Effect of oxygen on the microstructure and mechanical properties of Ti-23Nb-0.7Ta-2Zr alloy

The influence of oxygen content on the microstructure and mechanical properties of Ti-23Nb-0.7Ta-2Zr （at%） alloy in as-cast and cold-rolled states was investigated systematically in this paper. It is found that the alloy containing oxygen element is only composed of a single β phase, while the alloy without oxygen element consisted of β and α phases. Although the grain size becomes larger, the elastic de-formation ratio, strength, and hardness of the alloy are all increased with an increase of oxygen content. The as-cast alloy has excellent plastic deformation ability, but the cold-rolled alloy containing oxygen element exhibits brittle characteristics. A conclusion can be drawn that oxy-gen element can stabilize β phase, inhibit the phase transformation from β to α , and furthermore help to increase the strength and elastic de-formation ability of the alloy. 更多

Effects of Oxygen Concentration on Pulsed Dielectric Barrier Discharge in Helium-Oxygen Mixture at Atmospheric Pressure

In this work the effects of O_2 concentration on the pulsed dielectric barrier discharge in helium-oxygen mixture at atmospheric pressure have been numerically researched by using a one-dimensional fluid model in conjunction with the chosen key species and chemical reactions.The reliability of the used model has been examined by comparing the calculated discharge current with the reported experiments. The present work presents the following significant results. The dominative positive and negative particles are He_2~＋ and O_2^-, respectively, the densities of the reactive oxygen species（ROS） get their maxima nearly at the central position of the gap, and the density of the ground state O is highest in the ROS. The increase of O_2 concentration results in increasingly weak discharge and the time lag of the ignition. For O_2 concentrations below 1.1%,the density of O is much higher than other species, the averaged dissipated power density presents an evident increase for small O_2 concentration and then the increase becomes weak. In particular,the total density of the reactive oxygen species reaches its maximums at the O_2 concentration of about 0.5%. This characteristic further convinces the experimental observation that the O_2 concentration of 0.5% is an optimal O_2/He ratio in the inactivation of bacteria and biomolecules when radiated by using the plasmas produced in a helium oxygen mixture.

Production of reactive oxygen species by freezing stress and the protective roles of antioxidant enzymes in plants

As one of the most severe environmental stresses, freezing stress can determine native flora in nature and severely reduce crop production. Many mechanisms have been proposed to explain the damage induced by freezing-thawing cycle, and oxidative stress caused by uncontrollable production of harmful reactive oxygen species (ROS) are partially contributed to causing the injury. Plants in temperate regions have evolved a unique but effective metabolism of protecting themselves called cold acclimation. Cold-acclimating plants undergo a complex but orchestrated metabolic process to increase cold hardness triggered by exposure to low temperature and shortened photoperiod and achieve the maximum freezing tolerance by a concerted regulation and expression of a number of cold responsive genes. A complicated enzymatic system have been evolved in plants to scavenge the ROS to protect themselves from oxidative stress, therefore, cold-acclimating plants are expected to increase the de novo synthesis of the genes of antioxidant genes. Indeed, many antioxidant genes increase the expression levels in response to low temperature. Furthermore, the higher expression of many antioxidant enzymes are positively correlated to inducing higher tolerance levels against freezing. All the information summarized here can be applied for developing crop and horticultural plants to have more freezing tolerance for higher production with better quality. There have been extensive studies on the activities of antioxidant enzymes and the gene regulation, however, more researches will be required in near future to elucidate the most effective antioxidant enzymes to induce highest freezing tolerance in a crop plant in a transformation process or a breeding program.

On Hemostasis of Cold Atmospheric Air Plasma

The efficacy and mechanism of a cold atmospheric-pressure air plasma (CAAP), which carries abundant atomic oxygen (OI), on blood coagulation are studied. The tests on sodium citrate mixed blood-droplet samples show that 1) The heat delivered by the CAAP has no impact on the observed clot formation, 2) Plasma effluent activates platelets to promote coagulation state and cascade, and 3) The degree of clotting increases with the OI flux delivered by the CAAP. The full clotting time is shortened from about 25 minutes of the natural clotting time to about 16 s of the CAAP treatment time. The tests on smeared blood samples show that the reduction of the platelet count and the increase of RBC count are proportional to the applied OI flux. In vivo tests, using swine as nimal model, swift hemostasis of large and deep cut wounds on the back by the CAAP treatment was demonstrated. A cut artery was sealed completely with 25 s treatment. The pressure applied by a finger on the cut artery could be removed immediately after the treatment and there was no re-bleed. Based on the in vitro test results and the animal model trials, CAAP coagulation mechanism is presented.

