火焰溫度 的英文怎麼說
中文拼音 [huǒyànwēndù]
火焰溫度
英文
flame temperature-
Temperature distribution of pre - mixed steady plane flame and unsteady flame in a combustion bomb are measured on the bench
利用該系統對穩定平面預混火焰和重復性好的非穩定火焰?定容燃燒彈內火焰溫度分佈進行了實驗測量研究。Flame temperature measurements can be used as a guide in discussing energetics of a homogeneous propellant.
火焰溫度的測定可作為討論均質推進劑能量特性的指導。At last, the conclusions of the whole thesis are drawn, and it is put forward that the future research emphases on the infrared radiation absorption ct technology should focus on : instantly get the absorption projections are the crucial factor to utilize the technology industrially ; on the basis of the hypothesis that the gas is ideal gas, species concentration of particular gas medium can be measured at the same time, which must be helpful to comprehend combustion essence ; if laser source to replaces blackbody stove, for irradiant flame, interferometric projection can be attained, and its temperature distribution will known
最後,對全文進行了總結,並指出今後研究工作重點。指出:瞬時得到各方向的投影是此技術實用化關鍵;在獲得溫度分佈信息基礎上,進行必要的假設和推導,能同時得到火焰中某特定組分濃度的分佈,這必將進一步我們對燃燒本質的理解;利用方向性好,輻射強度高的激光源代替常規的黑體爐,能得到輻射干涉投影圖像,這樣就能測量所介紹系統不能測量的發光火焰溫度分佈。Experiments based on this algorithm were done on the experimental setup we developed for the reconstruction of actual flash flame temperature field
用該演算法結合所研製的實驗系統對實際燃燒火焰溫度場進行了重建實驗,給出了實驗結果。A new temperature segmentation linear fitting method sieves the problem caused by the nonlinear mapping between the temperature data and the chroma. that is dividing the temperature into some sections from high to low. different temperature section uses different formula
提出了一種新的溫度分段線性化擬合方法解決溫度數據與色度的非線性映射問題,即將火焰溫度由高向低分成幾個溫度段,不同的溫度段使用不同的運算公式,從而提高了測量的精度,避免了過去方法中試圖用一個標定試驗的公式來求解跨度較大的整個溫度場分佈時所產生的誤差。The flame temperature is lower, thus giving a longer barrel life.
火焰溫度較低,因而可使炮管壽命較長。Aft adiabatic flame temperature
絕熱火焰溫度Adiabatic flame temperature
絕熱火焰溫度In order to predict the variation tendency of fire box temperature accurately, improve production efficiency, this text has proposed using the forecast model of flame temperature in the stove based on bp neural network. discussed the choice of the forecast model ’ s input parameter and date pretreatment technology
為準確預報爐膛溫度變化趨勢,提高生產效率,本文提出了運用bp神經網路進行爐膛火焰溫度預估的模型,討論了預估模型輸入參數的選擇和數據的預處理技術。In the simulation model, the cellular automata model is applied to describe the tunnels system, and a cellular is used to represent an energy unit of flame, which is eradiated from the fire - point and contains such status parameters as temperature, velocity, smog density, density of poisonous gases
在該方法中,用元胞自動機模型描述地下礦巷道網路系統,用元胞來描述火焰蔓延能量單元,該單元用火焰溫度、蔓延速度、煙霧濃度和有毒氣體濃度等狀態參數來描述。So, the accurate measurement and forecasting of flame temperature field in the stove is very important for the burning state judgement, and adjust the operation parameter of the boiler in view of the above, it is very important to ensure the normal running of the boiler
因此,爐內火焰溫度場的準確測量和預估對判斷爐膛的燃燒狀態,並據此調整鍋爐的運行參數,保障鍋爐的正常運行非常重要。Its unique design with a wide range of flame temperatures makes it ideal for a large variety of on ratio and excess air operations
大范圍火焰溫度的獨特設計使得該產品是一款多種比例和過量空氣燃燒的理想元件。The real - time temperature measurement system of high temperature flames based on laser diagnosis technology
基於激光診斷技術的高溫火焰溫度實時測量系統The full text is divided into five chapters, chapter one recommends the commonly used high - temperature flame measure methods at present, including contact - type temperature measure method and non - contact - type temperature measure method, explain ccd flame temperature detection method based on optical radiation energy
全文共分為五章,第一章介紹目前常用的高溫火焰測量方法,包括接觸式測溫法和非接觸式測溫法,闡述基於光輻射能的ccd火焰溫度檢測方法。In this system, high temperature tvs are used to collect images, digital image processing technology is applied to process images, thermal radiation theory and plane surface array ccd ' s chroma theory are introduced and the three - colour method is discussed detailedly to detect the temperature
本文旨在以全爐膛看火電視為圖像採集前端設備,以數字圖象處理技術為手段,運用熱輻射學和彩色面陣ccd色度學理論,採用三色測溫法來檢測爐膛火焰溫度。Flame temperature detector
火焰溫度檢測器The reconstruction algorithm plays a key role in reconstructing acoustically the flame temperature field in coal - burning boiler hearth
摘要在聲學法燃煤鍋爐爐膛火焰溫度場重建中,重建演算法是實現溫度場重建的關鍵。Mathematical model is constructed in order to explain the physical mechanism of flame temperature detection in boiler using ccd camera directly
建立測溫數學模型,為直接利用ccd攝像機檢測鍋爐爐膛燃燒火焰溫度闡明了物理機理。In the study, sd2000 spectrometer is applied to obtain radiation spectrum of flame within wavelength 480 - lloonm, from which flame temperature and monochromatic emissivity are derived by newton raphson non - linear method and levenberg - marquart modeling method. the flame monochromatic emissivity is translated in form of f ( / l ) and a ( a ) respectively
在該方法中,採用sd2000型光纖光譜儀測量火焰在可見光( 480 - 1100nm )波長范圍內的火焰的輻射光譜,結合newton - raphson非線性迭代演算法和levenberg - marquardt最優化演算法,得到火焰溫度和單色輻射率變化規律。In order to improve the accuracy based on colored ccd flame temperature field measurement, on the basis of analysing error source, compare multinomial interpolation, least square method and bp neural network application in reducing the error of temperature survey
為了提高基於彩色ccd火焰溫度場測量的準確性,在分析了誤差來源的基礎上,比較了多項式插值、最小二乘法和bp神經網路在減小測溫誤差方面的運用。分享友人