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Kaowool® 泵送产品
数据表代码 US: 5-14-1011 产品描述 Kaowool Pumpables 是水基、柔韧、类似油灰的材料,由高温陶瓷纤维、有机聚合物、无机粘合剂和其他专有成分组成。它们已预混合,可使用 HS-100 挤压泵或类似泵从直边 5 加仑桶中直接安装。Kaowool Pumpables 可用于对烤箱、熔炉、锅炉和工艺设备中任何损坏的备用绝缘材料进行热修复或冷修复,以及对现有耐火材料因收缩而产生的任何裂缝或缝隙进行热面修复。Kaowool Pumpables 干燥后形成坚硬的刚性块,具有良好的绝缘性能、良好的强度和抗震性。 Kaowool Pumpable - 标准级可泵送材料,应用温度高达 2000°F (1093°C) Kaowool Pumpable XTP 更具流动性的可泵送材料,应用温度高达 2000°F (1093°C) Kaowool Pumpable HT 高温级材料,应用温度高达 2500°F (1371°C) Kaowool Pumpable HS 非常坚固耐磨的耐火绝缘材料,应用温度高达 2800°F (1538°C)
供应链高膨胀柱填料 | 汉高
高膨胀支柱填料可减少包装体积并大幅减少运输过程中的二氧化碳排放量。汉高的高膨胀支柱填料在未固化状态下高效地包装在托盘桶中,使用后膨胀率超过 500%,通过减少补给汽车生产厂所需的往返次数,可大幅减少运输过程中的二氧化碳排放量。它还可减少运输人工费用、设备成本和一次性包装浪费。在装配线上,机器人应用可将挡板的手动定位人工减少多达 15%。* 与尼龙挡板相比,可泵送支柱填料的固化重量也可提供汽车轻量化优势。相比之下,注塑尼龙挡板在一次性包装中以 100% 的成品形式运输,最终运往垃圾填埋场。除了节约环境成本外,使用可泵送支柱填料还有显著的好处,包括减少补给行程、降低运输燃料消耗和增加每辆卡车的产量。*基于可泵送支柱填料替代尼龙挡板的总百分比、汽车生产线和劳动力分配。
计划R 140流
按照本技术数据表中规格应用的计划R 140流的平整层归类为符合EN 13813标准的CT-C35-F7-A12。计划R 140流是一种固定的,可泵送的,快速的,自由的工业化合物,旨在作为最终佩戴层或带有轻型工业载荷的工业地板上的树脂涂料的底层,并且适合作为胶合面板和固体硬木地板的底层。计划R 140流量已准备就绪,通常不需要在接触交通负荷之前进行表面处理,但是由于暴露于化学负荷或出于美学原因,可能需要用合适的表面处理或树脂涂层覆盖。计划R 140流以灰色提供的粉末形式的自动呈现产品,由特殊的快速干燥和快速设定的粘合剂组成,特别是分级的沙子,聚合物和特殊的添加剂,并在Mapei自己的R&D实验室中开发了特殊的添加剂。与水混合时,计划R 140流量成为一种收缩补偿的自由诉讼化合物,具有良好的流量特性,易于施用,快速固化并与基板完美结合。计划R 140流量可以用手或泵混合并施加,并以3至40毫米的厚度散布在大型表面上。设置后,计划R 140流具有高水平的压缩力和弯曲强度以及对磨损的抵抗力。当达到规定的残留水分时,可以覆盖R 140的计划,具体取决于地板饰面的类型。
绩效测试计划以及定期RCRA和PCB DRE采样和分析计划 - REV 2
1。Introduction................................................................................................................................. 1-1 1.1 Test Objectives ................................................................................................................. 1-2 1.2 Test Protocol Summary..................................................................................................... 1-3 1.2.1 HWC MACT ............................................................................................................................................................................................................................................................................................................................................................................................................................. 1-3 1.2.2 RCRA周期性测试............................................................................................................................................. Testing During the CfPT and RCRA Periodic and PCB DRE Test....................................... 1-7 2.Waste Characterization............................................................................................................... 2-1 2.1 Feedstream Description.................................................................................................... 2-1 2.1.1 Hazardous Waste Feeds................................................................................................... 2-1 2.1.2 Auxiliary Fuel .............................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................Detailed Engineering and Process Information............................................................................ 3-1 3.1 Kiln Solids Feed Systems.................................................................................................. 3-3 3.2 Kiln Pumpable Waste Feed System .................................................................................. 3-5 3.3 Secondary Combustion Chamber设计....................................................................................................................................................................................................................................................................................................... .......................................................................................................... 3-6 3.5.2 Ionizing Wet Scrubber....................................................................................................... 3-7 3.5.3 Wet Electrostatic Precipitator ............................................................................................ 3-7 3.5.4 Fans and Stack................................................................................................................. 3-7 3.6 Automatic Waste Feed Cutoff............................................................................................ 3-8 3.7 Process Monitoring and Operator Training ........................................................................ 3-9 4.Test Design and Protocol ............................................................................................................ 4-1 4.1 Test Objectives ................................................................................................................. 4-1 4.1.1 CfPT for the HWC MACT .................................................................................................. 4-1 4.1.2 RCRA Permit Periodic Testing........................................................................................... 4-1 4.1.3 PCB Trial Burn.................................................................................................................. 4-3 4.2 Test Protocol..................................................................................................................... 4-3 4.3 Waste Feed Characteristics and Selection ........................................................................................................................................................................................................................................................................................................................................................................................................... 4-12 4.7 System Operation to Achieve Steady-state Conditions .................................................... 4-12 4.8 AWFCO System During the Test ..................................................................................... 4-13 4.9 Determination of Hazardous Waste Residence Time ....................................................... 4-13 5.Sampling, Analysis, and Monitoring Procedures .......................................................................... 5-1 5.1 Sampling .......................................................................................................................... 5-1 5.1.1 Stack Gas Sampling Procedures ....................................................................................... 5-1 5.1.1.1 Sample Port Location .................................................................................................. 5-1 5.1.1.2 EPA Methods 2, 3A, and 4 (Flowrate, Gas Composition, and Moisture)........................ 5-1 5.1.1.3 SW-846 Method 0030 (Chlorinated VOCs)................................................................... 5-4 5.1.1.4 SW-846 Method 0023A (Dioxins/Furans) ..................................................................... 5-4 5.1.1.5 SW-846 Method 0023A (PCBs).................................................................................... 5-4