The plane circled the airport to burn up excess fuel.
飞机在机场上空盘旋以耗掉多余的燃料。
The crew jettisoned excess fuel and made an emergency landing.
机组人员丢弃了多余的燃料,紧急着陆。
Once I started to think of eating in those terms, it was much easier to focus on choosing the right fuel to get my body burning up the excess fat.
一旦我想吃这种食物,就更容易重点选择恰当的燃料,以便让我的身体燃烧过多的脂肪。
There, they could store excess power from renewables and help smooth small fluctuations in power, making the grid more efficient and reducing the need for backup fossil-fuel plants.
这样,这些锂离子电池可以从可再生能源中存储多余的能源,有助于平抑电能供应的小波动,提高电网的效率,降低对备用火电厂的需求。
Once rationing is introduced these will be used to measure a monthly allowance of subsidised fuel and to charge more for excess consumption.
一旦汽油配给制度实施,它将用来测量记录单月额定汽油消费量,并对额外的量高价收费。
Excess heat can also contribute to fuel inefficiency, because the substances in gasoline can decompose because of high temperatures.
过热也会造成耗油,因为汽油中的物质会在高温下分解。
So you put in more fuel, more uranium 235, a higher enrichment and you need to balance that excess reactivity in a number of ways.
所以你放入更多的燃料,更多的铀,一个能咖的浓缩度,你需要平衡,剩余反应性,用很多方法。
The potential for efficiency improvement depends mainly on the fuel type fired, the exit flue-gas temperature, the process fluid temperature, the low-level heat required, and the excess air etc.
冷凝式锅炉的热效率提高潜力主要取决于燃料种类、锅炉本体的排烟温度、工艺流体的温度、所需的低品位热能的数量、过量空气系数等。
Studies the fuel kinds, the exit gas temperature of the hot air furnace, the excess air coefficient and the air moisture and temperature 'influence for waste heat loss.
研究了燃料种类、热风炉的排烟温度、过量空气系数以及燃烧空气湿度和温度对排烟热损失的影响规律。
By analyzing on composition and formation mechanism of ash deposit, the measures of decreasing salt and heavy metal contained in fuel oil and waste liquid and appropriately decreasing excess air co...
分析了积灰的组成和形成机理,提出了减少燃料油和废液中的盐分和重金属、适当降低燃烧的过剩空气系数等措施。
If you're exercising in excess of one hour, then you need to fuel during the exercise.
如果你的锻炼时间超过1小时,那么你需要在锻炼间补充。
The effects of nozzle structure, fuel gas injection velocity and excess air coefficient on NOx emission in high temperature air combustion were investigated.
通过两种结构烧嘴的热态燃烧试验对比,研究了烧嘴结构、燃气射流速度、过量空气系数对高温空气燃烧过程氮氧化物排放的影响特性。
The flow rate of the secondary air is thus controled, and the excess air is restricted to minimum so as to decrease the fuel consumption of the furnace.
由此控制二次风量大小,以保持最低过剩空气量,达到节能目的。
By means of an identified adaptive neural fuzzy inference system (ANFIS) model of the excess air factor, the simulation of static state air fuel ratio feed-forward control was carried out.
借助于辨识的过量空气系数自适应神经网络模糊推理系统(ANFIS)模型,进行了静态空燃比前馈控制仿真。
By means of an identified adaptive neural fuzzy inference system (ANFIS) model of the excess air factor, the simulation of static state air fuel ratio feed-forward control was carried out.
借助于辨识的过量空气系数自适应神经网络模糊推理系统(ANFIS)模型,进行了静态空燃比前馈控制仿真。
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