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对喷流协同蒸汽相变对燃煤细颗粒脱除性能的影响 总被引:1,自引:0,他引:1
以燃煤锅炉产生的含尘热烟气为对象,采用电称低压冲击器(electrical low pressure impactor,ELPI)和Vaisala-HMT337型温湿度变送器等测试仪器,研究倾斜对喷流与蒸汽相变相结合的方法对燃煤细颗粒的脱除性能,实验考查烟气对喷流速、烟气对喷间距、蒸汽添加量、除雾器类型、添加润湿剂等对细颗粒脱除效率的影响规律。研究结果表明:采用对喷流和蒸汽相变技术相结合的方法可以高效脱除细颗粒物;细颗粒脱除效率随烟气对喷间距的增大先提高后降低,随烟气流速和蒸汽添加量的增大而提高;相变室出口安装丝网除雾器的脱除效果优于采用板波纹除雾器;烟气中添加挥发性乙二醇润湿剂对细颗粒脱除有一定的促进效果。 相似文献
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A low power 10-bit 250-k sample per second(KSPS) cyclic analog to digital converter(ADC) is presented. The ADC’s offset errors are successfully cancelled out through the proper choice of a capacitor switching sequence.The improved redundant signed digit algorithm used in the ADC can tolerate high levels of the comparator’s offset errors and switched capacitor mismatch errors.With this structure,it has the advantages of simple circuit configuration,small chip area and low power dissipation.The cyclic ADC manufactured with the Chartered 0.35μm 2P4M process shows a 58.5 dB signal to noise and distortion ratio and a 9.4 bit effective number of bits at a 250 KSPS sample rate.It dissipates 0.72 mW with a 3.3 V power supply and occupies dimensions of 0.42×0.68 mm~2. 相似文献
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中间套管阶段直径13(3/8)英寸的中间套管,下在17(1/2)英寸的钻孔内。13(3/8)英寸的套管柱的设计方法与石油操作中的非常相似。确定了安全系数,除了温度的作用之外,所开列的设计依据都和油田应用中一样。从地表到1900英尺,13(3/8)英寸API K-55级、54.5磅/英尺的套管是令人满意的。此外,更重的套管也需要,通常是61磅/英尺,从1900英尺下到大约2800英尺处。据估计有H_2S存在时,要使用较软的等级。 相似文献
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对地热钻井进行广泛深入的研究,必须对所有各种类型的热储的不同钻进技术工艺的现状进行一次回顾。本文所提供的材料将对以下一些主题进行讨论:钻进前应考虑的各种因素,钻井程序细节、钻井液、水泥固井、井口装置、防喷器的配置以及在地热钻井中逐渐推广的某些应特殊考虑的内容等等。为了清楚地讲述钻进操作与后勤支援工作,本文对气控热储和液控热储将分别进行讨论。 相似文献
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A third-order, sub-1 V bandgap voltage reference design for low-power supply, high-precision applications is presented. This design uses a current-mode compensation technique and temperature-dependent resistor ratio to obtain high-order curvature compensation. The circuit was designed and fabricated by SMIC 0.18 μm CMOS technology. It produces an output reference of 713.6 mV. The temperature coefficient is 3.235 ppm/℃ in the temperature range of -40 to 120 ℃, with a line regulation of 0.199 mV/V when the supply voltage varies from 0.95 to 3 V. The average current consumption of the whole circuit is 49 μA at the supply voltage of 1 V. 相似文献
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