Potable water treatment chemicals
ENVO product line of Potable water treatment chemicals has been developed to meet our customers’ unique needs.
Why choose ENVO Potable water treatment chemicals?
Customized Products: ENVO understands the unique needs of each industry and customer. Our Potable water treatment chemicals are carefully developed to ensure they not only meet, but exceed your expectations.
Free samples: You can experience the product first with our free sample service. This helps ensure that the product you choose is exactly what you need.
Transparent test report: We provide detailed product test report information, allowing you to fully understand the performance and quality of the product.
Custom Packaging Services: ENVO offers custom packaging services to meet your unique brand and market needs.
Satisfaction Guarantee: We are confident in the quality and effectiveness of our products. If you’re not satisfied after your purchase, we offer unconditional free returns to ensure your shopping experience is worry-free.
If you’re seeking a new provider for Potable water treatment chemicals, contact us today at +86 136 8322 7764 or send us an inquiry to engage with one of our skilled technicians.
Product and Application Information
- Filter Aids
- Scale Inhibitors
- Coagulants
- Flocculants
- Corrosion Inhibitors
- Ion Exchange Resins
Contact us for more Potable water treatment chemicals information by giving us a call at +86 136 8322 7764 or emailing us . We look forward to assisting you!
PRODUCT AND APPLICATION INFORMATION
- Filter Aids
Mechanism:
Increase filtration speed: Filter Aids can form a uniform layer of filter media, increase the porosity of the filter bed, and increase the speed of drinking water passing through the filter material.
Captures fine particles: By forming a filter membrane or layer, Filter Aids captures tiny particles and prevents them from penetrating the filter media.
Improve suspended solids removal efficiency: Filter Aids help suspended solids settle and agglomerate, making them easier to capture by the filter.
Extend the filtration cycle: The use of filtration aids can help slow down the clogging of the filter media, extend the filtration cycle, and reduce maintenance frequency.
Application areas:
Drinking water treatment: Used to improve the clarity and purification effect of drinking water to ensure that the water quality reaches safe drinking standards.
Industrial water treatment: In industrial water, it is used to remove suspended solids, sediment and other impurities to improve water quality during industrial production.
Wastewater treatment: In wastewater treatment, filtration aids help improve solid-liquid separation efficiency and reduce suspended solids emissions.
Main categories:
Diatomaceous Earth: A natural mineral commonly used to support and reinforce filter beds.
Talc (Perlite): Expansive ore, lightweight and highly porous, suitable for the construction of filter beds.
Alumina: It has strong surface adsorption capacity and can be used to remove colloidal particles in water.
Polymer filter aids: such as polymerized aluminum silicate, polymerized sodium silicate, etc., can improve the performance of filter media.
Mechanism:
Kill microorganisms: The active ingredients in disinfectants, such as chlorine, odorin, peroxide, etc., can destroy the cell structure of microorganisms and kill bacteria, viruses and other pathogens.
Oxidation and damage to DNA: Disinfectants may prevent the growth and reproduction of microorganisms by oxidizing and damaging their nucleic acid (DNA) structure.
Disruption of cell membranes: Certain disinfectants can react with microbial cell membranes, destroying their integrity and causing cell death.
Application areas:
Drinking water treatment: Disinfectants are used to ensure that microbial contamination in drinking water is effectively controlled and water quality is safe.
Sewage treatment: In the sewage treatment process, disinfectants are used to kill pathogens in wastewater to prevent environmental pollution.
Swimming pool water treatment: Disinfectants are used to control microorganisms in swimming pool water, maintain water quality, and ensure the health and safety of swimmers.
Food Processing: Disinfectants are used to clean and disinfect food processing equipment to ensure food safety.
Medical facilities: Disinfectants are used in hospitals, laboratories and other places for surface disinfection, equipment cleaning, etc. to prevent cross-infection.
Main categories:
Chlorine disinfectants: including chlorine, sodium hypochlorite, etc., are commonly used to disinfect microorganisms in water bodies.
Odor disinfectant: Such as bromine disinfectant, commonly used in swimming pool water treatment.
Peroxide Disinfectants: Include hydrogen peroxide and are commonly used for surface disinfection and special occasion water treatment.