极寒条件下含氧燃料对柴油机冷起动特性的影响

针对柴油机存在低温冷起动困难甚至无法起动的问题,基于起动/发电机集成一体化技术柴油机,在高原低温发动机冷起动试验舱,研究-50号柴油A0(氧质量分数为0%)、A1(氧质量分数为2.05%)和A2(氧质量分数为4.40%)燃料在-43℃下对柴油机冷起动过程的影响和燃烧特性分析.结果表明:相比A0纯柴油,燃用A1、A2含氧燃料起动时间分别缩短了36.64%和42.71%;起动累计油量分别降低47.8%和60.6%;怠速运行前60 s内转速波动率分别降低25.3%和43.8%.燃用燃料氧质量分数越高,起动燃烧首循环的缸内压力、燃烧放热率、缸内燃烧温度和缸内压力升高率峰值越高,且燃烧重心前移,燃烧持续期越短;起动转速上升过程循环数越少,平均最大缸内压力越大,起动过程燃烧稳定性越好.

考虑变掺氧富氧燃烧与利用LNG冷能的LAES的综合能源系统低碳经济调度

为促进风电消纳,减少火电机组的碳排放,解决综合能源系统(Integrated Energy System,IES)低碳经济运行问题,文中引入变掺氧富氧燃烧技术对燃气机组进行改造,并结合利用液化天然气(Liquefied Natural Gas,LNG)冷能的液化空气储能(Liquid Air Energy Storage,LAES),提出了一种电热气冷IES低碳经济优化策略。首先,构建含变掺氧富氧燃烧燃气机组、利用LNG冷能的LAES、电转气(Power To Gas,P2G)设备、中央空调和溴化锂制冷机的IES架构,并建立各设备的数学模型;其次,引入阶梯式碳交易机制,建立了以系统运行成本最小为目标的电热气冷IES低碳经济调度模型;最后,采用MATLAB调用GUROBI求解器对多个场景进行求解,验证了文中提出的低碳经济优化调度策略可以提高系统的风电消纳、有效降低系统运行成本,实现碳减排。

Hemostasis Efficacy and Mechanism of Cold Atmospheric Air Plasma

The capacity of a cold atmospheric-pressure air plasma (CAAP) device for advanced first aid is presented. Using swine as an animal model, two trials: 1) a large, curved cut in hindquarters area and 2) amputation of a front leg, were performed. Cold atmospheric-pressure air plasma effluent, which carries reactive oxygen species (ROS) atomic oxygen (OI), is applied for wound treatments. Swift hemostasis of the wounds by the CAAP treatment was demonstrated. The pressure applied by a finger on the cut arteries in trial 1 and the tourniquet applied in trial 2 could be removed immediately after the treatment and there was no re-bleed in both cases. CAAP hemostasis mechanism was explored via in-vitro tests. The tests on sodium citrate mixed blood-droplet samples show that 1) the heat delivered by the CAAP has no impact on the observed clot formation, 2) plasma effluent activates platelets to promote coagulation state and cascade, and 3) the degree of clotting increases with the total amount of applied OI by means of the CAAP effluent. It took only 16 s of the CAAP treatment to reach full clotting, which was considerably shortened from the natural clotting time of about 25 minutes. The tests on smeared blood samples show that the reduction of the platelet count and the increase of RBC count are proportional to the amount of applied OI. A plausible CAAP hemostasis mechanism is concluded from the in vitro test results and the animal model trials.

