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环境监测在环境保护中起着很重要作用,采取样是环境监测的基础,科学规范的采取样至关重要。文章就工业炉窑烟气采样监测中一些重要环节,及一些易忽视的细节作了详细阐述,特别是气速的变化对监测结果的影响进行了深入刨析。质量控制方面也作了要求。 相似文献
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在经济技术快速发展的推动下,我国逐渐跻身于工业强国队伍,但是同时也产生了大量的工业废气,严重污染环境。为此,本文主要基于碳减排理念,分析工业废气治理技术,探究工业废气治理的应用策略,以期提升工业废气的治理效果,减少大气污染,落实“双碳”政策理念。 相似文献
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中海化学富岛公司化肥二部的尿素装置常压吸收塔306D排放废气中的氨为自行监测项目,一直以来,306D的采样点在采样过程中存在水分含量大且氨含量较高,导致采集的样品代表性差,不能准确测定排放废气中氨的含量。通过不同的采样方式对比,解决高水分含量及高含量氨对采样代表性的影响,提高了306D烟囱排放废气中氨含量测量的准确性。 相似文献
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橡胶护舷属于现代码头或者船舶中非常普遍的防撞缓冲装置,船舶停泊时能够利用橡胶护舷来降低冲击力,缓解码头与船舶的撞击力.橡胶护舷表现出弹性好、吸能强、维护保养成本低以及使用寿命长等突出优势,近年来已经在国内船舶航运中得以广泛应用.从20世纪60年代开始国内便已经着手研制生产橡胶护舷,进入新世纪之后我国航运业和船舶制造业得... 相似文献
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氮肥生产是水资源污染重灾户,是重点治理行业.实现氮肥生产污水零排放,既要从生产工艺技术、设备、管理抓节水防污,尽量减少用水和污染水,又要采用三水闭路循环、生物法终端处理等多项防污先进工艺技术和管理进行治污减排.文章介绍了氮肥生产污水来源、治理技术、零排放技术在国内氮肥企业的实施和推广应用情况. 相似文献
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实现氮肥生产污水零排放,既要从生产工艺技术、设备、管理抓节水防污,尽量减少用水和污染水,又要采用三水闭路循环、生物法终端处理等多项防污先进工艺技术和管理进行治污减排。介绍了氮肥生产污水来源、治理技术、零排放技术在国内氮肥企业的实施和推广应用情况。指出近年来经过不断努力,随着氮肥行业生产污水零排放技术的推广应用,目前全国所有氮肥企业基本上都能做到水污染物达标排放,氮肥行业耗能大幅下降,已经成为离零排放最近的化工行业之一,取得了重要的节能减排成果。 相似文献
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介绍基于CAN总线的船舶监控系统的基本结构。重点论述智能测控单元CAN通讯接口设计、CAN控制器外围硬件电路和CAN通信软件的实现。 相似文献
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主要围绕微化工技术的研究和应用状况进行叙述,对微化工技术的含义、过程强化原理、发展、研究进程以及应用等进行了全面的介绍,不断加深人们对该技术的理解,旨在推动微化工技术的进一步发展,不断提升技术应用的整体水平。 相似文献
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Eric M. Lipsky Natalie J. Pekney Gary F. Walbert William J. O'Dowd Mark C. Freeman Allen Robinson 《Aerosol science and technology》2013,47(6):574-587
A dilution sampler was used to examine the effects of dilution ratio and residence time on fine-particle emissions from a pilot-scale pulverized coal combustor. Measurements include the particle size distribution from 0.003 to 2.5 μm, PM2.5 mass, and PM2.5 composition (OC/EC, major ions, and elemental). Heated filter samples were also collected simultaneously at stack temperatures in order to compare the dilution sampler measurements with standard stack sampling methodologies. Measurements were made both before and after the bag house, the particle control device used on the coal combustor, and while firing three different coal types and one coal–biomass blend. The PM2.5 mass emission rates measured using the dilution sampler agreed to within experimental uncertainty with those measured with the hot-filter sampler. Relative to the heated filter sample, dilution did increase the PM2.5 mass fraction of selenium for all fuels tested, as well as ammonium and sulfate for selected fuels. However, the additional particulate mass created by gas-to-particle conversion of these species is within the uncertainty of the gravimetric analysis used to determine the overall mass emission rate. The enrichment of PM2.5 selenium caused by dilution did not vary with dilution ratio and residence time. The enrichment of PM2.5 sulfate and ammonium varied with fuel composition and dilution ratio but not residence time. For example, ammonium was only enriched in diluted acidic aerosol samples. A comparison of the PM2.5 emission profiles for each of the fuels tested underscores how differences in PM2.5 composition are related to the fuel ash composition. When sampling after the bag house, the particle size distribution and total particle number emission rate did not depend on residence time and dilution ratio because of the much lower particle number concentrations in diluted sample and the absence of nucleation. These results provide new insight into the effects of dilution sampling on measurements of fine particle emissions, providing important data for the ongoing effort of the EPA and ASTM to define a standardized dilution sampling methodology for characterizing emissions from stationary combustion sources. 相似文献