Ultraviolet disinfection: Use ultraviolet rays to irradiate water to destroy the DNA structure of microorganisms and achieve disinfection effects.
- Scale Inhibitors
Mechanism:
Ion exchange: The active ingredients in scale inhibitors can ion exchange with hard water ions (such as calcium and magnesium) in the water to form water-soluble complexes to prevent their precipitation and formation of scale.
Crystal control: Antiscalants can interfere with the growth process of scale crystals and keep them in tiny sizes, thereby slowing down the formation of scale.
Dispersion effect: Antiscalants disperse tiny particles in water to prevent their aggregation and deposition and reduce the precipitation of scale.
Slow release: Some antiscalants are designed to release the active ingredients slowly, providing long-term anti-scaling effects.
Application areas:
Drinking water treatment: Used to prevent the precipitation of hard water ions in the water and reduce the accumulation of scale in water treatment equipment and pipes.
Industrial water: used in industrial systems, such as boilers, cooling systems, heating equipment, etc., to prevent hard water ion precipitation and improve equipment efficiency.
Household Equipment: Used in household equipment such as water heaters, kettles, etc. to extend equipment life and improve performance.
Commercial and Agricultural Water: Used in commercial construction and agricultural fields to reduce water quality damage to equipment and pipes.
Main categories:
Polymer antiscalants: including polymers and slow-release agents, which can form a protective film to prevent the formation of scale.
Phosphate scale inhibitors: including slow-release phosphates, which prevent the precipitation of scale by forming water-soluble complexes with hard water ions.
Organic acid scale inhibitors: include certain organic acids that can dissolve and disperse hard water ions to prevent scale formation.
Mechanism:
Adsorption: The main function of activated carbon is to absorb organic matter, odor, residual chlorine and other substances in water. The highly porous structure of activated carbon provides a large surface area, allowing it to effectively adsorb and concentrate target substances.
Chemical reactions: The surface of activated carbon may participate in chemical reactions, such as reduction reactions with residual chlorine, converting it into harmless chlorides.
Microbial adhesion: The surface of activated carbon can absorb microorganisms and filter and remove some microorganisms in the water.
Application areas:
Drinking water purification: Used to remove organic matter, odor, residual chlorine, etc. in water to improve the taste and safety of drinking water.
Wastewater Treatment: In industrial and municipal wastewater treatment, activated carbon is used to remove organic waste and certain toxic substances.
Air purification: Used to remove volatile organic compounds, odors and toxic gases in the air.
Food and Beverage Processing: Used in food and beverage production to remove colorings, odors and other impurities.
Pharmaceutical and Chemical Industry: Used for purification and purification in pharmaceutical manufacturing and some chemical processes.
Main categories:
Granular activated carbon: is the most common form, available in granular or powder form, and is widely used in water treatment.
Granular activated carbon: By forming activated carbon into blocks, the density is increased and suitable for some specific filtration systems.
Activated carbon fiber: Exists in fibrous form with high specific surface area and better filtration efficiency.
- Coagulants
Mechanism:
Neutralization of charged particles: The cations or condensed substances in the coagulant can interact with the charged particles in the water, neutralize the surface charges of the particles, reduce mutual repulsion, and promote the aggregation of particles.
Floc formation: Through the neutralization of charged particles, flocs are formed. These flocs are composed of tiny particles and colloidal particles. They are larger in size and easy to settle.
Solid-liquid separation: The sedimentation speed of the formed floc increases, which facilitates subsequent solid-liquid separation and improves water clarity.
Application areas:
Drinking water purification: Used to remove suspended particles, colloidal particles, organic matter, etc. in water to improve water clarity and purification.
Sewage treatment: In sewage treatment, coagulants are used to condense and settle suspended solids and waste in sewage for subsequent treatment.
Industrial water: used for industrial wastewater treatment to remove solid waste and organic matter generated in industrial production.
Mineral processing: In mineral processing, it is used to improve the settling speed and separation effect of ore.
Main categories:
Metal salt coagulants: including ferric sulfate, ferric chloride, aluminum chloride, etc., are commonly used in water treatment and wastewater treatment.
