100分求论文摘要英文翻译
100分求论文摘要英文翻译要手动翻译的要分的速来原文如下:火电厂循环冷却水系统是以水作为冷却介质,并循环使用的一种冷却水系统。在凝汽器中,循环水将汽轮机排汽冷凝下来,带走...
100分求论文摘要英文翻译 要手动翻译的 要分的速来 原文如下: 火电厂循环冷却水系统是以水作为冷却介质,并循环使用的一种冷却水系统。在凝汽器中,循环水将汽轮机排汽冷凝下来,带走蒸汽放出的汽化潜热,并因此在凝汽器中形成高度真空,从而降低了汽轮机的排汽压力,使汽轮机的理想焓降增大,功率增加。而在电力生产的过程当中需要消耗大量的水资源,我国是一个水资源严重缺乏的国家,因此因地制宜的选用循环水冷却系统是十分必要的,在这样的前提下本文进行了火电厂600MW机组循环水冷却系统管路设计,本系统为双泵双流程闭式循环水冷却系统,本设计所涉及的问题主要有三个:主干线管道直径的设计;凝汽器冷却管直径的设计以及循环水泵功率的选择。首先是对系统主管路管径的设计,先假设一个管径,通过计算主干线管路内的流动损失,找到一个可以把流动损失控制在设计范围内的相对应的管径。其次是对凝汽器内散热管直径的设计计算,根据《火力发电厂凝汽器管选材导则》选择合理的冷却水流速以及冷却管材料,假设管径及壁厚,计算凝汽器冷却管尺寸,并用凝汽器水阻HEI计算方法计算水侧损失,找出损失在设计范围内的对应的管径。最后选择循环水泵功率。
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火电厂循环冷却水系统是以水作为冷却介质,并循环使用的一种冷却水系统。在凝汽器中,循环水将汽轮机排汽冷凝下来,带走蒸汽放出的汽化潜热,并因此在凝汽器中形成高度真空,从而降低了汽轮机的排汽压力,使汽轮机的理想焓降增大,功率增加。
The recycled cooling water system is a system applying recycled water as a cooling medium. The recycled water in the condenser condenses the exhaust gas from the steam turbine, carries off the steam evaporated latent heat, and creates a high vacuum in the condenser, thus, reduces the exhaust pressure of the steam turbine, and increases its ideal enthalpy and capacity.
而在电力生产的过程当中需要消耗大量的水资源,我国是一个水资源严重缺乏的国家,因此因地制宜的选用循环水冷却系统是十分必要的,在这样的前提下本文进行了火电厂600MW机组循环水冷却系统管路设计,本系统为双泵双流程闭式循环水冷却系统,本设计所涉及的问题主要有三个:主干线管道直径的设计;凝汽器冷却管直径的设计以及循环水泵功率的选择。
Large consumption of water resources is required during the electric power generating process; considering China is a country gravely short of water resources, it is necessary to suit the local condition by using recycled cooling water system. As such, this paper conducts a pipeline design of a recycled cooling water system for a 600MW power plant unit. This design is a double-pump dual-process closed cycle water cooling system which involves three major issues: trunk pipeline diameter design, condenser cooling pipe diameter design and the selection of the recycled water pump power capacity.
首先是对系统主管路管径的设计,先假设一个管径,通过计算主干线管路内的流动损失,找到一个可以把流动损失控制在设计范围内的相对应的管径。其次是对凝汽器内散热管直径的设计计算,根据《火力发电厂凝汽器管选材导则》选择合理的冷却水流速以及冷却管材料,假设管径及壁厚,计算凝汽器冷却管尺寸,并用凝汽器水阻HEI计算方法计算水侧损失,找出损失在设计范围内的对应的管径。最后选择循环水泵功率。
Firstly, it is to assume a pipe diameter for the trunk pipeline diameter design, and by calculating the internal flow loss of the trunk pipeline, a corresponding pipe diameter which can control the flow loss within the design range is determined. Secondly, the design of the radiator pipe diameter in the condenser is calculated; the flow rate of the cooling water and the cooling pipe material are selected in accordance with “The Guidelines for the Selection of Condenser Tubes in Thermal Power Plant”. The size of the condenser cooling pipe is calculated by hypothesizing the pipe diameter and thickness, and the water side loss is calculated by applying the HEI condenser water resistance calculation method, so that a pipe diameter corresponding to the loss within the design range is determined. Finally, the power capacity of the recycled water pump is selected.
【英语牛人团】
The recycled cooling water system is a system applying recycled water as a cooling medium. The recycled water in the condenser condenses the exhaust gas from the steam turbine, carries off the steam evaporated latent heat, and creates a high vacuum in the condenser, thus, reduces the exhaust pressure of the steam turbine, and increases its ideal enthalpy and capacity.
