以进行层序界面划分和进行较长期基准面旋回识别。测井曲线的值是深度的函数,测井曲线的一阶导数表示了曲线变化的趋势和变化的快慢,在某一范围内,当一阶导数呈现符号转换时,相对应的深度点的测井值即为该范围内极大(极小)值;测井曲线的二阶导数则表示曲线的凹凸性,在某一范围内,当二阶导数呈现符号转换时,相对应的深度点代表了测井曲线的拐点,即反映曲线凹凸性变化的转折点,亦即地层的分界面。基于以上特点,提出利用测井曲线拐点进行层序界面划分的原理和方法,并结合岩心和录井资料,对白音查干凹陷达28井腾格尔组不同级次沉积旋回、地层垒积、旋回特征随沉积厚度变化特点和不同级次基准面旋回进行研究,最后得到该地层单井测井层序地层分析结果。 相似文献
46.
超动型长寿命铅蓄电池池的几点建议 总被引:1,自引:1,他引:0
报导了国内外起动用长寿命铅酸蓄电池的概况,根据笔多年积累的经验并针对这类电池的应用特点,具体介绍了起动型铅酸蓄电池在原辅材料,零部件,生产设备和制造工艺等方面如何采取有效措施以提高这类电池的使用寿命。 相似文献
47.
48.
Pomes R.; Willson R.C.; McCammon J.A. 《Protein engineering, design & selection : PEDS》1995,8(7):663-675
Free energy simulations are reported for the N31L-D mutation,both in the HyHEL-10-HEL antibody-lysozyme complex and in theunliganded antibody, using the thermo-dynamic-cycle perturbationmethod. The present study suggests that the mutation would changethe free energy of binding of the complex by 5.6 kcal/mol(unrestrained free energy simulations), by 0.5 kcal/mol(free energy simulations with a restrained backbone) and by1.8 kcal/ mol (Poisson-Boltzmann calculations, which also usea restrained geometry model). A detailed structural analysishelps in estimating the contributions from various residuesand regions of the system. Enhanced recognition of HEL by themutant HyHEL-10 would arise from the combination of thermodynamicallymore favorable conformational changes of the CDR loops uponassociation and subsequent charge pairing with Lys96 in theantigen. 相似文献
49.
The primary purpose of this work is to review the literature about what is and is not known about using ethylene vinyl acetate (EVA0 copolymer as the encapsulant (or pottant) material in photovoltaic (PV) modules. Secondary purposes include elucidating the complexity of the encapsulation problem, providing an overview about encapsulation of PV cells and modules, providing a historical overview of the relevant research and development on EVA, summarizing performance losses reported for PV systems deployed since ca. 1981, and summarizing the general problems of polymer stability in a solar environment. We also provide a critical review of aspects of reported work for cases that we believe are important.Failure modes resolved in the early work to establish reliability of deployed modules and the purposes and properties of pottants, are summarized. Typical performance losses in large field-deployed, large-scale systems ranging from 1% to 10% per year are given quantitatively, and qualitative reports of EVA discoloration are summarized with respect to ultraviolet (UV), world-wide location and site dependence.The general stability of polymers and their desirable bulk properties for solar utilization are given. The stabilization formulation for EVA, its effectiveness, and changes in it during degradation are discussed. The degradation mechanisms for the base resin, e.g., unstabilized Elvax 150TM, and stabilized EVA are indicated for literature dating to the early 1950s, and the role played by unsaturated chromophores is indicated. The limited number of studies relating discoloration and PV cell efficiency are summarized.Observed degradation of EVA or the unstabilized base resin in the laboratory and examples used to measure the degradation are summarized in sections entitled: (1) thermally-induced degradation; (2) photodegradation and photothermal degradation of EVA in different temperature regimes; (3) photobleaching and photodegradation of the UV absorber and cross-linking agent; (4) acetic acid and metal and metal-oxide catalyzed oxidative degradation; and (5) discolaration and PV cell efficiency losses.Processing effects/influences on EVA stability are discussed in sections entitled: (1) EVA raw materials and extruded, uncured films; (2) thermal encapsulation processes; (3) effects of lamination, curing, and curing peroxide on gel content and chromophores formed; and (4) incomplete shielding of curing-generated chromophores. A summary is given for the limited number of accelerated lifetime testing efforts and examples of erroneous service lifetime predictions for EVA are discussed. The known factors that effect the discoloration rate of several EVA formulations are discussed in which the reduction in rate by using UV-absorbing superstrates is a prime example. A summary is given of what is and is not known about EVA degradation mechanisms, degradation from exposures in field-deployed modeules and/or laboratory testing, and factors that contribute to EVA stability or degradation. Finally, conclusions about using Elvax 150 in EVA formulations are summarized, and future prospects for developing the next-generation pottant for encapsulating PV modules are discussed. 相似文献
50.
Ir.H.E.M. Stassen 《Renewable Energy》1994,5(5-8)
Within the European Community, the interest in energy generation from biomass and waste is increasing. A brief overview is given of several thermal conversion technologies, of biomass production and waste availability in the Netherlands. Based on this, the possibilities for energy generation from biomass and waste in the Netherlands are evaluated. 相似文献