Ongoing Projects
Samsun SASKI Sewage Sludge Recycling Carbon Facility
The Samsun SASKİ Sewage Sludge Recycling Carbon Facility is a project specifically designed to meet the region's waste management needs and sustainable production goals, and is being implemented as a turnkey project.
During the design process, capacity planning, sewage sludge drying and carbonization parameters, process flowcharts, reactor structure, and energy recovery criteria were analyzed in detail; the system configuration was finalized based on laboratory and pilot-scale tests conducted by R&D and process engineering teams.
The manufacturing process is carried out by a certified production team in accordance with quality standards, and the manufactured equipment undergoes engineering checks. Field assembly work continues according to the planned schedule; automation infrastructure and control systems are being integrated, and preparations for commissioning the production lines are being carried out.
Upon completion of the project, operator training, shift planning, and quality control procedures will be implemented, aiming to bring the facility into operation at full capacity and on a sustainable basis. The facility aims to generate environmental and economic benefits by converting waste into value-added carbon.
The Samsun SASKİ Sewage Sludge Recycling Carbon Facility is a project specifically designed to meet the region's waste management needs and sustainable production goals, and is being implemented as a turnkey project.
During the design process, capacity planning, sewage sludge drying and carbonization parameters, process flowcharts, reactor structure, and energy recovery criteria were analyzed in detail; the system configuration was finalized based on laboratory and pilot-scale tests conducted by R&D and process engineering teams.
The manufacturing process is carried out by a certified production team in accordance with quality standards, and the manufactured equipment undergoes engineering checks. Field assembly work continues according to the planned schedule; automation infrastructure and control systems are being integrated, and preparations for commissioning the production lines are being carried out.
Upon completion of the project, operator training, shift planning, and quality control procedures will be implemented, aiming to bring the facility into operation at full capacity and on a sustainable basis. The facility aims to generate environmental and economic benefits by converting waste into value-added carbon.
Indoor Air Filtration
Drinking Water Treatment
Food Industry
Chemical Industry
Cosmetics Industry
Pharmaceutical Industry
Hydrogen
Electricity and Gas Storage
Air Pollution Control
Wastewater Treatment