Polymer coagulants: such as polymeric urethane, polymeric aluminum silicate, etc., have good flocculation effect and are suitable for different water quality and water treatment processes.
- Flocculants
Mechanism:
Flocculants form: Flocculants cause the aggregation of suspended and colloidal particles in water to form larger flocs.
Electrical neutralization: The charged ions or polymer substances in Flocculants can neutralize the charged particles in the water, reduce the charge repulsion between them, and promote flocculation.
Flocculant enlargement: Flocculants gradually increase the size of the floc, increase the settling speed of the floc, and facilitate subsequent solid-liquid separation.
Application areas:
Drinking water purification: Used to remove suspended particles, colloidal particles, organic matter, etc. in water to improve water transparency and purification.
Sewage treatment: In sewage treatment, flocculants are used to coagulate and settle suspended solids and waste in sewage for subsequent treatment.
Industrial water: used for industrial wastewater treatment to remove solid waste and organic matter generated in industrial production.
Mineral processing: In mineral processing, it is used to improve the settling speed and separation effect of ore.
Pulp and Paper Industry: For particle removal and wastewater treatment in pulp and paper processes.
Main categories:
Inorganic flocculants: such as aluminum sulfate, polyaluminum chloride, etc., suitable for small and medium-sized water treatment plants and general water quality.
Organic flocculants: such as polymers, polymeric urethanes, etc., have good flocculation effects and are suitable for different water qualities and water treatment processes.
Coagulants: including iron salts, aluminum salts, etc., promote the formation of flocs by changing the pH value of water and the ion balance in the solution.
- Corrosion Inhibitors
Mechanism:
Formation of protective film: Corrosion inhibitors form a protective film through chemical reaction with the metal surface, blocking the contact between the metal and dissolved oxygen, ions and other corrosive substances in the water.
Inhibit electrochemical reactions: Corrosion inhibitors can affect the electrochemical reactions on the metal surface and slow down the anodic dissolution rate of the metal, thereby inhibiting the occurrence of corrosion.
Block corrosion links: By adsorbing to metal surfaces, corrosion inhibitors can block corrosion links, reduce electron conduction, and reduce corrosion rates.
Application areas:
Drinking Water Supply Systems: Used to prevent corrosion of metal parts of pipes and equipment during water treatment and delivery.
Industrial water: In industrial production, it is used to protect industrial equipment, pipelines and cooling systems from corrosion.
HVAC Systems: Used to protect metal components in air conditioning and HVAC systems from the effects of corrosion.
Boilers and Heating Systems: Used to protect boilers, heating systems and other heat exchange equipment from corrosion and deposits in water.
Main categories:
Organic corrosion inhibitors: including amines, alcohols, etc., which can form a protective film on the metal surface and provide effective anti-corrosion effects.
Inorganic corrosion inhibitors: such as phosphates, nitrates, etc., are often used in heating systems to protect metal surfaces by forming a phosphate or oxide layer.
- Ion Exchange Resins
Mechanism:
Ion exchange: The surface of ion exchange resin has a certain charge and can exchange with ions in water. The resin adsorbs undesirable ions in the water (such as calcium, magnesium, iron, etc.) and releases an equal number of exchangeable cations (usually sodium).
Removing hard water ions: Mainly used to remove hard water ions in water, such as calcium and magnesium, to prevent the formation of scale and improve water softening.
Removal of harmful metals: In some cases, ion exchange resin can be used to remove harmful metal ions in water, such as lead, mercury, etc.
Application areas:
Drinking water softening: Used to remove hard water ions in water, improve water softening, and prevent scale from damaging equipment and pipes.
Filtration and deionized water treatment: used to produce high-purity water, remove ions from the water, and ensure that the water quality meets specific production or experimental needs.
Wastewater Treatment: In some cases, ion exchange resins can be used in wastewater treatment to remove specific ions from wastewater.
Main categories:
Cation exchange resin: Mainly adsorbs negative ions, such as calcium, magnesium, etc., usually in hydrogen or sodium form.
Anion exchange resin: Mainly adsorbs positive ions, such as hydroxide ions, which usually exist in the hydroxide form.
Mixed bed resins: Contains both cation and anion exchange resins for more comprehensive water treatment.
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