What Is The Difference

From Traditional Treatments?

• We Can Reduce Purification Chemicals by Up to 95%

• We Reduce Sewage Sludge by Up to 97% in Volume and Weight without Drying and Incineration

• We Can Reduce Purification Operating Costs by Up to 80%

• We Can Reduce Treatment Land by Up to 80%

• There is no biological treatment in our treatment systems, there are no huge aeration pools needed, there is no blower, there is no biological sludge.

• Since Wastewater Treatment and Recovery Time is Between 30 and 180 Minutes and There is No Biological Treatment, Very Little Space is Sufficient

• We Can Increase Biological Purification Capacity Up to 2.5 Times (250%) Without Enlarging Existing Aeration Pools.

• We Can Deliver Packaged Wastewater Recovery Containers in Operation in a Very Short Time Without Changing the Existing Treatment Infrastructure and Without the Need for New Construction Sites. If there is space congestion in the factory, we can save space by stacking containers on top of each other.

• We Can Treat Up to 10,000 m ³ /Day of Wastewater with a Single Container

• We Can Perform Local Applications with On-Vehicle Mobile Wastewater Treatment and Recovery Systems (Purification, Odor and Color Removal, Disinfection, Increasing the Oxygen Level of Water, Mucilage and Algae Removal, etc.)

• We Can Transform Purification Facilities into a Biorefinery that Generates Income, Such as Electricity from Biogas and Sales of Recycled Water

• We Pave the Way for Generating Income from Carbon Trading by Reducing the Carbon Footprint of Treatment Facilities by Up to 80%

Are We Aware of

The Significance of The Danger?

• The European Union stated that there are more than 350,000 chemicals identified in world trade, that about 1,500 new chemical compounds are commercialized and put on the market every year, that about 25,000 of them have been proven to be poisonous and carcinogenic, that the dangers of the others in the medium and long term have not yet been determined, and explained that all of these chemicals mix into air, water and soil.

• The United Nations announced that the era of global boiling has begun in 2023, the devastating effects of climate changes are seen all over the world, mass migrations due to global drought have begun, and in the first 7 months of 2023, more than 130 million people have migrated to regions where water is relatively abundant due to drought.

• It is reported that 2 billion people will have to relocate due to water scarcity in the next few years, and it is certain that water wars will begin between countries.

• Water resources are strategic assets of countries. Türkiye; It is at the intersection of the Middle East, the Caucasus, the Balkans, the Mediterranean and the Black Sea and is at high military and strategic risk. In the event of any war, the risk of poisoning water resources or inoculating disease-causing microbes into water through biological attack is higher than ever. Just as civilians' water resources can be attacked, chemical and biological attacks can also be made on the water used by soldiers.

• Lake Urmia, 30 km as the crow flies from the Turkish border, the largest lake in Iran, which is 1.5 times the size of Lake Van, has completely dried up due to drought.

• Due to global warming, 45% of the water in our dams evaporates. Türkiye is located in the Mediterranean region, which is most affected by global warming in the world.

• According to the United Nations, more than 80% of wastewater worldwide is released into the environment without treatment.

• The World Health Organization (WHO) announced that 80% of diseases are water-borne.

• While water consumption is increasing rapidly in the world, clean water resources are rapidly decreasing due to environmental pollution and industrialization. To give an example from an industry; It is clear that 20% of the water used in industry is used in the textile sector, that this sector uses more than 8,000 chemicals, that these chemicals mix with water due to intensive water use, and that it is discharged into streams and dams as traditional treatment facilities cannot purify wastewater containing thousands of such toxic chemicals. We can say. It has been stated in European Commission reports that the amount of water spent for a pair of jeans and a T-shirt is 20 tons, and 2.7 tons of water is used in the production of a single T-shirt, starting from cotton production in the field.

• In the reports of the Ministry of Agriculture, it is stated that while the annual water demand of industry in Turkey is 7 billion tons in 2023, the water demand will increase by 70% to 12 billion tons in the next 7 years due to new industrial investments.

• There are 90,000 factories in 391 OIZs in Turkey, and new OIZs are being implemented or existing OIZs are being expanded every year. Only 45% of the industry in Turkey is located in OIZs, the remaining 55% of production takes place outside OIZs. Industrial parcels in OIZs will be doubled by 100% in the next 5 years due to excessive space demand.

• The daily water need of each OIZ in Turkey is 30,000 tons, but since the groundwater dries up, water can only be supplied to the factories for a few hours a day. Since this OIZ with 400 factories could not reach water despite very deep drilling, it started to look for a place to move the entire OIZ to more wet areas. The problem is that every region from east to west of Turkey is suffering from drought.

• 34,000 factories produce in 98 OIZs in the Marmara Region, and 60% of the total industrial production in Turkey takes place in the Marmara Region. 42 of Turkey's 100 largest industrial enterprises are located in Istanbul. Although the total clean water demand of Marmara, which hosts 27 million people, equivalent to 1/3 of the population, is incredibly large but rainfall has decreased by 90% compared to 2022. Daily water consumption of Istanbul alone is 3.5 million tons. In addition to drought-related thirst, factories have begun to move to other regions due to earthquake risk. However, water scarcity has become a serious threat in the regions they moved to.

• Within the scope of the Green Deal, the European Union will begin to impose sanctions on Turkish exporters and their sub-suppliers who do not reduce their carbon and water footprint as of January 1, 2026, and will gradually completely ban the sale of goods to Europe. Turkish industrialists have a very difficult process to solve. 50% of the goods produced in Turkey are sold to the European Union. 90% of exporters in Turkey sell goods to Europe, so they are directly affected by the EU green deal, which includes sanctions.

• It has been announced that more than 2,600 sinkholes have formed in the Konya Plain, Turkey's grain depot, as groundwater is rapidly receding due to the fact that there are more than 90,000 wells, 60,000 of which are illegal and unlicensed. When the increase in population despite the global drought is added, "Food and Water Security" emerges as the most important problem of the world in the near future.

• The food sector is one of the areas that reflects from soil to industry to our daily lives, is related to all other sectors, and most importantly, is most affected by climatic factors. Since the limit of fertile lands suitable for plant production has been reached, the amount of agricultural land per capita is decreasing with the increasing population. There are chemical and physical problems in soils such as salinization, alkalinization, acidification, mineral nutrient deficiency, pollution, erosion, compaction and loss of organic matter. According to estimates, 38% of the soil under crop production is in the process of degradation. This process has become even more negative with the pollution of water resources.

• Excessive population growth, global warming and drought, restriction of access to global grain due to the Russia-Ukraine War, difficulty in accessing fertilizers and important chemical raw materials due to embargoes imposed on Russia, exponential increase in energy costs and the resulting reduction of production in energy-intensive sectors, Problems in the supply of raw materials due to the disruption of the supply chain in the pandemic, destruction of high forests and wetlands, soil erosion, desertification, floods, famine, plunder of lakes, streams and rivers, withdrawal and pollution of groundwater, pollution of coastal sea waters and estuaries, oil spillage, overfishing in fisheries, expansion of lands gained by sea filling, toxic waste, poisonous effects of drugs used to kill insects and harmful plants, overcrowding in cities, and depletion of non-renewable resources can be listed as other important problems. The mentioned situations affect water, soil, environment and therefore food production in various ways. A 2°C increase in global warming is pushing the limits of today's food systems.

Wastewater and Sludge Analysis Results

Some analysis results regarding the recovery of wastewater in a very short time by advanced oxidation without chemical and biological treatment,

You can examine some applications and analysis results regarding the reduction of sewage sludge by more than 95% without drying and burning, and the removal rates of heavy metals in sludge.