1) energy use intensity
耗电密度
1.
Analyses the energy consumption,energy consumption proportions and regressions based on the monitoring data,and establishes the energy consumption model,including the regression equations of the energy use intensity(EUI) and the demand use intensity(DUI),thus the power demand and energy consumption can be forecast.
对长期监测所得到的耗电数据进行了耗能分析、耗能分项比分析以及耗能量回归分析,建立了办公建筑耗能量模型,包括单位面积耗电密度回归方程、单位面积用电需量强度回归方程,得以预测办公建筑用电需求及耗能量。
2) power-wasting density
耗能密度
1.
Nonetheless,there are many restricting factors including pressure,gas velocity,ionization electric field intensity,input power,power-wasting density and so on,and few published literatures had reported it.
大气压非平衡等离子体的输运特性直接制约着工业电收尘和飞行器等离子体隐身的进一步发展,影响该输运特性的因素较多,包括放电区的压力、气体流速、电场强度、注入功率密度及其耗能密度等。
3) loss density
损耗密度
4) dissipated energy density
耗散能密度
1.
Relation between the stress amplitude and the dissipated energy density in fatigue process and the critical cumulative dissipated energy density for material damage were studied experimentally on A3 steel and LY12CZ hard aluminium alloy respectively.
试验测量了A3钢和铝合金LY12CZ在疲劳过程中的耗散能密度与应力幅的关系和破坏时的临界累积耗散能密度。
5) Dissipated Energy Density
能量耗散密度
1.
Safety Prediction About the Smart Pressure Vessel Based on Dissipated Energy Density;
基于能量耗散密度理论的智能材料压力容器的安全评估研究
6) loss meter
损耗电度表
补充资料:非密度制约因素(见密度制约因素)
非密度制约因素(见密度制约因素)
l焦非密度制约因素见生态因素、密度制约后
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条