Industrial Wastewater Treatment Systems

GÖKSU ARITMA designs treatment plants for various industries including food, recycling, paper, automotive, waste collection from ships, agricultural, and pharmaceutical industries. GÖKSU ARITMA designed, manufactured, assembled hundreds of turnkey treatment systems that are operating today.

The characteristics and effects of industrial-grade wastewater are very different. Therefore, wastewater treatment plants that will be established in enterprises require unique solutions and designs. Industrial treatment systems should be uniquely designed for the treatment of wastewater of each industrial plant, considering the production process and industry-specific local conditions. In this context, GÖKSU ARITMA has designed systems in several sectors by wastewater laboratory analyses, and pilot-scale treatment models and these systems continue to operate efficiently.

Ağır metal kazanımı yapan bir firmamıza kurmuş olduğumuz Kimyasal Çöktürme Tesisimizden bir görüntü.

Kimyasal Çöktürme Tesisimiz


Advantages of GÖKSU ARITMA for Industrial Wastewater Treatment Plants:


GÖKSU ARITMA gives importance to know-how and collaborates with universities.


GÖKSU ARITMA has designed wastewater plants for almost every industry, has conducted trials in pilot-scale plants, established many industrial wastewater treatment plants, and these facilities continue to work efficiently.


GÖKSU ARITMA is a manufacturer company. Almost all of our mechanical equipment is manufactured in-house, except pumps and valve groups. With this feature, GÖKSU ARITMA can offer quality at an affordable price.


Our treated waters provide discharge standards according to the Environmental Law Water Pollution Control Regulation; treated waters can be used for garden irrigation or as property and vehicle washing waters.

MBR Membrane Bioreactors

Membrane bioreactors (MBR) have emerged as a result of combining membrane processes with biological treatment. Today, due to the efficiency of these processes, MBR has widespread use. These systems, which eliminate several disadvantages of conventional treatment methods, will have an important place among the treatment technologies of the future.

Membrane bioreactors are promising technologies for the future. This treatment process has a high chemical oxygen requirement (COD) removal efficiency for waste that has lower biodiversity compared to conventional biological treatment processes. Besides, these systems take up much less space than conventional systems. This makes MBR attractive, especially where there is not enough space for the plant or where land costs are quite high.

Anaerobic Wastewater Treatment Systems

Anaerobic wastewater treatment is a process in which organic substances are converted into inorganic substances such as methane (CH4), CO2, and ammonia in an oxygen-free environment. Anaerobic degradation of biologically decomposable organic substances is a treatment method performed by different groups of bacteria.
The decomposition of organic substances in wastewater in an airless environment occurs in two basic stages in its simplest form. In the first stage (hydrolysis and acid fermentation), the conversion of organic substances to organic acids, alcohols, and CO2 by acid bacteria takes place. The second stage (formation of methane) involves the conversion of acid bacteria products into methane, CO2, and water by methanogens. Methane gas generated as a result of these processes has a high calorific value and can be used as an energy source.

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