DOI 10.35776/VST.2021.02.02 UDC 628.164
Larionov S. Iu., Panteleev Aleksei, Riabchikov Boris, Kasatochkin A. S.
Chemical water softening systems with a contact media blanket (a review)
Summary
Chemical softening of drinking water is used quite rarely due to the difficulty of preparing chemicals, maintaining the required and constant water temperature, complicated design and maintenance of the installations under the conditions of a water intake. A particular problem is waste utilization. In the middle of the last century, so-called vortex reactors with contact media began to be used that had a significantly higher capacity and did not require water heating. In the reactors solid granules of carbonate are generated, which is equivalent to the modern concept of zero liquid discharge, i. e., closed cycle technology. In Russia, they were designed at VNII VODGEO; however, did not gain widespread use. The next step was the development of reactors with fluidized bed of contact media. These apparatuses are widely used in Europe and the USA. At present, Mediana-Filter SPC, JSC is busy with designing and studying such reactors. They have a high specific capacity – 50–100 m3/(m2·h) – and are much easier to operate and maintain than clarifiers. The capacity of the plants reaches thousands of cubic meters per hour. The review considers the stages of development, ways of improving the reactors, their advantages and disadvantages. и существенно проще в обслуживании, чем осветлители. Производительность установок достигает тысяч кубометров в час. В обзоре рассмотрены стадии развития, пути усовершенствования реакторов, их преимущества и недостатки.
Key words
suspended layer , microsand , water , commercial plant , chemical water softening , contact media , vortex reactor , calcic pellets , fluidized bed
|
DOI 10.35776/VST.2022.03.02 UDC 628.164
Kasatochkin A. S., Larionov S. Iu., Panteleev Aleksei, Riabchikov Boris, Shapovalov Dmitrii, Kharitonov Nikolai, Shilov Mikhail
Comparison of the options of systems for adjusting the salt composition of water from underground sources
Summary
Underground water sources with a high content of hardness salts are often used for drinking water supply. To achieve drinking water quality reducing its hardness is required. Known methods of softening result in the formation of a significant amount of liquid and solid wastes, i. e. mineralized wastewater or sludge that cannot be disposed of. Chemical water softening in clarifiers is used quite rarely owing to the difficulty of preparing chemicals, maintaining the constant required water temperature, and the complexity and maintenance of the equipment. In the 1990s, the technology of chemical softening in intensified reactors (vortex and blanket) was developed that gained widespread use in drinking water supply. Such units are quite frequently used in Europe and USA. At present Mediana-Filter Research and Production Company JSC is taking on the task of designing and testing reactors of this type. They have a high specific output of 50–100 m3/(m2·h), and their maintenance is much easier compared to clarifiers. The capacity of such plants reaches thousands of cubic meters per hour. Their main advantage is the elimination of liquid discharges and generation of solid wastes that can subject to utilization, while the yield of clean water is about 100%.
Key words
potable water , reverse osmosis , suspended layer , pilot plant , chemical softening , water softening , contact media , calcic pellets , fluidized bed , intensified reactor , dynamic softening system , sodium cycle
|
|