Manufacturer Representative Serving the New England Water & Wastewater Treatment Industries
Manufacturer Representative Serving the New England Water & Wastewater Treatment Industries
Industrial wastewater treatment refers to the processes used to treat water that has been contaminated by industrial or commercial activities before it is released back into the environment or reused. It involves various physical, chemical, and biological methods to remove pollutants.
Anaerobic wastewater treatment is a process that utilizes microorganisms to break down organic pollutants in the absence of oxygen, producing biogas (mainly methane) as a byproduct. It's effective for high-strength wastewaters and is often used as a preliminary or primary treatment process.
DAF (Dissolved Air Flotation) system is a water treatment process that clarifies wastewater by removing suspended matter such as oil, grease, or solids. The removal is achieved by dissolving air in the water or wastewater under pressure and then releasing the air at atmospheric pressure in a flotation tank or basin.
Sludge drying is the process of removing water from the sludge generated during wastewater treatment, reducing its volume and weight, and transforming it into a dry solid product. This process makes sludge disposal or reuse more economical and environmentally friendly.
Package wastewater treatment refers to a pre-engineered and pre-assembled treatment system that is compact and easy to install. These systems are designed for small to medium-sized applications, offering an efficient and cost-effective solution for treating wastewater.
Biological filtration uses microorganisms attached to a medium to capture and metabolize pollutants in wastewater. As water passes through the filter, microorganisms break down organic matter, removing contaminants and improving water quality.
Biological treatment primarily uses microorganisms to degrade organic pollutants and remove nutrients from wastewater. Unlike physical or chemical treatments, it leverages natural biological processes, making it more sustainable and often cost-effective for organic waste.
Mixing is crucial in wastewater treatment to ensure uniform distribution of microorganisms, oxygen, and nutrients, and to prevent settling of solids. Proper mixing ensures efficient biological treatment and nutrient removal.
The key nutrients removed are nitrogen and phosphorus. Excessive amounts of these nutrients in water bodies can lead to eutrophication, causing harmful algal blooms and deteriorating water quality. Removing these nutrients is essential for protecting aquatic ecosystems.
Phosphorus can be removed biologically through specific microorganisms that uptake phosphorus in excess of their metabolic needs, or chemically by precipitating phosphorus with salts of iron, aluminum, or calcium.
A wastewater blower is used to supply air or oxygen to the treatment process, specifically in aerobic biological systems. It ensures adequate oxygen is available for microorganisms to efficiently break down organic pollutants.
Stormwater treatment involves the collection, storage, and treatment of rainwater runoff to remove pollutants before it enters water bodies or recharge zones. It's necessary to prevent flooding, protect water quality, and reduce the impact of urbanization on natural water cycles.
Biosolids pyrolysis is a thermal decomposition process that converts treated sewage sludge (biosolids) into biochar, syngas, and oil, in the absence of oxygen. It reduces the volume of waste, produces renewable energy, and creates valuable byproducts for soil amendment and other uses.
Technology Sales Associates, Inc.
402 Amherst St Ste 301 Nashua, NH 03063 US
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402 Amherst St Ste 301 Nashua, NH 03063 US
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