For most of us, the idea of water chlorination is just standard, but it hasn’t always been this way. In the mid-to-late 1800s, chlorine had been used sporadically to help control infection in hospitals and drinking water. But, standard water treatment did not begin in the U.S. until the early twentieth century, when increasing cases of waterborne illnesses prompted many large cities to begin large scale filtration of water supplies.
Still, filtration alone wasn’t enough to reduce widespread illnesses. In 1914, a standard was enacted that limited drinking water to a maximum of two coliforms per 100 mL. This new standard ushered in the modern age of disinfection in the U.S. chlorination, virtually eliminating waterborne epidemics and increasing life expectancy by 50 percent.
Today, with increasing pollution and new regulations, it has become more and more challenging to meet all of the requirements for safe disinfection with just one treatment. Using multiple technologies for disinfection in a layered approach is often necessary.
For example, a surface water potable water treatment facility may use chlorine dioxide at the head of the plant to gain disinfection credit without creating chlorine by-products, then apply chlorine to the finished water to maintain a residual through the distribution system. Read more about the many means of disinfection below.
Choosing the Right Disinfection
Today, there are several effective technologies available for the disinfection of water and wastewater, and each has its advantages and disadvantages. Understanding the treatment process goals is fundamental to choosing the right disinfection option.
Chlorine Gas
Used in water treatment plants since the early 1900s, chlorine gas is essentially pure chlorine, typically delivered in pressurized 150-pound cylinders, one-ton containers or rail cars directly to the site in a usable form. It is generally the most cost-effective, efficient and easiest method of disinfecting with chlorine.
Vacuum-operated Solution Feed Systems
These systems enhance the safety of feeding chlorine gas. The control modes used for this process are typically flow proportioning, residual control, or compound loop (flow plus residual).
Commercial Sodium Hypochlorite
Commercial sodium hypochlorite is a liquid disinfection that is manufactured at approximately 12.5 to 15 percent chlorine by weight with a pH greater than 11. The delivery systems for it include the storage tank, chemical dosing pumping system with associated valves and piping, and a control method such as flow control, residual control, or compound loop (flow + residual).
Classified as a hazardous chemical, bulk sodium hypochlorite requires secondary containment and hazardous chemical manifests. Although more expensive (per pound) than chlorine gas or on-site hypochlorite generation, sodium hypochlorite is considered easier to maintain and operate.
Bulk sodium hypochlorite concentration decays over time, and higher volumes are required to achieve the same result. Chlorate as a by-product is a concern for the expected new MCL of 210 ppb.
On-site Hypochlorite Generation (OSHG)
An OSHG system uses electrolysis to generate a nominal 0.8 percent solution of hypochlorite on-site as needed. A dilute brine solution passes through an electrolytic cell, converting the chloride ion from the salt to hypochlorite.
The process typically uses three pounds of salt, two kW hours of electricity and 15 gallons of water to produce a pound of chlorine in 15 gallons of solution, the equivalent of the active chlorine present in one gallon of 12.5 percent bulk hypochlorite, or one pound of chlorine gas. OSHG systems have moderate maintenance requirements, producing chlorine at about 25 percent, 60 percent of the cost of bulk sodium hypochlorite per pound of chlorine produced, and is considered safer than transporting gas under pressure.
Chlorine Dioxide
Chlorine dioxide is generated by mixing acid or chlorine gas and sodium chlorite, with ejector water as an entrained gas to form a solution that is applied to the process. Because it cannot be compressed and liquefied for transportation, it is generated on-site close to its intended use. It is a strong oxidant and disinfectant across a wide pH range for both water and wastewater and does not react with ammonia to become a weaker disinfectant. This is important for plants where the water has a high ammonia content, often resulting in lower operating costs. Chlorine dioxide is frequently used in water treatment plants as a primary disinfectant early in the treatment process to prevent the formation of trihalomethanes (THMs).
