Mr . li just participated worked , because frequently glances over the pornographic website , is stirred by the on - line pornographic content the spring tide to organ blister measles , are life - long cannot cure . “安立克”的作用机理理论是:细胞和病毒的相对生存时间并不长久,机体细胞和病毒细胞的分裂再生过程一直在进行。
Change in the concentration of endogenous iaa was monitored with enzyme - linked immunosorbent assays elisa , and iaa localization in the tissues was demonstrated by means of immunogold - silver microscopy , with authors modification , during the regeneration after girdling in L . vent .剥皮后维管组织再生过程中内源iaa浓度的变化,并用改进的免疫金银法测定了此过程中内源iaa在不同组织中的分布。
But it is hard to get the instant internal data and to analyze influences caused by interactional factors in dpf via experimental testing when the diesel works . so we have to employ numerical simulation to get the law of regeneration process 但柴油机在工作时,微粒捕集器内部的实验数据很难通过测试得到,而且影响微粒捕集器再生过程的因素错综复杂,这些也无法仅从试验获得解决的办法,因此有必要通过数值模拟的方法得到再生过程的规律。
Dr low - grade hot regeneration absorbing type desiccator , comprehensive varyimg voltage absorb and become the warm advantage that absorb , absorb under the high steam partial pressure of the normal atmospheric temperature ( work ) ; in high temperature , low steam partial pressure is it analyze to lay ( regeneration ) , namely moisture that absorbent absorbed in the course of absorbing , rely on high - quality getting angry between thermal diffusion and low partial pressure two mechanism common to act on and can drive out completely in the course of regeneration Dr微热再生吸附式干燥机,综合变压吸附和变温吸附之优点,在常温高蒸汽分压下吸附(工作) ;在较高温度,低蒸汽分压下解析(再生) ,即吸附剂在吸附过程中吸附的水分,在再生过程中依靠高品质再生气(干燥空气加热)的热扩散和低分压两种机理的共同作用而得以彻底清除。
However , techniques of dpf and regeneration adopting in china presently is still not immature in technical aspect of after - treatment . dpf of infrared regeneration system has been experimented and researched in this paper . it has been tested for the filter efficiency , regeneration efficiency , the controllability of regenerating process , cost , life and the suitability to fuel with high sulfur 有关研究表明,微粒捕集器是彻底减少柴油机微粒排放的最有效方法,但在我国,后处理技术方面目前采用的微粒捕集器及再生技术还不成熟,本论文对红外再生系统中的微粒捕器进行试验研究,对其过滤效率、再生效率、再生过程可控性、成本、寿命及对高含硫量燃油适应性进行测试。
In a word , wbaer can effectively remove micro - quantity hmi from dk with alkali metals , alkaline - earth metals and anions at high concentration . on the basis of lots of regeneration experiments of wbaer ( d301g ) , the best regeneration manner ( regurgitation regeneration ) , the optimal regeneration agents ( h2so4 and naoh ) and the optimum operating parameters of regeneration are obtained 论文进而对d301g型弱碱性阴离子交换树脂进行了再生试验研究,确定了最佳再生方式(逆流再生) ,最佳再生剂( h2so4和naoh )以及酸液再生时的最佳浓度范围( 2 % 4 % )和最佳流速范围( 3 4m / h ) ;并通过正交试验确定了逆流再生过程中的最佳运行参数组合。
With a mitogenic stimulus such as ph , retrorsine - injured hepatocytes undergo apoptosis and are selectively removed from the hepatic parenchyma . the emergence and rapid expansion of a population of small hepatocyte - like progenitor cells ( shpcs ) contribute to the restoration of live mass after ph 肝脏再生过程中,肝实质中会产生一种集落样增殖的“小肝细胞样原始细胞” ( smallhepatocyte - likeprogenitorcells , shpcs ) ,并通过这种细胞的增殖和分化完成肝脏的再生。
Simulation results show that based on the regeneration kinetics of the catalyst , properly raising the reoxidation temperature of the catalyst in the fluidized bed reactor either can obviously improve the performance of the system or can reduce the solid flux and hence the energy consumption 结果表明,使烃类选择氧化(催化剂被还原)和催化剂氧化再生分开进行,特别是根据催化剂氧化再生动力学的要求,适当调节再生过程的温度,既能明显改善反应系统的性能,又可以大幅度降低催化剂固体颗粒的循环量,取得节能降耗的效果。
In order to study the regeneration mechanism of dpf in detail , we still need a mathematical model of the channel unit , which present temperature field and the soot reaction rate of the channel . finally , it points out the influences of various factors to the regeneration process by computing the numerical solution of model under different boundary conditions and geometry parameters , such as the initial temperature , the gas flow rate , the oxygen concentration , the sediment quantity and the wall thickness of the filters , and so on . in this way , the paper provides theoretical guidance for optimization design of the dpf 首先研究了干净壁流式过滤体的加热特性,然后在加热和燃烧理论的基础上建立了微粒捕集器再生过程的数学模型,并对模型进行了数值计算,得到了捕集器内部的三维温度场分布以及温度梯度分布,结果与实验值吻合较好,验证了模型的正确性;为了详细的研究微粒捕集器的再生机理,建立了孔道单元数学模型,得到了孔道内的温度场分布和微粒反应速率分布;最后,通过求解模型在不同边界条件和不同几何参数下的数值解,分析了各种因素对再生过程的影响,如过滤体初始温度、过滤体内气流的流动速率、氧浓度、微粒沉积量以及过滤体壁面厚度,为微粒捕集器的优化设计提供理论指导。
