生理燃燒值 的英文怎麼說

中文拼音 [shēngránshāozhí]
生理燃燒值 英文
physiological combustion value
  • : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
  • : Ⅰ名詞1 (物質組織的條紋) texture; grain (in wood skin etc ) 2 (道理;事理) reason; logic; tru...
  • : 動詞1. (燃燒) burn 2. (引火點著) ignite; light
  • : Ⅰ動詞1 (使東西著火) burn 2 (加熱或接觸某些化學藥品、放射性物質等使物體起變化) cook; bake; hea...
  • 生理 : physiology生理反應 physiological reaction; 生理節律 circadian rhythm; 生理解剖學 physiological an...
  • 燃燒 : (物質劇烈氧化而發光、發熱; 燒) burn; kindle; flame; set on fire; [化學] combustion; inflammation; ignition
  1. Total oxygen consumption, total carbon dioxide output and total nitrogen ( urine nitrogen + skin nitrogen ) excretion are related to the oxidation of the three major nutrients and the physiological combustion values of the three nutrients are already known

    總氧消耗、總二氧化碳排出和總氮(尿氮皮膚氮)排出與三大營養素的氧化有關,並且這三種營養素的生理燃燒值是己知的。
  2. This new method has the capability of calculating complicated 3d grain burning surface. dealing with evolving interface of complicated material and topology change ( splitting. breaking. merging ), based on level set method and burning surface process law. this technique can get accurate area of burning surface each moment and data of geometrical structure that provide access to examination of grain change in the srm working process. 2

    結合固體火箭發動機面推移規律,在等面函數法基礎上開發的裝藥面演算法能夠成功計算任意復雜三維裝藥面,並且具有處復雜物質邊界及其拓撲結構發變化(如分裂、破碎、合併)的能力,能夠準確計算出發動機工作過程中各個時刻裝藥的面積,同時輸出裝藥幾何構形數據直觀地觀察裝藥的變化情況; 2
  3. 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化學過程機制數學模型:模擬等離子發器內部的-雙方程湍流流動模型;模擬氣體料在時中化學反應的簡單化學反應系統模型;模擬等離子點火器內部湍流預混的漩渦破碎模型;模擬等離子點火器高溫氣及其壁面的p - i輻射換熱的模型等等,對模型進行一定的合的簡化,然後數模擬等離子點火器內部流場的流動。
  4. In this paper a perfect and flexible experimental system of low nox combustion is established firstly. the influences of the temperature of combustion, the air excess coefficient, a certain amount of vapor added in advance, the temperature of preheated air, adding microwave into gas before combustion, gas recycling combustion and the mode of combustion ( diffused and premixed ) on nox emission are analyzed respectively. the combustion of liquid petroleum gas is simulated with phoenics 3. 5

    首先建立了完善靈活的低no _ x實驗系統,在實驗系統上完成了溫度、過量空氣系數、預先加入一定量的水蒸汽、空氣預熱溫度、對氣預先進行微波處、煙氣再循環以及方式(擴散式與預混式)對no _ x成的影響分析;採用phoenics3 . 5軟體進行了液化石油氣的數模擬。
  5. Numerical simulation is dominating part of cat, also the core of this paper. in this paper, detailed attention has been paid on the modeling for flow, heat transfer, radiation, nox production and slag - building mechanism in the face - fired boiler and some testify are done on theory by experiments

    本文應用數計算對對沖鍋爐爐內的流動、傳熱、過程及氮氧化物( no _ x )的成過程、爐內的結渣過程作了詳細的數研究,並盡可能結合實爐試驗,對論進行驗證。
  6. In order to study the regeneration mechanism of dpf in detail, we still need a mathematical model of the channel unit, which present temperature field and the soot reaction rate of the channel. finally, it points out the influences of various factors to the regeneration process by computing the numerical solution of model under different boundary conditions and geometry parameters, such as the initial temperature, the gas flow rate, the oxygen concentration, the sediment quantity and the wall thickness of the filters, and so on. in this way, the paper provides theoretical guidance for optimization design of the dpf

    首先研究了干凈壁流式過濾體的加熱特性,然後在加熱和論的基礎上建立了微粒捕集器再過程的數學模型,並對模型進行了數計算,得到了捕集器內部的三維溫度場分佈以及溫度梯度分佈,結果與實驗吻合較好,驗證了模型的正確性;為了詳細的研究微粒捕集器的再,建立了孔道單元數學模型,得到了孔道內的溫度場分佈和微粒反應速率分佈;最後,通過求解模型在不同邊界條件和不同幾何參數下的數解,分析了各種因素對再過程的影響,如過濾體初始溫度、過濾體內氣流的流動速率、氧濃度、微粒沉積量以及過濾體壁面厚度,為微粒捕集器的優化設計提供論指導。
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