近红外低能量激光调节血小板活性氧水平对防止冷藏损伤的研究

目的探究近红外低能量激光(Low Level Laser,LLL)照射处理对冷藏血小板保存期间活性氧的调节作用,进而对减少被巨噬细胞和肝细胞识别吞噬的影响。方法将白膜来源的浓缩血小板分为室温保存组(RTP)、冷藏保存组(CSP)和LLL照射组(CSP-L)。LLL照射组为血小板冷藏12 h后,采用1 J、5 J、10 J不同辐照强度的LLL单次照射并继续冷藏保存。各组保存5 d后,流式细胞仪检测血小板ROS生成、活化指标表达、糖基蛋白及其残基的暴露情况并进行比较。佛波酯诱导的THP-1细胞和HepG2肝细胞用于检测对各组血小板的吞噬作用。结果保存5 d后,CSP组血小板胞内ROS(cyto-ROS)水平较RTP组显著升高(RTP vs.CSP,3960±259.6 vs.5846±757.4,P<0.01),而线粒体ROS(mito-ROS)水平则低于RTP组(RTP vs.CSP,595±47.1 vs.416±50.2,P<0.05)。经低强度LLL(1 J)照射后,CSP-L1组血小板较CSP组显著降低了cyto-ROS水平(5846±757.4 vs.3945±459.4,P<0.01),CD62P、PS表达和GPⅠb/ɑ糖蛋白残基的暴露程度均显著减少(P<0.05),且与RTP组均无显著性差异。THP-1和HepG2对CSP-L1组血小板的吞噬率也显著低于CSP组(P<0.05)。同时,LLL照射对冷藏血小板的计数、pH值和MPV均无明显影响。结论低强度LLL照射处理可显著降低冷藏血小板胞内ROS水平并维持线粒体ROS的低水平生成,并能有效的抑制血小板活化和GPⅠb/ɑ去唾液酸化,减轻冷藏损伤,进而减少冷藏血小板被巨噬细胞和肝细胞识别吞噬。

回收液氧冷量冻结清除二氧化碳实现AIP潜艇节能增效

[目的]AIP潜艇携带巨量液氧,在液氧消耗过程中冷量往往未被充分利用,而潜艇密闭空间二氧化碳清除方式存在缺点。针对长期困扰AIP潜艇的两大痛点,提出将AIP潜艇液氧冷量回收利用与潜艇二氧化碳清除两者有机结合的一体化的解决方案。[方法]将液氧作为冷源处理舱室空气,依据空气各组分相变点温度不同的特性,在常压下将空气中二氧化碳冻结(凝华)分离出来。[结果]通过数据量化分析,论证了在潜艇自持力范围内液氧储存的能量基本上能满足冻结艇员呼吸代谢产生的二氧化碳对冷量的需求,并提出了三级工作流程与实施方案。[结论]所提出的技术方案可回收利用占比5%的低温冷量,是一种符合综合集成、节能降噪和总体资源充分融合思想的解决方案,可用于以AIP系统作动力的潜艇、潜器和深海空间站等密闭空间的空气净化和二氧化碳清除。

寒地水稻增氧浸种催芽方法试验研究

浸种催芽是种植水稻过程中决定性的一环,其要素是水、气、热条件。现在的寒区水稻浸种催芽过程中,农户仅对水、热条件进行经验性控制,智能化程度低,劳动强度大,且浸种效果相对较差。采用正交设计方法试验分析了温度、曝气间隔、浸种时长的耦合试验,得到这3个因素对水稻种子发芽率、芽长及其均匀度的影响程度从大到小依次为曝气间隔、浸种时长、温度,且理想的一组因素水平为浸种温度30℃、曝气间隔1h、浸种时间46h。

