火力发电厂的污水处理(tpp)

O. Obodovych, V. Sydorenko, Y. Bulii, O. E. Stepanova
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引用次数: 0

摘要

对TPP废水进行了分析,并对其处理技术和设备进行了分析,以选择合理的模式,确定能源工业排放入水库前有害物质的最大允许浓度。所列出水成分不同,由火电厂类型和主要设备、火电厂容量、燃料类型、源水成分、水处理方法等因素决定。例如,冷却涡轮冷凝器和空气冷却器后的水通常携带所谓的热污染,因为它的温度为8…高于水源水温10ºС。在某些情况下,冷却水会将外来物质引入天然储层。为了降低对土壤和地下水的污染程度,在火电厂就地修建了污水处理设施。第二种方法是将废水收集在专门制造的容器中,随后使用沉淀池和过滤器进行净化,这些沉淀池和过滤器以无烟煤或活性炭作为过滤材料。TPP废水种类繁多,每一种废水的化学成分都不同。污水处理工艺复杂,多阶段,需要大量的各种设备。国家科学院ITTF研制了一种多用途转子式曝气氧化装置(AORT),该装置采用离散脉冲能量输入(DPEI)方法工作。这种装置可以使水和水系统中化学反应的热交换和质量交换速度加快25- 30%。它可以减少清洗过程的持续时间,将能耗降低2-3倍,试剂消耗降低20- 25%。AORT装置用于净化污水中的铁、锰、硫化氢、二氧化碳、硫酸盐和硝酸盐。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
WASTEWATER TREATMENT OF THERMAL POWER PLANTS (TPP)
An analysis of TPP wastewater, as well as technologies and equipment for their treatment, for choosing a rational mode and determining the maximum permissible concentrations of harmful substances characteristic of the energy industry before discharge into reservoirs was carried out. The compositions of the listed effluents are different and are determined by the type of thermal power plants (TPP) and the main equipment, its capacity, type of fuel, composition of the source water, method of water treatment, etc. For example, water after cooling turbine condensers and air coolers usually carries so-called thermal pollution, since its temperature is 8...10 ºС higher than the temperature of water in the water source. In some cases, cooling water can introduce foreign substances into natural reservoirs. In order to reduce the level of soil and groundwater pollution, local wastewater treatment facilities were constructed at thermal power stations. The second method is the collection of waste water in specially created containers with subsequent purification using sedimentation tanks and filters, which have anthracite or activated carbon as a filter material. TPP waste water is diverse and the chemical composition of each of the effluents is different. Wastewater treatment technology is complex and multi-stage and requires a large amount of various equipment. The ITTF of the National Academy of Sciences has developed a multi-purpose rotor-type aeration and oxidation plant (AORT), which works according to the method of discrete-pulse energy input (DPEI). This installation makes it possible to speed up the rate of heat and mass exchange of chemical reactions in water and water systems by 25-30 %. It makes it possible to reduce the duration of cleaning processes, reduce energy consumption by 2-3 times and consumption of reagents by 20-25 %. The AORT installation is used to clean sewage from iron, manganese, hydrogen sulfide, carbon dioxide, sulfates, and nitrates.
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