燃燒速率方程 的英文怎麼說

中文拼音 [ránshāofāngchéng]
燃燒速率方程 英文
burn-rate equation
  • : 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...
  • : Ⅰ形容詞(迅速; 快) fast; rapid; quick; speedy Ⅱ名詞1 (速度) speed; velocity 2 (姓氏) a surna...
  • : 率名詞(比值) rate; ratio; proportion
  • : Ⅰ名詞1 (方形; 方體) square 2 [數學] (乘方) involution; power 3 (方向) direction 4 (方面) ...
  • : 名詞1 (規章; 法式) rule; regulation 2 (進度; 程序) order; procedure 3 (路途; 一段路) journe...
  • 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
  • 速率 : speed; rate; tempo
  1. Abstract : in the research of internal combustion engine, recordingin - cylinder pressure and temperature is an essential technique to study the thermal cycle of internal combustion engine. the combustion analyzer developed in this study will give both the measurements at sampling points per crank angle or sampling cycle, calculate and show the real time parameters which decide the working process of internal combustion engine, such as pressure accelerating rate, indicateed mean effective pressure, cycle - to - cycle variation, heat release rate, etc. compared with the imported congeneric products, the analyzer has many advantages such as chinese interface, low price, easy operateing, convenience in maintainance and easy upgrading

    文摘:為了測錄內機缸內的壓力及溫度,開發了一種內分析儀.該分析儀由國產高數據採集卡及自行開發的控制軟體組成.它不僅能精確設置每度曲軸轉角內采樣點的個數和採集循環數,而且在採集過中能實時計算和表徵內機工作過的壓力升高、平均指示壓力、循環變動、放熱等參數.經實際使用以及與國外產品相比表明,此分析儀具有全中文界面、價格低、操作簡單、使用維護便、功能便於擴充等優點
  2. As to the simulation, three - dimensional n - s equations and two - phase flow model, in which the liquid toluene spray as discrete particles was considered, were employed to describe the turbulent combustion processes in the combustion chamber. the mass and energy transfer between the two phases were calculated by the droplet evaporation model, and the arrehnius model was used to obtain the gas chemical reaction rate. the details of 3d flow field, the distributions of temperature and compounds were obtained by solving the equations

    數值模擬面,應用三維湍流n - s以及顆粒軌道模型描述了激光器室內部的噴霧兩相流動過,兩相之間的質量、能量交換由液滴蒸發模型計算,氣相化學反應由arrhnius公式計算,通過耦合求解氣液兩相模型,模擬了室三維流場,得到了室內的溫度和組分濃度分佈。
  3. The convective term is solved by ausm + ( a sequel to ausm which means " the advection upstream splitting method " ). the 7 species 8 steps model and 7 species 7 steps model of hydrogen / air is used in the hydrogen reacting flowfield, the 9 species 5 steps model of methane, the 10 species 10 steps model of ethane and the 10 species 13 steps model of kerosene are used in the hydrocarbon reacting flowfield, the results of the distributions of velocity, mach number, pressure, static temperature, total temperature, species mass fraction and the combustion efficiency are gained, and the numerical results of the pressure of hydrogen and methane are compared with those of the experiment

    計算中通量項採用ausm +通量分裂格式,氫反應流場採用氫/空氣的七組元八模型和七組元七模型,碳氫反應流場採用甲烷的九組元五模型、乙烯的十組元十模型和煤油的十組元十三模型,得出了超發動機室流場的度、馬赫數、壓力、靜溫、總溫和組元質量分數分佈及等性能參數,其中氫和甲烷的計算壓力分佈與實驗結果進行了比較。
  4. Fire development processes of different combustion models were given and some corresponding parameters were also suggested

    通過給出熱釋放持續時間和油池火蔓延度等關鍵參數的計算法,詳細描述了其發展過
  5. The finite - rate combustion kinetic model for standing oblique detonation waves is established. the tvd finite volume scheme is also presented. the combustion flow fields of standing oblique detonation waves are numerically simulated using 7 species and 8 reaction steps hydrogen combustion model, 10 species and 12 reaction steps methane combustion model respectively

    建立了適合多組分含有限化學反應流體流動的數學模型,構造了多組分化學反應流體流動守恆的tvd有限體積數值格式,採用7組分8反應的氫, 10組分12反應甲烷的化學反應機理,數值模擬了駐定斜爆轟波流場,取得了較好的結果。
  6. Burn - rate equation

    燃燒速率方程
  7. Mean mass reactivity parameter was proposed to evaluate combustion reactivity of semi - coke. integral method and linear regress in section method were adopted to calculate reaction progression and activity energy respectively. according to kinetic parameters calculated above, an equation of combustion rate was established to forecast combustion process of semi - coke

    用積分法確定半焦反應級數,用分段線性回歸法求取不同實驗條件下的反應活化能和頻因子,並根據求得的動力學參數確定半焦的反應,以此來預測半焦的
  8. The algebraic b - l eddy model, prandtl mixing length model as well as arrhenius finite speed rate chemical reaction combustion model is introduced to above cold - state model

    引入baldwin - lomax代數模型、用於剪切層的普朗特混合長度湍流模型和阿累尼烏斯有限化學反應模型。
  9. Ebu - arrehenius and second - moment turbulent combustion model are used to determine the reaction rate. to consider the influence of heat radiation on the gas temperature and wall temperature, the six flux model is applied to predictions of heat flux distributions. the discretization of governing equations on a non - staggered grid system is performed by hybrid scheme over the control volume, and discretization equations are solved with simple algorithm

    利用橢圓型微分法和區域法生成三維貼體網格,文中數學模型有紊流模型、紊流模型和輻射模型,採用k -雙模型來預估紊流特性, ebu - arrehenius和二階矩紊流模型來估算化學反應,六通量輻射模型預估輻射通量,以便考慮熱輻射對壁溫和氣流溫度的影響。
  10. An implicit lu - sgs ( lower - symmetric gauss - seidel ) finite - volume method is used for solving the full, compressible, two - dimensional navier - stokes and species transport equations. for turbulence closure a two equation ( k - e ) model is used. the combustion process in chemical nonequilibrium is modeled by a 7 - species, 8 - reaction steps finite - rate chemistry and is implicitly coupled with the fluid motion

    採用lu - sgs有限體積法求解了包括兩( - )湍流模型和7組元8有限化學反應模型的緊耦合二維n - s,數值模擬了氫料在室內的化學非平衡
  11. For some pritical problems of industrial process control, this paper describes the economy energy principle of inverters and introduces some technology which we utilize frequency conversion to adjust speed, puts forward and carries on the solution of some technological problems of the transformation to the combustion process control system of 65t / h boiler, offers a kind of reliable route that the enterprises can save energy and improve production efficiency

    摘要針對工業過式控制制中的實際問題,描述了變頻器的節能原理、介紹利用變頻調技術,提出並實施對65t / h鍋爐的式控制制系統進行改造的一些技術問題的解決案,為工業企業實現節能降耗及提高生產效提供了一種可靠的途徑。
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