resonance heat 中文意思是什麼
resonance heat
解釋
共振加熱-
It is a new heat transfer enhancement method to apply helmholtz resonance chamber to convective heat transfer in a pipe
將helmholtz共振腔應用於換熱器來增強換熱是一種新的強化換熱方法。 -
Among the holy grails his team is chasing are a potential billionfold improvement in present - day calorimetry, which would allow observation of the individual heat quanta being exchanged as nanodevices cool, and a potential quadrillion - fold increase in the sensitivity of magnetic resonance imaging, which would enable complex biomolecules to be visualized with three - dimensional atomic resolution
他的團隊追求的聖杯之一,是讓現有量熱器靈敏10億倍,藉以量測奈米元件冷卻時釋放的一個個熱量子;另一個聖杯是靈敏千兆倍的磁共振成像,三維的解析度可達原子大小,藉以觀測復雜的生物分子。 -
Excite - the magnetic wave energy is generated the lr far infrared ray molecule resonance. to cause the heat - lead reaction ; excite the nature resistance ; strengthen the ell antibody
運用遠紅外線微粒分子共振所產生的磁波能量,而引起誘熱反應,刺激自然抵抗能力、增進細胞抗體。 -
Heat mirror ? can eliminating disadvantage of ordinary insulating glass ' s resonance, according to a test, ordinary insulating glass can insulate about 29db noises, but heat mirror ? can insulate about 34. 5 db noises, with more than 5 db improvement of sound proving capability over ordinary insulating glass
消除一般中空玻璃共振共鳴的缺點,至少增加五分貝值的隔音性能,據測試,普通中空玻璃可隔絕29分貝左右的噪音,而熱鏡玻璃可隔絕34 . 5分貝左右的噪音值。 -
Based on the results of previous researchers, the following instigations have been carried out in this paper : ( 1 ) employing a reasonable local resonance model which can accurately embody the heat - generation behavior due to resonance and vibration - heat mode in delaminated region, the dynamic response and temperature distribution in the small delamination region of a laminated beam are formulated. influence of the excitation frequency on the temperature gradient formation is analyzed numerically, and several meaningful conclusions are drawn. ( 2 ) for laminated plates with delaminations, due to complexity of the analytical solution, the finite element method is employed to analyze their temperature distributions and satisfactory results are also obtained
本文在前人研究的基礎上,對此方法進行了進一步的探討,主要做了以下的工作: ( 1 )選取合理的、能夠準確反映由共振而產生熱量的行為的局部響應模型,以及合理的振動熱模式,推導了一維層合梁小脫層區域的振動響應及梁的溫度分佈,並編製程序計算了該層合梁在激勵一段時間后的溫度分佈趨勢,分析了激勵頻率對溫度梯度形成的影響,得到了一些有意義的結論; ( 2 )對於二維層合板,由於解析解的形式異常復雜,本文採用有限元計算軟體對其溫度分佈進行了分析,也得到了較為滿意的結果。 -
The infrared component ( carborundum board, carborundum camp ) of carborundum, is used in the paint, food, medicine, print and dye the fabric extensively, binder, it is dry for integrated circuit to wait for, heat outside send out infrared electromagnetic wave organic matter in the course of heating far, high polymer and moisture son after drawing, produce member and atom resonance, make the object hot
碳化硅紅外元件(碳化硅板、碳化硅營) ,廣泛用於油漆、食品、醫藥、印染織物,粘結劑,集成電路等乾燥,加熱遠外在加熱過程中發出紅外電磁波被有機物,高分子及水分子吸取后,產生分子和原子共振,使物體變熱。 -
The influence of various waterpower and configuration parameters on heat transfer is analysed and the rules of convective heat transfer coefficient and the ratio of heat transfer enhancement with mass flux are obtained. at the same time, we gain important results as below : as for resonance chamber with certain configuration, self - oscillation can be generated under suitable configuration and waterpower parameters. for the same configuration resonance chamber, the intensity of the self - oscillation is changed by the waterpower parameters
當流量及壓差降低至一定程度時,共振腔還可能削弱換熱;加熱功率的提高會增加流體(水)的溫度,流體的粘度會隨著降低,這會減少對流體脈動的阻礙,使脈動衰減得更慢,而脈動幅度的增加會增強換熱,故加熱功率對有脈動的對流換熱是有影響的;自振腔產生的流體脈動頻率是自振腔固有頻率或其整數倍,流體脈動頻率過高或過低都不利於對流換熱,存在一有利於強化換熱的頻率范圍。 -
The heat transfer enhancement is different under different oscillator. there is the optimum oscillation intensity under which the heat transfer coefficient will be increased by about 30 percent. the change of outlet structure size of a resonance chamber shows little effect on the strength of heat transfer : the pressure of the optional heat transfer coefficient always is between 0. 4mpa and 0. 6mpa, and the optional heat transfer coefficient is enhanced by 30 percent or so
不同的振蕩強度,強化換熱的效果也不同,存在一個最佳強度,此時的強化換熱效果最好,可以將表面換熱系數提高30 %左右;對于同一共振腔,配合以不同的出口結構尺寸,對于換熱效果的強化的影響變化不大:出現最佳強化效果時的壓力基本都在0 . 4 - 0 . 6 ,最佳的強化效果也都是將表面換熱系數提高30 %左右。 -
So improve the structure of bearing stand rib to resist stress and stain. change the radiating condition, reducing the temperature gradient, which can reduce the heat stress. in modal analysis, both body and shafting have the resonance vibration frequency in the work condition
根據分析結果對結構提出了改進措施,增厚軸承支撐的加強筋,以提高其抵抗變形和應力的能力,同時對機體要外加冷卻散熱方式,降低熱應力的影響。 -
With heat treatment temperature increasing, the complex permittivity of w - type ferrite hollow microspheres decreased ; " firstly increased and then decreased, increased and there was an obvious resonance peak ; the complex permittivity ? of m - type ferrite hollow microspheres increased ; " increased, " was basically unchangeable
隨熱處理溫度的升高, w型鐵氧體空心微球的介電常數降低;磁導率實部先增加后減少,虛部增加並出現明顯的共振峰; m型鐵氧體空心微球的介電常數增加,磁導率實部增加,虛部變化不明顯。 -
Self - oscillation initiated by helmholtz resonance chamber with different configuration under different waterpower parameters is introduced in the paper. the influence on the heat transfer enhancement of the heat exchanger by applying resonance chamber is discussed in detail
本文介紹了不同結構的helmholtz共振腔在不同的水力參數下產生的自激振蕩情況,以及將自激振蕩應用於換熱器上對強化換熱的影響。 -
This conclusion is very important when we use the resonance chamber to a heat exchanger in engineering projects, especially for reforming the existing heat exchangers
這一點對于將共振腔換熱器應用於實際工程中顯得極為重要。特別是對工程領域中已有的眾多的換熱器的改造顯得極為重要。 -
For the same configuration resonance chamber, the intensity of the self - oscillation is changed by the waterpower parameters. when the pressure increases, self - oscillation intensity will increase. by applying the self - oscillation generated by the resonance chamber to the heat exchanger, and when the self - oscillation intensity achieves a certain degree, heat transfer will be enhanced
對于同一結構的共振腔,水力參數不同,產生的自激振蕩強弱也不相同,隨著壓力的增加,自激振蕩的強度也增加;將共振腔產生的自激振蕩引入換熱器后,當自激振蕩達到一定程度的強度后,可以強化換熱。
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