ARTI’s Energy Conversion Processor (ECP) has been designed to convert energy from all organic, bio-degradable or hydrocarbon-based waste such as plastics, paper, rubber, medical, green, and or human and animal waste. All units are designed and built for efficient and continuous operation while producing high quality gaseous and liquid fuels. The efficiency of the units is entirely dependent on the purity and the energy content of the waste material.
ARTI manufactures a system utilizing pyrolysis which is capable of converting a variety of waste materials including municipal solid waste, post-consumer plastics, tires, bio-solids and virtually all other biomass and hydrocarbon based materials into highly valuable commodities including pyrolysis gas and carbon. This system is the culmination of years of research and development by testing the numerous feed stocks leading to commercialization of the process. Most importantly, the ARTI process has direct operating experience with municipal solid waste, tires, animal wastes and human waste among others.
The combination of proven hardware and system control software allow ARTI to install a system that can be reliably operated in a sustainable way to help solve the problem of solid waste disposal by profitably recycling waste materials into marketable commodities.
ARTI manufactures a system utilizing pyrolysis which is capable of converting a variety of waste materials including municipal solid waste, post-consumer plastics, tires, bio-solids and virtually all other biomass and hydrocarbon based materials into highly valuable commodities including pyrolysis gas and carbon. This system is the culmination of years of research and development by testing the numerous feed stocks leading to commercialization of the process. Most importantly, the ARTI process has direct operating experience with municipal solid waste, tires, animal wastes and human waste among others.
ARTI currently manufactures the following standard modular Gas-to-Liquid Systems: 100 barrels and 1000 barrels per day. Custom engineered systems are also available.
Our proven Super Low Emission (SLE) burners achieve the lowest NOx emission levels (5 to 9 PPM) and CO emissions (20 to 50 PPM) in the world with the highest operating efficiency. These very low emission levels are achieved while operating the burners at actual oxygen levels of 3.0% or lower maintaining the highest boiler efficiency performance in the world. Our burners meet all South Coast Air Quality Management (SCAQMD) requirements..
Our SLE burners only require 22% flue gas recirculation to achieve the low emissions of below 9 PPM NOx. Our burner can operate with dual fuels using either light oil, heavy oil or propane while meeting SCAQMD requirement. ACTI covers a long range of burners starting at 400,000 Btu/hr to 250,000,000.00 Btu/hr of operation. ACTI burners can also operate with non-standard fuels such as land fill gas, digester gas, and pyro gases produced from pyrolytic gasification processes.
ARTI and its technology partners have created and built multiple wastewater cleanup systems for industrial waste water treatment using its own proprietary innovative hybrid electrochemical process.
The hybrid advanced electrochemical treatment system that we have developed includes many electrochemical processes designed according to the type of wastewater. The main processes used are electrocoagulation, electrooxidation, electroflotation, electrodialysis, electro hydrolysis, electroosmosis and electrophoresis. In these processes, which we have created with our proprietary design, we provide the treatment and recovery of wastewater with special electrodes and processes determined according to the wastewater type. With the hybrid advanced electrochemical treatment system we have developed, we provide the treatment of waste water with high pollution load by electrochemical methods, without using any chemicals, economically and with high efficiency.
ELECTROCOAGULATION
There are different sizes of pollutants in the water where many of them are too small to settle down by gravity. The process of converting these substances into settling forms is defined as coagulation. The coagulation process can be achieved by adding chemicals to the water and by chemical coagulation, or by electrocoagulation by giving electric current to the electrodes placed in the waste water. In this process, we ensure the dissolution of metal ions with the help of electric current from special electrodes whose types determined according to the type of wastewater. In this way, we prevent the entry of chemicals that may form by-products in chemical treatment into the process. We provide a more active and efficient treatment with these ions, which are dissolved at a sufficient level according to the pollutant ratio in the wastewater. When used together with other electrochemical methods, we ensure that the water is recycled into the system, free of pollutants, with low sludge output and high efficiency without the use of chemicals.
ELECTROOXIDATION
Electrooxidation processes are processes in which pollutants in the environment are oxidized with insoluble metal/metal oxide electrodes and composite electrodes that we have developed after our R&D studies. By applying electric current to the appropriate electrodes, oxidation of pollutants, dyestuffs, organics and metal ions in the water is collected on the anode surface. With the electrooxidation process, electrooxidation, electrochemical conversion and electrochemical decomposition of unwanted organic compounds in wastewater are realized. Electrochemical conversion provides the degradation of toxic, non-biodegradable pollutants. It does not require biological treatment after electrooxidation. In this way, color and micropollutant removal is easily provided, especially in the dye industry and textile wastewater, where the existing treatment systems are insufficient.
ELECTROFLOTATION
One of the most used electrochemical treatment processes in wastewater treatment is electroflotation, and the main point where it differs from flotation (flotation) is the bubble generation mechanism. This method is the process of adsorbing colloidal particles by gas bubbles (H2 and O2) formed according to electrolytic conditions, moving them towards the water surface and collecting them from the surface. Flotation processes are generally used to separate suspended solids from fluids. In electroflotation, this happens without size limitation. In the process, gas bubbles attach to suspended solids and move them towards the surface of the liquid. Suspended solids collected from the surface as sludge are thus separated from the liquid phase.
ELECTRODIALYSIS
With the electrodialysis process, the concentrations of the solutions are controlled, the deionization and dilution of the solutions are provided. Electrodialysis method is used to obtain drinking water, especially by removing salt from sea water. Apart from this, it is a method used in the treatment of food, beer, medicine, metalworking industry wastewater, and in the regeneration of fruit juice and salt solutions. The main rule in electrodialysis is to allow “+” charges to pass through the cationic membrane and to allow “-” charges to pass through the anionic membrane. It is based on the principle that direct electric current carries ions over ion-selective membranes that are permeable to anions, impermeable to cations (anionic) and permeable to cations, impermeable to anions (cationic). With this technology, the treatment and recovery of wastewater with high conductivity and salt content is ensured.
Benefits of our ARTI waste water cleanup system:
Please contact us for a free consultation and quotation to suit your needs. After our initial consultation, we would require for you to send us a sample of your waste water and we will provide you with our post treatment analysis results. Live demonstration possible.
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