而在电力生产的过程当中需要消耗大量的水资源,我国是一个水资源严重缺乏的国家,因此因地制宜的选用循环水冷却系统是十分必要的,在这样的前提下本文进行了火电厂600MW机组循环水冷却系统管路设计,本系统为双泵双流程闭式循环水冷却系统,本设计所涉及的问题主要有三个:主干线管道直径的设计;凝汽器冷却管直径的设计以及循环水泵功率的选择。
Large consumption of water resources is required during the electric power generating process; considering China is a country gravely short of water resources, it is necessary to suit the local condition by using recycled cooling water system. As such, this paper conducts a pipeline design of a recycled cooling water system for a 600MW power plant unit. This design is a double-pump dual-process closed cycle water cooling system which involves three major issues: trunk pipeline diameter design, condenser cooling pipe diameter design and the selection of the recycled water pump power capacity.
首先是对系统主管路管径的设计,先假设一个管径,通过计算主干线管路内的流动损失,找到一个可以把流动损失控制在设计范围内的相对应的管径。其次是对凝汽器内散热管直径的设计计算,根据《火力发电厂凝汽器管选材导则》选择合理的冷却水流速以及冷却管材料,假设管径及壁厚,计算凝汽器冷却管尺寸,并用凝汽器水阻HEI计算方法计算水侧损失,找出损失在设计范围内的对应的管径。最后选择循环水泵功率。
Firstly, it is to assume a pipe diameter for the trunk pipeline diameter design, and by calculating the internal flow loss of the trunk pipeline, a corresponding pipe diameter which can control the flow loss within the design range is determined. Secondly, the design of the radiator pipe diameter in the condenser is calculated; the flow rate of the cooling water and the cooling pipe material are selected in accordance with “The Guidelines for the Selection of Condenser Tubes in Thermal Power Plant”. The size of the condenser cooling pipe is calculated by hypothesizing the pipe diameter and thickness, and the water side loss is calculated by applying the HEI condenser water resistance calculation method, so that a pipe diameter corresponding to the loss within the design range is determined. Finally, the power capacity of the recycled water pump is selected.
【英语牛人团】
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The circulating cooling water system is based on water as a cooling medium, and a cooling water recycling system. In the condenser, the circulating water to the steam turbine exhaust steam is condensed, take away the steam to release the latent heat of vaporization, and therefore the formation of a high degree of vacuum in the condenser, thus reducing the turbine exhaust pressure turbine ideal enthalpy drop increases, the power increase. Need to consume large amounts of water in the process of electricity production. China is a serious lack of water resources in the country, local conditions the choice of the circulating water cooling system is very necessary,Thermal power plant 600MW units circulating water cooling system piping design in this context. This system is a dual-pump dual-process closed loop water cooling system, there are three main problems involved in this design: The design of the mainline pipe diameter; the design of the condenser cooling pipe diameter and the circulating pump power of choice. The first is the diameter of the system in charge of road design, Assume a diameter by calculating the flow losses within the mainline piping, to find a current loss of control in the design range that corresponds to the diameter of. Followed by calculation of the design of condenser cooling tube diameter, according to the thermal power plant condenser tube selection guide "the cooling water flow rate and the cooling pipe material, assuming that the diameter and wall thickness calculation for Condenserpipe size, and condenser water resistance HEI calculation method to calculate the loss of the water side, to find the corresponding diameter of the losses in the design range. Final choice of the circulating pump power.
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软件谁不会呀 用你来!!!
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The circulating cooling water system is based on water as a cooling medium, and a cooling water recycling system. In the condenser, the circulating water to the steam turbine exhaust steam is condensed, taking the steam release of latent heat of vaporization, and therefore the formation of a high degree of vacuum in the condenser, which reduces the turbine exhaust pressure turbine ideal enthalpy drop increase power increase. Need to consume large amounts of water in the process of electricity production, China is a serious lack of water resources in the country, so local conditions the choice of the circulating water cooling system is very necessary in this context were the 600MW unit of thermal power plants circulating water cooling system piping design, the dual-pump dual-process closed loop water cooling system, there are three main problems involved in this design: the design of the mainline pipe diameter; design and a circulating pump of the condenser cooling pipe diameter the power of choice. The first is the diameter of the system in charge of road design, assume a diameter, and by calculating the flow losses within the mainline piping, to find a current loss of control in the design range that corresponds to the diameter. Followed by calculation of the design of condenser cooling tube diameter, according to the thermal power plant condenser tube selection guide "the cooling water flow rate and the cooling pipe material, assuming that the diameter and wall thickness calculation for Condenser pipe size, and condenser water resistance HEI calculation method to calculate the loss of the water side, to find the corresponding diameter of the losses in the design range. Final choice of the circulating pump power.
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软件我不会呀 找骂是吧
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现在还要吗?我可以翻译给你
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