輻射換熱系數 的英文怎麼說

中文拼音 [shèhuànshǔ]
輻射換熱系數 英文
radiation heat transfer coefficient
  • : 名詞(車輪中車轂和輪圈的連接物) spoke
  • : Ⅰ動詞1 (用推力或彈力送出) shoot; fire 2 (液體受到壓力迅速擠出) discharge in a jet 3 (放出) ...
  • : 動詞1. (給人東西同時從他那裡取得別的東西) exchange; barter; trade 2. (變換; 更換) change 3. (兌換) exchange; cash
  • : 系動詞(打結; 扣) tie; fasten; do up; button up
  • : 數副詞(屢次) frequently; repeatedly
  • 輻射 : radiation; exposure; radio; beaming
  • 系數 : [數學] coefficient; ratio; modulus; quotient; factor
  1. Heat transfer coefficient,comprising convective and radioactive components may strongly depend on the actual flow enthalpy and density.

    由對流和兩部分組成的極大地依賴于實際活動的焓和密度。
  2. The heat coefficient changing of the heater and reheat ; c. the leakage test of the working substance ; d. the damage test for the heat pipes of the radiator, were taken

    分析了穩態參,完成了:吸負荷擾動試驗、吸器及回變化試驗、工質泄漏試驗、管損壞試驗等多個模擬實驗。
  3. Abstract : the in servie tubular heaters built early in refineries and chemical plans have low thermal load and low heat efficiency, therefore measures for technical reform are offered, including ( 1 ) enlarging the surface area of convection tubes to increase the thermal load of rhe convection section ; ( 2 ) increasign the heat interchanging area of radiant tubes ; ( 3 ) changing the height of the chimney ; ( 4 ) using new burner with forced air supply to increase calorific capacityu ; ( 5 ) adding air preheater between the convection section and chimney to enhence the temperature of the air entering the furnace ; ( 6 ) adopting high temperature radiant coating to improve the effect of radiant heat interchanging

    文摘:針對早期建造的煉油廠和化工廠在役管式加負荷和效率低的狀況,提出了若干技術改造措施包括,增大對流管表面積以增大對流段的負荷;增加管的面積;修正煙囪高度;用新型燃燒器,變自然通風為強制供風,以增大燃燒器的發量,減小過剩空氣,節省燃料2 % 3 % ;在對流段和煙囪之間增設空氣預器以提高空氣入爐溫度;採用高溫塗料增強效果,從而增加源對爐壁的量和爐管的傳量等。
  4. The in servie tubular heaters built early in refineries and chemical plans have low thermal load and low heat efficiency, therefore measures for technical reform are offered, including ( 1 ) enlarging the surface area of convection tubes to increase the thermal load of rhe convection section ; ( 2 ) increasign the heat interchanging area of radiant tubes ; ( 3 ) changing the height of the chimney ; ( 4 ) using new burner with forced air supply to increase calorific capacityu ; ( 5 ) adding air preheater between the convection section and chimney to enhence the temperature of the air entering the furnace ; ( 6 ) adopting high temperature radiant coating to improve the effect of radiant heat interchanging

    針對早期建造的煉油廠和化工廠在役管式加負荷和效率低的狀況,提出了若干技術改造措施包括,增大對流管表面積以增大對流段的負荷;增加管的面積;修正煙囪高度;用新型燃燒器,變自然通風為強制供風,以增大燃燒器的發量,減小過剩空氣,節省燃料2 % 3 % ;在對流段和煙囪之間增設空氣預器以提高空氣入爐溫度;採用高溫塗料增強效果,從而增加源對爐壁的量和爐管的傳量等。
  5. In this article, constituting some the equations which reflect the flow law and building and applying many mathematical models of physical and chemical reactions in the the plasma ignition : applying k - two equations turbulence model to calculate the turbulence parameter supplying simplied reaction systerm model and applying eddy break - up model and p - i thermal radiation model. with these reasonable simplied modles, numerically simulating the flow field in the plasma ignition. during the numerical simulation, applying the body - fitted coordinates for the complex geometry of the computional field ; using the mixing format to disperse the equations ; applying simplec algorithm method to solve the equations ; using above models and methods, it can get flow field distribution ; including temperature, pressure, turbulent kinetic energy and its dissipation rate, turbulent viscosity, velocity, density. these results are significant to design and improve the plasma ignition

    本文旨在通過構造反映等離子點火器內部流動規律的基本方程組,建立描述等離子點火器內部的復雜物理化學過程機制學模型:模擬等離子發生器內部燃燒的-雙方程湍流流動模型;模擬氣體燃料在燃燒時中化學反應的簡單化學反應統模型;模擬等離子點火器內部湍流預混燃燒的漩渦破碎模型;模擬等離子點火器高溫燃氣及其壁面的p - i的模型等等,對模型進行一定的合理的簡化,然後值模擬等離子點火器內部流場的流動。
  6. Compared with traditional air - conditioning, its advantages lie in thermal comfort energy efficiency free use of spacing and etc. this paper introduces the procedure and the result of the experiment of gas - heater radiant floor system and gshp radiant floor system and compares them with traditional air - conditioner. based on the analysis of the heat transfer of radiant floor, this paper uses the theory of heat transfer to establish a mathematical model and computes it with difference equation. the important factors inferred from the model such as floor surface temperature heat intensity composite heat transfer coefficient deviate from the experiment result in a small range of 20 % and fit the need of the practical use

    在分析了地板傳機理的基礎上,文中利用傳導、大空間的自然對流等傳學理論建立了地板的傳模型,再採用有限差分方法對模型求解,所得有關地板供冷性能的重要參如地板表面平均溫度、流密度、地板表面復合等與實測值相差在20以內,滿足工程使用要求;同時得出地板盤管供水溫度是影響地板供冷性能的重要因素的結論。
  7. And also meet experiment result well. the heat release from floor thought radiation is validated about 70 % by analyzing the surface coefficient of heat transfer with convection and radiation

    隨后,對低溫地板上表面的對流輻射換熱系數分析結果表明地板表面量約佔地板表面總散量的70 。
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