A.抗拉强度
B.屈服强度
C.伸长率
D.屈强比(Rt 0.5/Rm)
A . 系统空气使用量太大或空气管路泄漏
B . 空气过滤器堵塞,进气量不足
C . 空压机进气调节阀失灵
D . 空压机跳闸
根据气力输送的特点,降低动力消耗,节约能源是一个重要的研究课题,从经验中知,管道内径是关于能耗的重要参数。直观上看,当输送量一定时,管径过小,输送易阻滞,管径过大,虽输送畅通,但又造成能量的浪费。根据经验,把管径分成三组,各组的试验结果如下表所示,试用方差分析法比较各组的效果.
管径(mm) | 单位功耗 |
230 | 0.0308,0.0476,0.0504 |
250~260 | 0.0532,0.032,0.0218,0.028,0.028, 0.042,0.0336,0.042,0.042,0.028 |
280~320 | 0.07,0.07,0.0644,0.0312,0.0756,0.0756, 0.07,0.0588,0.0588,0.042,0.0308,0.0364, 0.0448,0.21,0.154,0.1064,0.1288,0.112, 0.1064,0.1288,0.0756,0.0644,0.0504,0.0644, 0.0504,0.0308 |
东北高层,地下三层及裙楼三层为商场,塔楼三十三层、一梯四户式住宅。
1、该住宅排烟设施应采用可开启外窗的自然排烟设施。
A、对
B、错
2、该商场空气调节系统由()部分组成。
A、冷热源
B、空气处理设备
C、空气输送管网
D、室内空气分配装置
E、回风控制设备
3、该商场空调系统应选用()式空调类型。
A、集中
B、分散
C、半集中
D、半分散
4、综合强度、安全、经济的因素,该商场空调风管应选用()板。
A、塑料复合钢
B、铝合金
C、硬聚氯乙烯塑料
D、玻璃钢
A.传感系统收集环境信号传输给ECU
B.ECU控制电磁阀,高压气体充入空气弹簧,车身高度上升
C.ECU控制电磁阀,空气弹簧放气,车身高度上升
D.当储气罐内气体压力不足时,ECU控制电机启动压缩机