Waste water treatment is done to remove as much of the suspended solids as possible before the remaining water which is called effluent, is discharged back to the environment. STTIPL is committed to optimizing wastewater treatment by efficiently removing suspended solids before releasing the effluent, back into the environment. With a diverse range of industrial wastewater challenges in mind, we implement a variety of cutting-edge methods to deliver tailored wastewater treatment plants and solutions.
Our approach is centered on providing customized solutions to address the unique effluent requirements of different industries, ensuring maximum efficiency in the treatment process. To achieve this, we offer systems based on primary, secondary and tertiary treatment technologies. These systems are designed to suit specific needs. At STTIPL, our expertise spans the design and installation of a wide array of essential components. We cater to industries seeking resource optimization by offering advanced settling systems for waste management in sectors like chemicals, pharmaceuticals and refineries. With the aid of cutting-edge technologies like reverse osmosis and ultra-filtration systems, as well as other tertiary treatment procedures, we ensure the effective removal of pollutants and contaminants, leading to a greener, more sustainable future. At STTIPL, we stand at the forefront of innovative wastewater treatment, providing environmentally responsible solutions to industries worldwide.
Technology
In the oil and gas industry, produced water is co-produced with oil during drilling processes. This water often carries residual oil, as well as a mix of heavy metals, sand, and biological residues. At STTIPL, we offer customized solutions designed to address the unique needs of our customers and applications. Our cutting-edge filtration systems are engineered to efficiently remove foreign substances from produced water. By employing advanced technology, we ensure the water is treated to meet environmental standards, making it suitable for safe discharge.
Advanced oxidation processes are a set of chemical treatment procedures designed to remove organic (and sometimes inorganic) materials in water and wastewater by oxidation through reactions with hydroxyl radicals (·OH). Advanced oxidation processes offer a multifaceted approach to water purification, capable of efficiently breaking down recalcitrant compounds that conventional treatment methods struggle to address. The hydroxyl radicals, known for their exceptional reactivity, exhibit a remarkable capacity to dismantle a wide range of pollutants. STTIPL’s Advanced Oxidation Process is a culmination of extensive research, technological excellence, and a deep understanding of the complexities of wastewater contaminants. We recognize that conventional treatment methods often fall short in addressing emerging pollutants and recalcitrant compounds. That's where our Advanced Oxidation Process steps in, delivering unparalleled efficiency and efficacy.
Tiny Bubble Oxidation
TBT-Electro Oxidation System
TBT-Ozone Oxidation System
TBT-Plasma Oxidation System
Deep filtration is an advanced water treatment technique designed to remove impurities and particulate matter from liquids. It involves passing the liquid through a porous medium, such as sand, activated carbon, or diatomaceous earth, which traps and retains the contaminants while allowing the purified liquid to pass through. This process effectively removes suspended solids, sediment, and other impurities, resulting in cleaner and clearer water suitable for various applications, including drinking water, industrial processes, and wastewater treatment. At STTIPL, we have redefined water treatment with our state-of-the-art deep filtration system. Experience unmatched purity and efficiency as our advanced technology removes impurities, ensuring water of the highest quality.
Pressure Sand Filter
DMF
Iron Removal Filtration System
Activated Carbon Filtration
Ion Exchange Filtration
Filtration systems include ultrafiltration, microfiltration, nanofiltration, and reverse osmosis. They will retain different sizes of particles and ions, whilst allowing pure water to flow through. Ultrafiltration and microfiltration are employed to filter out larger particles and microorganisms, while nanofiltration targets smaller particles and some ions. Reverse osmosis, on the other hand, tackles even smaller molecules and ions, resulting in highly purified water. To complement these techniques, Cartridge Filters act as an additional layer of protection. They serve as barriers, capturing solids and particles upstream, preventing them from entering the filtration process. This dual filtration approach ensures the highest level of water purity and quality. STTIPL’s filtration systems are a testament to this commitment, driven by a fusion of advanced technology, skilled engineering, and a dedication to environmental sustainability.
Micro Filtration System
Ultra Filtration
Ceramic Membrane Separation System
Nano Filtration System
RO Membrane Separation System
STTIPL is trusted source for comprehensive sewage water treatment solutions. We specialize in providing advanced technologies and expertise to effectively treat and manage sewage water, ensuring a cleaner and healthier environment. Sewage is generated by residential and industrial establishments. It includes household waste liquid from toilets, baths, showers, kitchens, sinks, and so forth that is disposed of via sewers. In many areas, sewage also includes liquid waste from industry and commerce. The separation and draining of household waste into greywater and blackwater is becoming more common in the developed world. Greywater is water generated from domestic activities such as laundry, dishwashing, and bathing, and can be reused more readily. Blackwater comes from toilets and contains human waste. At STTIPL we stand committed to enhancing sewage water treatment through advanced methodologies, leading to a sustainable and eco-friendly approach.
The anaerobic system is a biological treatment process that occurs in the absence of oxygen. This system relies on the activity of anaerobic microorganisms to degrade organic matter present in wastewater. During anaerobic digestion, complex organic compounds are broken down into simpler substances, such as methane and carbon dioxide, through a series of microbial reactions. The byproduct of this process is biogas, which can be harnessed as an energy source. The anaerobic wastewater treatment process consists of two stages: an acidification phase followed by a methane production phase, with both processes occurring in dynamic equilibrium. In the initial acid-forming phase, anaerobes break down complex organic compounds into simpler, short-chain volatile organic acids.
Anaerobic Sludge Blanket Reactors (UASB)
Anaerobic Contact Processes
Anaerobic Expanded and Fluidized Bed Systems (EGSB, FB)
The aerobic biological system requires the presence of oxygen to facilitate the decomposition of organic matter. This treatment process relies on aerobic microorganisms, which use oxygen to metabolize and break down organic compounds into carbon dioxide, water, and microbial biomass. The process is efficient in removing both organic pollutants and nutrients from wastewater. Aerobic systems are commonly employed in activated sludge processes, trickling filters, and sequencing batch reactors (SBRs). They provide advantages like faster treatment rates and the ability to handle varying wastewater loads effectively.
ASP (Activated Sludge Process)
MBBR (Moving Bed Bio Reactor)
MBR (Membrane Bio Reactor)
SBR (Sequential Batch Reactor)
Tiny Bubble Flotation Technology (TBFT) is an innovative water treatment technique that utilizes extremely small bubbles to enhance the flotation process. It is designed to efficiently remove impurities and contaminants from water sources, making it a valuable tool in various industries. TBFT operates on the principle of introducing microbubbles, typically ranging in size from 10 to 100 micrometers, into the water being treated. These tiny bubbles possess unique properties that significantly improve the effectiveness of the flotation process.