火电厂空冷机组水耗及煤耗性能分析

采用空冷机组是解决富煤贫水地区发电的有效措施,在中国西北部运用有着极为实际的意义,因此对中国燃煤电厂空冷机组的节水性能进行定量分析也具有现实意义。文章从国内外火电厂直接空冷机组与间接空冷机组发展的历史过程出发,在对近100个不同等级、不同冷却方式的火电项目样本进行统计分析的基础上,分别对直接空冷、间接空冷机组与常规火电机组的水耗及煤耗性能进行定量分析与比较,得出相应的水耗及煤耗结果,给出了水耗与煤耗的相关性,并给出相应的火电厂节水建议。

高分子涂料在烟囱腐蚀防护中的应用

燃煤电厂烟气经过湿法脱硫后,烟气的腐蚀性超过了原烟气的腐蚀性,湿烟气对烟囱内壁造成了严重的腐蚀。高分子涂料具有施工简单,工程造价低,适用烟囱范围广等特点,同时随着高分子性能的不断改进,防腐蚀效果突出,因而在烟囱防腐蚀中具有广泛的应用前景。本文综述了应用于湿烟囱防腐蚀领域的高分子涂料种类、主要性能及应用业绩情况,旨在为新旧湿烟囱保护措施的选择提供有益参考,还对高分子涂料在这一领域的发展前景做出了展望。

AlSi扩散涂层的制备及其在模拟燃煤环境中的热腐蚀行为

随着燃煤电站运行温度提高,会对电站耐热部件金属材料T91产生严重的高温热腐蚀,降低其设计使用寿命,因此,亟待开发耐热钢T91耐热腐蚀涂层。采用电弧离子镀技术在耐热钢T91表面制备一层Al5%Si镀层,然后在550℃真空热处理40 h形成AlSi扩散涂层;研究了该AlSi扩散涂层在650℃和750℃空气中典型燃煤环境中75%Na2SO4+25%NaCl盐膜下的热腐蚀行为。结果表明:耐热钢T91发生了快速热腐蚀,表面腐蚀产物主要是Fe和Cr的混合氧化物,易于剥落而不具有高温防护性能;而当T91表面施加Al5Si扩散涂层后,热腐蚀速度明显降低,表面腐蚀产物主要富含Al2O3,其抗热腐蚀性能较优,具有较好的高温防护性能。

核电站废液贮存罐钢结构施工技术

华龙一号核电站主体钢结构防火要求≥2.5h,屋架、屋面支撑系统及其檩条防火要求≥1.5h,屋面采用双层复合保温、单层墙面压型金属板围护结构系统,屋面防水等级为I级。本工程为门式钢结构,在构件表面涂抹防火涂料,以满足防火需求,通过对非膨胀型、膨胀型材料进行试验,最终选用膨胀型防火涂料作为防火材料。为保证屋面I级防水设计要求,通过比对板型、连接方式,进行合理选用。屋面压型金属板与衬檩采用暗扣式,板与板连接采用360°咬合式的连接方法,板与板间通过专用咬合机咬合接缝处进行连接,墙面压型金属板与檩条采用明钉进行连接。

菲律宾迪格宁燃煤电厂锅炉刚性梁涂装施工难点分析

阐述了菲律宾迪格宁2×660 MW燃煤电厂锅炉刚性梁在涂装施工过程中遇到的难题及解决办法。通过底面处理、固化测试、油漆配套、施工工艺优化等一系列技术创新,高质量地完成了整个工程的涂装作业。

锌加涂膜镀锌在电厂钢结构中的特殊应用

主要介绍了锌加涂膜镀锌在电厂钢结构中不同涂镀层之间的特殊应用以及该产品自身的一些施工特点,通过采用有防火要求的那部分涂装环氧富锌底漆+环氧云铁中间漆,没有防火要求的那部分涂装锌加涂膜镀锌的方法,解决了特殊情况下的施工难题,可为其他类似工程提供借鉴。

Application of powdered activated carbon coating to fabrics in a hybrid filter to enhance mercury removal

Elemental mercury(Hg0) is predominant constituent of flue gas emitted from coal-fired power plants. Adsorption has been considered the best available technology for removal of Hg0 from flue gas. However, adsorbent injection increases the amount of ash generated. In the present study, powdered activated carbon(PAC) was coated on polytetrafluoroethylene/glass fiber filters to increase Hg0 removal while concurrently reducing the amount of ash generated. The optimal PAC coating rate was determined in laboratory experiments to ensure better Hg0 removal with low pressure drop. When PAC of particle size less than 45 μm was used, and the areal density was 50 g/m2, the pressure drop remained under 30 Pa while the Hg0 removal efficiency increased to 15.8% from4.3%. The Hg0 removal efficiency also increased with decrease in filtration velocity. The optimal PAC coating rate was applied on a hybrid filter(HF), which was combined with a bag filter and an electrostatic precipitator in a single chamber. Originally designed to remove fine particulates matter, it was retrofitted to the flue gas control device for simultaneous Hg0 removal. By employing the PAC coating, the Hg removal efficiency of the HF increased to 79.79% from 66.35%. Also, a temporary reduction in Hg removal was seen but this was resolved following a cleaning cycle in which the dust layer was removed.