Vestnik of Volga State University of Technology. Series: Forest. Ecology. Nature Management

Introduction. Woodworking enterprises are dangerous to the environment, as they are the source of phenolic waste water. Phenols are highly toxic substances (hazard class 2). Phenols in water bodies provokes deterioration of general sanitary state of water reservoir as well as depression of  life activity of living organisms and decrease of oxygen concentration in water. The process of self-purification of water from phenol is a slow one. Well-known sorption methods of waste water treatment from phenols have a number of limitations. The goal of the work is to develop a highly efficient method and technology of wastewater treatment  of wood processing enterprises from phenols with the simplified conditions of sorption with an application of magnesium-containing reagent. Objects and methods of research. The study of possible use of reagent "Аquamag-2000" for the treatment of wastewater from phenols was carried out on  a real wastewater  of ZAO "Izoplit" (Kursk region) containing 122 mg/l of phenol. The degree of purification of wastewater from phenols was determined by titrimetric method. Oxidation of water was determined by permanent residence method. Results. By passing the wastewater through the sorbent "Aquamag" 100 % removal of toxic phenol from water comes. The capacity of the sorbent for phenol is equal to 32.6 mg/g. Furthermore, decrease in the oxidation of water and the total salt content is observed. COD of waste water is reduced by 17 %, salinity -  35 %. For desorption of phenol, a 10 % NaOH solution was used, the solution was passed through the adsorption column at a speed  of 0,120 l/h for two hours. At that, a 9-fold concentration of phenol from wastewater in the form of sodium phenolate is observed. Conclusion. Based on the results of the experimental research, a method of wastewater purification from phenols using the natural magnesium-containing reagent was developed. Modernization of the technological scheme of sewage treatment of  ZAO "Izoplit" in dynamic/static conditions was offered. The modernization will improve environmental and economic performance of enterprises: to purify water from toxic phenols, to reduce or completely eliminate the fee for pollution of the hydrosphere with toxic phenols, to develop a revolving system, to reduce water consumption at a plant.

phenols; wastewater treatment; sorption; reagent «Аquamag»

Ishak S., Malakahmad A. and M H Isa. Refin-ery wastewater biological treatment: A short review // Journal of Scientific & Industrial Research. April 2012. Vol. 71. Pp. 251-256.

Шакирова В.В., Пакалова Е.В., Типишова А.В. Новый сорбент для очистки сточных вод от токсикантов органического и неорганического происхождения // Научный потенциал регионов на службу модернизации. 2012. № 2 (3). С. 61-64.

Li Si, Kong Ruixue, Sun Lin, Li Sifan, Yang Shuangchun. Study on Treatment Methods of Phenol in industrial Wastewater // International Journal of Scientific & Engineering Research. May-2013. Vol. 4, Issue 5. Pp. 230-232.

Pilot Investigation of Coal Chemical Waste-water Containing Phenol by Pervaporation Process / Yao Jie, Shuren Yang, Du Ziwei et al. // Journal of Membrane and Separation Technology. 2013. Vol. 2, No 2. 148-152.

Рустамов С.М., Махмунов Ф.Т., Баширов З.З. Локальная адсорбционная очистка производственных сточных вод от фенола // Химия и технология воды. 1994. Т. 16, № 1. С. 69-71.

Дорошенко В.Е., Тарасович Ю.И., Козуб Г.А. Сорбция фенола полусинтетическими и природными сорбентами // Химия и технология воды. 1995. Т. 17, № 3. С. 248-250.

Алыков Н.М., Реснянская А.С. Очистка воды природным сорбентом // Экология промышленности России. 2003. № 2. С.13-14.

Ihsan Habib Dakhil. Removal Of Phenol From Industrial Wastewater Using Sawdust // International Journal of Engineering And Science. May 2013. Vol.3, Issue 1. Pp. 25-31.

Оценка эффективности применения молотого брусита «Аквамаг» в технологиях очистки воды / А.Н. Белевцев, С.А. Байкова, В.И. Жаворон-кова и др. // Энергосбережение и водоподготовка. 2008. № 1 (51). С. 34-35.

Будыкина Т.А., Мальцева В.С., Сазонова А.В. Использование природного сорбента «Ак-вамаг» для очистки сточных вод // Актуальные проблемы химической науки, практики и образования // Сборник статей Международной научно-практической конференции. Курск: КурскГТУ, 2009. Ч. 2. С. 90-92.

Сорбционные свойства брусита и глинистых смесей на его основе / В.А. Королев, Е.Н. Самарин, В.А. Панфилов // Экология и промышленность России. 2016. Т. 20. № 1. С. 18-24.

Будыкина Т. Нетрадиционные реагенты – ловцы загрязнений // Наука в России. 2011. № 3. С. 14-18.