研究它的高效节能运行模式,也就是时间—能量综合最优控制意义重大。
It is important to study the most effective energy saving (i. e. combined time energy optimal) operation control mode.
同时,LG变频器的自动节能模式,可使电机在满足负载转矩要求下以最小电流运行,达到更好的节电效果。
At the same time, the automatic energy-saving mode frequency converter LG, can make the motor in the meet load torque requirements to minimum current operation, to reach better energy saving effect.
结果表明,与土壤源热泵相比,联合供暖运行模式具有明显的节能效果,有、无蓄热水箱时的节能率分别为14。
The result shows that comparing with ground source heat pump, the energy saving rate with and without heat storage water tank is 14.
空调运行管理是实现空调节能的重要途径,对空调运行控制模式研究十分必要。
Operating management is an important means of air-conditioning energy saving, it is very necessary on researching air-conditioning operating control mode.
实践证明这种控制模式能够较好地实现中继气体加压站稳压供气和节能运行。
The practice shows this control method can achieve stable mixed gas supply and ensure the economic running for relay gas pressing station finely.
介绍了注水站单机组运行模式和多机组运行模式下的节能效果评价方法和计算公式,并对评价计算公式进行了说明。
It also introduces on the evaluation method of energy saving effect and calculation formulae under the running mode of singe-unit and multi-unit and also explains the calculation formulae.
本文重点研究了太阳能-热泵耦合系统运行模式的节能效果,并结合实验数据建立了系统的热泵机组数学模型、土壤换热器数学模型。
The models of the solar collectors, heat pumps and the ground heat exchangers were established combing the experimental data. The temperature probe was installed under the ground.
结果表明,与土壤源热泵相比,联合供暖运行模式具有明显的节能效果,有、无蓄热水箱时的节能率分别为14.5%和10.4%;
The result shows that comparing with ground source heat pump, the energy saving rate with and without heat storage water tank is 14.5% and 10. 4% respectively.
如果用户改变运行模式,随后恢复到节能智能模式,控制装置会记忆最佳温度范围,并自动按照最佳温度范围运行。
If the user changes the mode and later returns to Energy Smart, the control will remember the optimum temperature range, and automatically operate in the optimum range.
建筑围护结构和设备的节能设计是实现建筑节能与室内热舒适的两个重要手段,不同的设备运行模式会导致不同的建筑和设备节能设计。
The designs of building structure energy efficiency in building and in equipments are two important ways to realize building energy efficiency and thermal comfort.
使系统各个部分运行在节能模式下,较好地优化了节点能耗,提高了节点能量利用率,从而有效延长了网络的生存寿命。
It is better than direct supply with battery in stability and consistency. The power consumption of nodes is optimized to increase the nodes power use and extend the network life.
使系统各个部分运行在节能模式下,较好地优化了节点能耗,提高了节点能量利用率,从而有效延长了网络的生存寿命。
It is better than direct supply with battery in stability and consistency. The power consumption of nodes is optimized to increase the nodes power use and extend the network life.
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