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flying temperature
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  “flying temperature”译为未确定词的双语例句
     Variations in flight capacity of adults at different temperatures were primarily caused by differences in triglyceride utilization efficiency by the moth, i.e., the triglyceride utilized for a given flight distance at suitable temperature was much less than at the unsuitable temperature, which might be one of the major reasons for difference in flight capacity of the moth at different flying temperature.
     在较适宜的温度下 ,尽管成虫飞行消耗的甘油三酯较多 ,但单位飞行距离所消耗的甘油三酯却较少 ,即利用效率较高 ,表明成虫飞行能源物质利用效率的不同是导致其在不同温度下飞行能力产生差异的主要原因之一。
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  相似匹配句对
     T-temperature, K;
     T—溶液温度,K;
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     Flying
     我在飞
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     ON TEMPERATURE
     谈谈温度
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     On the flying safety associated with the air temperature and pressure
     气温、气压对飞行安全的影响分析
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     Flying with the Pain
     携痛飞翔
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Flight capacity and triglyceride utilization of the beet armyworm, \% Spodoptera exigua\% adults during flight at temperatures from 16℃ to 32℃ were investigated. The moths flying at 24℃ exhibited the greatest flight distance and longest flight duration although they could fly normally at all temperatures tested. Adult flight capacity significantly declined at temperatures below 20℃ or above 28℃.These results suggested that the temperature most suitable for their flight be about 24℃. Utilization of energy substrate...

Flight capacity and triglyceride utilization of the beet armyworm, \% Spodoptera exigua\% adults during flight at temperatures from 16℃ to 32℃ were investigated. The moths flying at 24℃ exhibited the greatest flight distance and longest flight duration although they could fly normally at all temperatures tested. Adult flight capacity significantly declined at temperatures below 20℃ or above 28℃.These results suggested that the temperature most suitable for their flight be about 24℃. Utilization of energy substrate by the moths during flight was greatly affected by ambient temperature. Variations in flight capacity of adults at different temperatures were primarily caused by differences in triglyceride utilization efficiency by the moth, i.e., the triglyceride utilized for a given flight distance at suitable temperature was much less than at the unsuitable temperature, which might be one of the major reasons for difference in flight capacity of the moth at different flying temperature.

温度对甜菜夜蛾飞行能力有显著的影响 (P <0 0 5 )。在 16~ 32℃内 ,成虫均能进行正常的飞行活动。 2 4℃下的成虫飞行能力最强 ,在 15h的吊飞飞行中 ,成虫飞行距离最远 (37 14km)、飞行速度最快 (0 87m s)、飞行时间最长 (11 73h)。温度低于 2 0℃或高于 2 8℃时 ,其飞行能力均显著降低。甜菜夜蛾在不同温度下飞行时对主要能源物质 (甘油三酯 )的利用效率不同。在较适宜的温度下 ,尽管成虫飞行消耗的甘油三酯较多 ,但单位飞行距离所消耗的甘油三酯却较少 ,即利用效率较高 ,表明成虫飞行能源物质利用效率的不同是导致其在不同温度下飞行能力产生差异的主要原因之一。

Orthogonal-collocation method can be used for the numerical solution of boundary-problems in differential equations. Coupled with computer technique,rapid calculation with high precision can be aquired with this method. The article has introduced the way that using two-dimensional pseudo-homogeneous model and orthonal-collocation method to simulation fixed-bed reactor for oxidation of o-xy lene to phthalic anhydride to search temperature and composition profile along the fixed bed reactor and the flying temperature...

Orthogonal-collocation method can be used for the numerical solution of boundary-problems in differential equations. Coupled with computer technique,rapid calculation with high precision can be aquired with this method. The article has introduced the way that using two-dimensional pseudo-homogeneous model and orthonal-collocation method to simulation fixed-bed reactor for oxidation of o-xy lene to phthalic anhydride to search temperature and composition profile along the fixed bed reactor and the flying temperature condition which can't obtained from the laboratory easily. This provide an important basis to determine suitable technology conditions. This method has extensive reference sense if data for kinrtics, thermodynamics and transport proress related to the chemical reaction can be acquired.

正交配置法是解微分方程(组)边值问题的数值方法,计算速度快、精度高是其主要特点。本文介绍了通过采用二维拟均相模型和正交配置算法模拟邻二甲苯氧化制取邻苯二甲酸酐在固定床反应器内的温度及组成分布,搜索到了该反应在不同条件下沿反应器的热点、组成变化规律及在实验室中难以得到的“飞温”条件,为确定适宜的工艺条件提供了依据。只要能够得到可靠的相关化学反应的动力学、热力学数据,以及传递过程有关参数,此方法具有广泛的参考价值。

When the airplane is tested on the ground,the airplane-ground-air-conditionvehicle is used to simulated the flying temperature environment as the airplane is in the sky.Due to the influence of interference and the known factors,it is difficult to set up the mathematic model of temperature of the simulated environment(SE).Thus the application of the classical estimate theory will be limited.Using approaching principle the generalized linear model(GLM) of the SE and the generalized Kalman filter(GKF)...

When the airplane is tested on the ground,the airplane-ground-air-conditionvehicle is used to simulated the flying temperature environment as the airplane is in the sky.Due to the influence of interference and the known factors,it is difficult to set up the mathematic model of temperature of the simulated environment(SE).Thus the application of the classical estimate theory will be limited.Using approaching principle the generalized linear model(GLM) of the SE and the generalized Kalman filter(GKF) had been given in this paper and multi-point temperature trend forecast can be completed by way of the GLM and the GKF and there is very good real-time.Then,both the control decision principle and control process were all provided in this paper.Lastly,the universally applicability and the robustness of the GLM were also respectively proved by two examples.

飞机在进行地面试验时,模拟环境用于模拟飞机在空中飞行时的环境温度。由于存在干扰以及其他未知因素,难以精确建立模拟环境温度的数学模型,从而限制了经典估值理论的应用。本文利用逼近原理,给出了模拟环境温度的广义线性模型和与之相应的广义卡尔曼滤波,实现了模拟环境温度的滤波和温度变化趋势的多点预报和模拟环境的温度控制;文章还给出了模拟环境温度控制的决策原则和控制流程;最后通过2个算例,证明了模拟环境温度广义线性模型对于连续系统应用的广泛适用性和鲁棒性。

 
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