多参数功能MRI评价冷缺血再灌注肾损伤大鼠肾脏血流及氧合水平的价值

目的探讨动脉自旋标记(ASL)和血氧水平依赖(BOLD)技术评估冷缺血再灌注损伤(CIRI)大鼠肾脏血流和血氧微观改变的价值。方法将100只健康雄性SD大鼠随机分为4组,分别为肾脏冷缺血1 h组(CIRI 1 h)、冷缺血2 h组(CIRI 2 h)、冷缺血4 h组(CIRI 4 h)组及假手术组(CIRI 0 h),每组25只。每组随机选取5只分别在术前、术后(1 h、1 d、2 d、5 d)进行ASL及BOLD MRI,测量肾皮质的血流量(RBFCo)值及T_(2)^(*)值(T_(2)^(*)Co)、肾外的髓外带T_(2)^(*)值(T_(2)^(*)OSOM)和肾外髓内带T^(2*)值(T^(2*)ISOM)。随后切除大鼠左肾进行病理学分析并对肾小管损伤程度评分。采用单因素方差分析比较各组间及组内的不同时间点之间MRI参数和大鼠肾小管损伤程度评分之间的差异;采用Pearson相关分析MRI参数间及MRI参数与肾小管损伤程度评分的相关性。结果术后1 h,冷缺血组大鼠肾脏RBFCo、T_(2)^(*)_(Co)、T_(2)^(*)_(OSOM)值均较术前减低(均P<0.05);术后5 d,CIRI 0 h、CIRI 1 h组的RBFCo、T_(2)^(*)_(Co)、T_(2)^(*)_(OSOM)、T^(2*)_(ISOM)值恢复至其术前水平(均P>0.05),CIRI 4 h组上述指标仍低于术前水平(均P<0.05)。术后1 h、1 d、2 d,CIRI 4 h组T_(2)^(*)OSOM值均较其他各组低;术后5 d,CIRI 4 h组RBFCo、T^(2*)_(Co)、T^(2*)_(OSOM)、T^(2*)_(ISOM)值均低于CIRI 0 h组(均P<0.05)。CIRI 2 h组、CIRI 4 h组的术后各时间点的肾小管损伤程度评分均高于其术前(均P<0.05),术后随时间延长,评分呈减低趋势;术后各时间点,CIRI 4 h组评分均较CIRI 0 h、CIRI 1 h组高;术后1 h、2 d、5 d,CIRI 2 h组的评分均较CIRI 0 h、CIRI 1 h组的要高(均P<0.05)。RBF_(Co)、T_(2)^(*)Co、T_(2)^(*)_(OSOM)、T^(2*)_(ISOM)值与肾小管损伤评分均呈中度负相关(r=-0.714、-0.689、-0.518、-0.579,均P<0.001);RBFCo值与T_(2)^(*)_(Co)、T^(2*)_(OSOM)、T^(2*)_(ISOM)值呈中度正相关(r=0.704、0.525、0.612,均P<0.001);T_(2)^(*)_(Co)值与T_(2)^(*)_(OSOM)、T_(2)^(*)_(ISOM)值呈中度正相关(r=0.685、0.572,均P<0.001);T_(2)^(*)_(OSOM)值与T_(2)^(*)_(ISOM)值呈中度正相关(r=0.606,P<0.001)。结论ASL和BOLD成像可动态评估肾CIRI后组织血流及氧合水平的微观变化,为早期发现肾CIRI提供影像学依据。

凉山黑绵羊主要生理生化指标的测定与分析

为丰富凉山黑绵羊基础理论研究数据,加快凉山黑绵羊的开发利用与保护,在凉山黑绵羊的主产区四川省凉山彝族自治州布拖县随机选择不同数量的凉山黑绵羊,对不同组织、体温、血液指标、血清生化指标等进行测定并分析。结果显示:成年凉山黑绵羊心脏宽度、厚度、高度分别为68.0、43.5、102.1 mm,心脏、肝脏、肺脏重量分别为182.6、716.4、797.6 g;成年羊体温为38.3~39.2℃,早上偏低,晚上偏高,但温差不超过1℃;3~6月龄羔羊体温为38.2~39.1℃,和成年羊体温基本一致;红细胞数(RBC)为3.29×10^(12)~13.93×10^(12)/L,血细胞比容(HCT)为17.80%~41.20%,显著高于低海拔地区小尾寒羊的相应指标;血小板数(PLT)为223×10^(9)~552×10^(9)/L,血小板压积(PCT)为0.10%~0.28%,平均血小板体积(MPV)为3.9~5.2 fL,均极显著低于低海拔地区小尾寒羊的相应指标;总蛋白(TP)含量为50.9~81.4g/L,球蛋白(GLO)含量为25.5~51.0g/L,肌酐(CRE)为62.6~103.4μmol/L,尿素氮(BUN)为3.84~9.18 mmol/L,均高于低海拔地区小尾寒羊的相应指标,其中CRE差异极显著,BUN差异显著,其他指标差异不显著。结果表明,凉山黑绵羊生理生化指标与低海拔地区绵羊有一定差异,差异可能与高寒低氧适应性有关。

