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1)  rectangle section furnace
矩形截面炉膛
2)  rectangle furnace
矩形炉膛
3)  furnace sectional area
炉膛截面积
1.
In order to reduce the erosion of water-wall,large furnace sectional area should be selected by boiler works,and the power plant should select the coal caloricity close to the designed for use.
对于循环流化床锅炉,炉膛截面积选择的大小影响炉内循环物料的速度,即水冷壁的磨损速度,燃料的发热量影响炉内循环物料的浓度。
4)  cross-section temperature of the boiler
炉膛截面温度
5)  rectangular section
矩形截面
1.
Seven-freedom unit used for analysing the warping of rectangular section beam;
矩形截面直梁弯翘分析的七自由度单元法
2.
Calculation of bended structural member reinforcement of rectangular section of reinforced concrete;
简易法计算混凝土矩形截面受弯构件配筋量
3.
A spedal study is conducted of the effect of the rectangular section circulating bed edge angle on the gas-solid dual-phase flow and the radial porticle conecntration distribution.
特别是考察了矩形截面循环床边角对气固两相流动的影响。
6)  rectangle section
矩形截面
1.
This essay offers the calculation of magnetic field along axis of finite long rectangle section spiral tube current,gives the resolution formula and illustration of the magnetic field, and draws some significant conclusions by discussing on the calculation.
计算了有限长矩形截面螺线管轴线上的磁场,给出了磁场的解析式和图示,并对计算结果作了讨论,得出了一些有意义的结论。
2.
The formula prescribed in Code for design of masonry structures, aimed to calculate influence coefficient (φ) for bearing capacity of biaxial eccentric rectangle section compression masonry members, is numerically analyzed, its bearing capacity would increase when its eccentricity of loading is added, a new substitutive .
为此,对《砌体结构设计规范》中关于无筋砌体矩形截面的双向偏心受压构件承载力影响系数φ值计算公式进行了分析,认为φ值在局部范围内存在着使承载力随偏心距增大而增大等缺陷,并给出了新的计算公式。
3.
This paper offers the formulas of calculating the ledger beam strength, compares the bearing capacity of the ledger beams with that of rectangle section beams.
提出了花兰梁截面强度计算公式,揭示了其较按矩形截面计算较大的承载能力和一定的经济效益。
补充资料:多炉膛焚烧炉
分子式:
CAS号:

性质:也称多炉膛焚烧炉。是固体废物焚烧处理的一种主要炉型。它由多段燃烧炉膛构成,炉中心有一顺时针旋转的中心轴,各段的中心轴上带有多个耙杆。操作时,将固体废物连续不断地送到最上层的外围处,在耙杆的作用下迅速在炉床上分散,然后由中间孔落到下一段。在第二段,固体废物在耙杆作用下,边分散边向外移动。并从外围落下。这样,固体废物在奇数段从外向里,在偶数段从里向外运动,逐层下落,被从炉底引入的热空气干燥,并在760~980℃下进行焚烧处理。多段焚烧炉具有适应性强、操作弹性大、可靠性高的优点,但机械设备多,需进行较多的维修和保养。它主要用于处理污泥等固体废物。

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