Results 31 to 40 of about 59,065 (186)
血压计橡皮气袋除用于测量血压外,还可用于临时加压输血中。方法为:于输血前将橡皮气袋紧裹于血袋的外面,准备好后,将血袋挂于输液架上。检查针柄端连接是否牢靠。需加压输血时,先阻断橡皮气袋连接血压计的通气管,然后充气至一定压力(勿过度充气),见滴速加快即可...
李晓敏
doaj
ABSTRACT Chemically self‐charging aqueous zinc‐ion batteries (AZIBs) have emerged as promising candidates for energy storage technologies owing to their environmental autonomy and structural simplicity. Nonetheless, the self‐charging performance is significantly compromised by the limited potential difference between cathodes and oxygen, as well as the
Yan Wang +5 more
wiley +1 more source
针对液压机构液压系统气体污染的危害问题,介绍了高压断路器液压机构的工作原理,分析了液压系统气体污染产生的途径,重点论述了气体污染对系统运行的危害——造成渗漏油、动作时间不稳定、气蚀等现象,最后提出了防范气体污染的措施,主要从结构设计和整体布置上避免气体的存留,并采取抽真空或加装排气阀的方法进行排气处理,有效控制液压系统的气体污染。
邹高鹏
doaj
Read the free Plain Language Summary for this article on the Journal blog. Abstract Forests worldwide are increasingly impacted by drought due to climate change, prompting plants to adapt through dehydration tolerance (DT) and avoidance (DA), two distinct physiological strategies.
Xingyun Liang +11 more
wiley +1 more source
在较大分子的气体(如SF6)中,正、负电晕起始电压有明显差别,而且随着气体压强增加而增大。而在较小分子的气体(如空气)中,正、负电晕起始电压基本相同。不仅Trichel(负电晕)脉冲是有规律的,在较低气压下的SF6气体中,正电晕脉冲也是有规律的。电晕稳定效应不仅受气压影响,而且受尖端半径的影响。对于空气中的正电晕,当尖端半径很小时,击穿电压并不升高。
李尔宁, 刘延冰, 沈悦
doaj
ABSTRACT The transformative potential of gallium nitride high electron mobility transistors (GaN HEMTs) in advancing carbon‐neutral power systems remains bottlenecked by contact resistance (Rc) at the metal–semiconductor (M‐S) interface, a critical determinant of switching losses and frequency response.
Ji‐Zhou Zhang +8 more
wiley +1 more source
一、引言测量气体流速通常用皮托管。皮托管用来测量气流的总压和静压之差,也就是动压,而求出气体的流动速度。这样,流速的测量也能归结为气体压差的测量。测量气体压差还可用来测量流动管道各段的压头损失和动力源(如风机等)的增压。一般来说,测量气体压差有多种方法。U管压强计、斜管式压强计,双液式差压计是其中的一些常用方法。所充的液体也根据不同的测试要求和范围,有水银、水、酒精 ...
林光海
core
笔者采用压阻式压力传感器和光纤压力传感器对252 kV压气式断路器空载和10 kA开断电流条件下灭弧室内的暂态气压进行了测量,得到了灭弧室内压气缸、喷口上游、喷口喉部、喷口下游4个测点的暂态气压,并对试验方法和测试系统进行了介绍。试验证明,压阻式压力传感器和光纤压力传感器均可以有效测量断路器灭弧室的暂态气压,导压管长度对测量结果的影响不容忽视。
李艳 +4 more
doaj
ABSTRACT Developing low‐energy‐input electrocatalytic systems for efficient hydrogen production is crucial for advancing sustainable energy technologies. The overall hydrazine splitting (OHzS) has emerged as a promising strategy to reduce the overall energy consumption by replacing the sluggish oxygen evolution reaction.
Haozhou Chen +13 more
wiley +1 more source