低温胁迫对不同品种哈密瓜果实活性氧代谢的影响

为探究低温贮藏过程中冷害对不同品种哈密瓜果实活性氧代谢的影响,选用“西州密25号”和“伽师瓜”两种哈密瓜作为研究材料。将哈密瓜存放在温度(3.0±0.5)℃的冷库中,每7 d进行一次取样,共取样6次,试验周期为42 d。试验期间,记录两种哈密瓜在贮藏期间的冷害症状,并测定冷害指数以及活性氧(reactive oxygen species,ROS)代谢的相关指标。结果表明,“伽师瓜”的冷害症状明显轻于“西州密25号”,在采后贮藏过程中,两个品种哈密瓜果实细胞膜透性及丙二醛(malondialdehyde,MDA)含量升高,脂肪酸去饱和酶(fatty acid desaturase,FADs)活性持续下降,表明细胞膜受损。O_(2)^(-)·生成速率和H_(2)O_(2)含量均有上升趋势,并且耐冷性较差的“西州密25号”生成的活性氧要多于耐冷性较好的“伽师瓜”。两个品种哈密瓜果实过氧化氢酶(catalase,CAT)活性、抗坏血酸过氧化物酶(ascorbate peroxidase,APX)活性均呈现先升高后降低的趋势,过氧化物酶(peroxidase,POD)活性、超氧化物歧化酶(superoxide dismutase,SOD)活性在整个贮藏期内有所下降,同时抗坏血酸-谷胱甘肽(ascorbic acid-glutathione,ASA-GSH)循环里的还原型谷胱甘肽(reduced glutathione,GSH)含量及谷胱甘肽还原酶(glutathione reductase,GR)活性显著提高,“伽师瓜”以上指标均高于“西州密25号”。哈密瓜果实在发生冷害后细胞膜会遭到破坏,从而导致相关抗氧化物酶活性降低,活性氧相关指标上升,耐冷性好的品种抗氧化能力较强,活性氧生成速率较慢。

贮藏温度对百香果果皮性状及其活性氧代谢的影响

目的探讨贮藏温度对采后百香果果皮性状及其活性氧代谢的影响。方法以金福7号百香果为试材,通过测定贮藏过程中失重率、果皮色度值、果皮中的一些活性氧代谢指标的变化规律,来探究贮藏温度对百香果果皮理化性质的影响。结果同常温相比,低温条件下百香果失重率相对较低,而且失重速率较小。低温贮藏能有效维持百香果的L^(*),低温下的a^(*)相对较低,且a^(*)正值出现的时间也较晚,对b^(*)影响不大。低温在一定时间内不仅可以减缓超氧阴离子自由基(superoxide anion,O_(2)^(-)·)产生速率的变化,而且还可以保持相对较高的抗氧化性。结论低温下百香果果皮水分含量和色泽表现良好,一定时间内其果皮的抗氧化活性较高。结合相关性分析结果得出,在贮藏的过程中尤其冷藏时如果注意采取适当的保水措施,并使百香果果皮保持较高的超氧化物歧化酶(superoxide dismutase,SOD)和过氧化物酶(peroxidase,POD)活性,可以延长其贮藏期并使其保持较好外观品质。

高速低温喷涂气固作用行为及喷涂系统研究进展

高速低温喷涂是利用固相或含固相的低温粉末在高速度、高动能作用下碰撞基体表面沉积的喷涂方法,具有氧化轻微、结合牢固、组织致密、综合力学性能优异等潜在优势,在高性能金属或金属基复合材料涂层制备、增材制造和零件损伤修复等领域获得广泛关注。以粉末低温高速碰撞沉积过程为主线,凝练现有冷喷涂和低温超音速火焰喷涂两种具体工艺的共性特征,阐明喷涂气流与粉末颗粒的气固两相交互作用规律,分析出合理调控颗粒温度和速度是改善沉积体性能的关键。其次分析高速低温喷涂设备系统的构成,详细讨论各核心部件的结构设计策略及对气固流动行为的影响,总结出通过调整工艺参数与喷枪结构,可以实现颗粒温度和速度的按需控制。最后,对高速低温喷涂工艺及设备系统发展目前尚存的关键问题进行展望。总结如何通过喷涂参数与装置设计,最终达成调控沉积体性能的目的,有助于深入理解高速低温喷涂的沉积机理,对研制高性能的喷涂设备系统具有参考意义。

10000 m^(3)/h制氧机组拆除实践与创新

武汉钢铁集团气体有限责任公司现有2套10000 m^(3)/h制氧机组,因运行年限较长需整体拆除。结合2套制氧机组现场拆除案例,总结了拆除前准备、机器设备拆除、冷箱及冷箱内塔器拆除等工作经验,尤其创新性地利用冷箱壁搭建施工平台,节约了拆除成本,提高了拆除效率,可供类似设备拆除借鉴。

