1)multi-load多负载
1.To reduce the no load losses in some solutions, a RFID based implementation of multi-load powering system is presented in this paper.本文针对部分无线供电方案中空载损耗大的问题,提出了一种基于RFID技术的、支持多负载检测的无线供电方案,可以减少空载损耗,提高系统效率。
2.To reduce the no load losses in some solutions,a RFID based implementation of multi-load powering system is presented in this paper.本文针对部分无线供电方案中空载损耗大的问题,提出了一种基于 RFID 技术的、支持多负载检测的无线供电方案,可以减少空载损耗,提高系统效率。
2)multiple loads多负载
1.the question on power control of general contactless power supply platform with multiple loads is solved,avoiding a total system failure,and stable operation is ensured,especially the fluctuation or disappearance of loads.利用新颖的自维持动态解谐控制方法解决了非接触通用供电平台多负载情况下,单个负载突然变动或波动较大时,对其他用电器的功率影响问题,避免了系统的崩溃,为多负载非接触感应耦合电能传输系统的稳定运行提供了保障。
3)Heteropoly acid负载杂多酸
1.Trimethylolhexane triheptanoate was synthesized from self - prepared trimethylolhexane as raw material by using a kind of special self - prepared catalyst - carried heteropoly acid.以实验室自制的三羟甲基己烷为原料,采用自制的特殊催化剂——负载杂多酸催化合成了三羟甲基己烷三庚酸酯,并利用正交设计实验确定了最佳酯化工艺条件:反应时间为120 min,反应温度为220 ℃,残压为0。
英文短句/例句
1.Study on New type Heteropoly Acid Supported Catalyze the Synthesis of ACRY LATE;新型负载杂多酸催化合成丙烯酸酯的研究
2.Study on Photocatalytic Decolorizing of Dye-containing Waste Water by Supported Heteropolysalts;负载杂多酸盐光催化染料废水脱色性的研究
3.Study on Supported Heteropolyacid Catalyst for Isopropylation of Naphthalene;萘的异丙基化反应中负载杂多酸催化剂研究
4.Studies on Heteropoplyacid Catalysts Supported on Modified Zeolites for the Hydroisomerization of Paraffins;改性沸石负载杂多酸烷烃异构化催化剂研究
5.Study of n-Butane Isomerization over Sopported Heteropoly Acid Catalysts;负载杂多酸催化剂的正丁烷异构化研究
6.Synthesis of ketals of ethyl acetoacetate catalyzed by active carbon supported heteropoly acid under microwave irradiation微波辐射活性炭负载杂多酸催化合成乙酰乙酸乙酯缩酮
7.Investigation on Alkylation of Isobutane with Butene over Heteropolyacid Catalyst Supported on Carbonized Resin;炭化树脂负载杂多酸催化异丁烷与丁烯烷基化反应研究
8.The Kinetics Research of Benzene with 1-Dedocene on Supported Heteropoly-acid Catalyst;负载杂多酸催化剂上合成直链烷基苯的动力学研究
9.Synthesis of octadecyl naphthenate with supported tungstophosphoric heteropoly acid as catalyst负载型磷钨杂多酸催化合成环烷酸正十八酯
10.Study of Supported Tungstophosphorous Heteropoly Acid Catalyst for Synthesizing Octyl-glucoside;负载型磷钨杂多酸催化剂合成辛基多苷的研究
11.Study on Supported Heteropoly Acids for Ethane and Propane Partial Oxidation;负载型杂多酸上乙烷、丙烷部分氧化反应的研究
12.Application of Heteropolyacid and Its Supported Catalysts in Friedel-Crafts Reactions;杂多酸及其负载型催化剂在F-C反应中的应用
13.Study on SiO_2 Aerogel Supported HPW Catalyst for THF PolymerizationSiO_2气凝胶负载磷钨杂多酸催化THF聚合研究
14.Study on Photocatalytic Degradation of Methyl Violet with Na_3PW_(12)O_(40)/SiO_2二氧化硅负载磷钨杂多酸钠光催化降解甲基紫
15.Selective Nitration of Chlorobenzene with N_2O_5 Assisted by Supported Heteropoly Acids负载型杂多酸催化下N_2O_5对氯苯的选择性硝化
16.Synthesis of Butyl Lactate on Heteropoly Acid Catalysts Supported on Hβ ZeoliteHβ沸石负载的杂多酸催化剂上乳酸正丁酯的合成
17.Study on the Synthesis of Alkyl Polyglucosides Using Tungstophosphoric Acid Catalysts Supported on Activated Carbon;活性炭负载磷钨杂多酸催化合成烷基多苷的研究
18.Catalytic synthesis of cyclohexanone ethylene ketal with H_3PW_6Mo_6O_(40)/TiO_2二氧化钛负载磷钨钼杂多酸催化合成环己酮乙二醇缩酮
相关短句/例句
multiple loads多负载
1.the question on power control of general contactless power supply platform with multiple loads is solved,avoiding a total system failure,and stable operation is ensured,especially the fluctuation or disappearance of loads.利用新颖的自维持动态解谐控制方法解决了非接触通用供电平台多负载情况下,单个负载突然变动或波动较大时,对其他用电器的功率影响问题,避免了系统的崩溃,为多负载非接触感应耦合电能传输系统的稳定运行提供了保障。
3)Heteropoly acid负载杂多酸
1.Trimethylolhexane triheptanoate was synthesized from self - prepared trimethylolhexane as raw material by using a kind of special self - prepared catalyst - carried heteropoly acid.以实验室自制的三羟甲基己烷为原料,采用自制的特殊催化剂——负载杂多酸催化合成了三羟甲基己烷三庚酸酯,并利用正交设计实验确定了最佳酯化工艺条件:反应时间为120 min,反应温度为220 ℃,残压为0。
4)multimedia workload多媒体负载
1.Analysis of model of concurrent multimedia workloads retrieving data form storage systems;并发多媒体负载访问存储系统的模型分析
5)multi-loads system多负载系统
6)multi-load transfluxor多负载多孔磁心
延伸阅读
多苯基多亚甲基多异氰酸酯 多苯基多亚甲基多异氰酸酯,简称PAPI,或称粗MDI,浅黄色至褐色粘稠液体.有刺激性气味。相对密度(20℃/20 ℃)1.2,燃点218℃。PAPI实际上是由50%MDI与50%官能度大于2以上的多异氰酸酯组成的混合物。升温时能发生自聚作用。溶于氯苯、邻二氯苯、甲苯等。PAPI的活性低,蒸气压低,只是TDI的百分之一,故毒性很低。 用于制造聚氨脂胶粘剂。也可直接加入橡胶胶粘剂中,改善橡胶与尼龙或聚酯线的粘接性能。贮存于阴凉、通风、干燥的库房内,远离火种、热源。严格防水、防潮,避免光照。