双孢蘑菇采后冷链流通过程品质劣变及活性氧代谢规律

探究双孢蘑菇采后冷链流通过程中子实体品质劣变及其活性氧代谢的变化规律。本试验对双孢蘑菇子实体在采后预冷、冷链运输过程及模拟低温货架期的感官品质、主要生理指标及活性氧代谢情况进行动态测定,并运用Pearson相关性分析软件探究品质劣变与生理指标及活性氧代谢之间的相关性。结果显示:冷链流通过程中,双孢蘑菇在预冷及冷链运输过程中品质变化不大,而在模拟超市低温货架期(12℃±1℃)贮藏期间出现品质逐渐劣变。在第3天出现呼吸高峰,之后其感官品质迅速下降,主要表现为萎蔫、褐变、开伞、质地软化等。同时,其生理指标也发生了显著变化,表现在可溶性固形物(SSC)含量、总抗氧化能力(T-AOC)下降,相对电导率(RC)、总酚(TP)、丙二醛(MDA)、O_(2)·^(-)和H_(2)O_(2)的含量及活性氧(ROS)代谢相关酶活性呈动态上升的趋势。通过Pearson相关性分析得出:双孢蘑菇采后褐变与多酚氧化酶(PPO)活性、总酚含量、丙二醛含量的变化存在显著相关性,且褐变受到多酚氧化酶、过氧化物酶(POD)和超氧化物歧化酶(SOD)活性和酚类物质含量变化的影响。其中褐变与多酚氧化酶的相关性最高(R^(2)=0.95),失重率(WL)与丙二醛含量变化有很强的相关性(R^(2)=0.90)。随着贮藏时间的延长ROS不断积累,而抗氧化酶系中虽然PPO酶活性呈上升趋势,而总抗氧化能力呈下降趋势,导致其贮藏品质劣变加速。根据这些规律可更准确预测双孢蘑菇货架期,并为采后冷链流通与货架销售期间品质监测提供一定的理论指导。

空分装置氧气系统的液氧管道设计

空分装置的氧气系统管线因输送介质是高纯高压氧气,具有极强的氧化性。结合国内某大型气体岛空分装置建设实例,分析了氧气系统管道的材质选择、液氧储罐与泵之间的管道布置、液氧管道“死区”的优化设计,以及液氧管道保冷管托的选型,并给出合理化设计建议。

低温等离子体活化溶液在抑菌及清除生物被膜中的研究进展

细菌通过群体感应(QS)分泌信号分子和细胞外聚合物(EPS),使细菌聚集和黏附到生物和非生物表面,在一定条件下形成抗性强、危害性大的生物被膜。目前,生物被膜在医疗、食品和农业等领域中的危害日益严重。尤其是一些致病菌不仅对人类健康构成威胁,甚至会造成较大的社会经济损失。一些传统消毒、杀菌方法难以将其彻底清除,且存在二次污染风险。生物被膜在不同介质表面的强黏附性是其难以被清除的主要原因之一。因此,采用高活性的溶液进行浸泡、清洗是去除生物被膜的有效策略。低温等离子体活化水中的活性氧(ROS)和活性氮(RNS)能破坏细菌的细胞壁、肽聚糖结构,有效抑制微生物黏附和聚集。低温等离子体活化水作为一种高效消毒抑菌溶液,被广泛应用于生物医学、食品去污和种子萌发领域。但低温等离子体活化水中活性物质易消散,难以长期贮藏,导致其抑菌性能减弱。近年来,通过向低温等离子体活化水中添加不同介质或联合其他技术制备的低温等离子体活化溶液,有效延长了活性物质的衰退,使其逐渐成为消毒、抑菌研究的新方向。本文综述了低温等离子体活化水和低温等离子体活化溶液的杀菌作用机理及其对生物被膜的清除效果,重点介绍了生物被膜的形成过程。旨在为环境、医疗及食品行业的生物被膜清除和控制提供理论参考。

组合式起动辅助措施对车辆高原高寒起动性能的影响

目的 提高车辆在高原高寒环境下的起动性能。方法 通过仿真方法研究高原高寒极端环境下组合式起动辅助措施对柴油机冷起动性能的影响,基于高原高寒环境模拟起动试验系统针对某测试车辆开展的高原高寒起动试验,验证组合式起动辅助措施对车辆高原高寒起动性能的改善效果。结果 对比分析了海拔5 500m、–35℃条件下某型柴油机加装4种不同构型的组合式冷起动辅助措施的起动过程,经过仿真和试验验证,在海拔5 500 m、–35℃条件下,采用进气预热器、燃油加热器、大容量低温蓄电池并联以及进气加氧装置的组合式冷起动辅助系统能够成功起动车辆。结论 进气中增加适量的氧气能够显著提升高原高寒起动过程中各循环的燃烧效率,增加着火循环数,同时提高各循环的做功能力。采用预热(进气和冷却液)、转速提升和进气加氧的组合措施能够显著改善高原高寒极端环境条件下车辆的起动性能。