On-site Chlorine Generation (OSCG)
Similar to OSHG, an OSCG system uses brine solution and membrane electrolysis to produce higher concentrations of hypochlorite up to 12 percent of chlorine gas, which is vacuum-educted to the point of application. On-site chlorine generation reduces transportation and delivery hazards associated with shipping commercial hypochlorite and eliminates transportation safety concerns of chlorine gas delivered in liquid (bulk) containers.
Ozone
Made of three oxygen atoms (O3), ozone is a powerful oxidant. It deteriorates rapidly to oxygen and is usually generated on-site using either air or pure oxygen. Ozone does not produce disinfection by-products (DBPs) and can be used as a primary disinfectant for water treatment to reduce THMs and DBPs.
Ozone also is used for taste, odor and color control in potable water treatment, as well as Fe/Mn removal when THMs are a concern. Further, it is used to remove micropollutants, including pesticides, at disinfection dosages. Ozonation is typically not used for primary disinfection of wastewater effluent with high levels of suspended solids (SS), biochemical oxygen demand (BOD), chemical oxygen demand, or total organic carbon since the cost of treatment can be relatively high in capital and power intensiveness.
Ultraviolet Light (UV)
Ultraviolet light energy at 254 nm wavelength is absorbed by the DNA of a microorganism, stopping the reproductive process and rendering it non-infective and microbiologically dead. UV systems operate at varying pressure and output, depending on the application, target pathogen and water quality involved.
UV has most recently been used to treat wastewater effluent since regulations require more stringent chlorine discharge limits for various receiving streams. UV is effective in removing chlorine-resistant pathogens from drinking water, including Cryptosporidium, Giardia and various viruses that have proven to be resistant to traditional disinfection methods such as chlorine and filtration.
Calcium Hypochlorite
A solid tablet, calcium hypochlorite, is typically 60 percent available chlorine delivered via a tablet-feed system or a dilution tank in which the calcium hypochlorite is dissolved into a solution then dosed with a metering pump. It is commonly used in swimming pools.
Because calcium hypochlorite is expensive per pound of chlorine and is difficult to dose in larger facilities accurately, it is typically used for smaller remote plants where other methods of chlorine feed are not feasible.
Chloramines
In the presence of ammonia, chlorine combines with the ammonia to form either mono-chloramine, di-chloramine, or tri-chloramine, depending on the ammonia-to-chlorine ratio. Mono-chloramine is a relatively weak disinfectant but maintains a very stable long-lasting residual in water and is therefore often used as a secondary disinfection method in systems with a long water age.
Chloramine systems can be challenging to control, and operators must carefully monitor and maintain their dosing systems for maximum accuracy. Peracetic Acid (PAA) Peracetic acid (CH3CO3H) — also known as peroxyacetic acid, or PA — is a liquid that functions as a strong oxidizing agent, has an acrid odor and can also be used as a disinfectant.
PAA is generally commercially available as an equilibrium mixture of 12-15 percent peracetic acid and 18-23 percent hydrogen peroxide. PAA is available in 330-gallon totes and, in bulk, requires stainless steel piping and is administered using a metering pump. Since PAA is a highly-effective bactericide, does not form DBPs, has a minimal dependency on pH and does not leave a residual, it has received significant consideration for the disinfection of wastewater effluent.
Treatments will be different for every situation and plant size. But, with a well-defined treatment process goal and experienced, knowledgeable partners working together, developing the most effective, simple and budget-conscious disinfection plan can truly be a painless process.
Choosing the Right Treatment System
Whether it’s a new project or an upgrade to an existing plan, choosing the right water treatment system takes careful research and planning. Find out if an on-site sodium hypochlorite system is right for you. Contact Aquatick by JalAqua for additional product info or connect with a regional distributor today.
We at Aquatick by Jal Aqua International, are Calcium Hypochlorite manufacturers, suppliers, importer & traders from India based. We have the best quality of Calcium Hypochlorite, with very competitive price. Our Calcium Hypochlorite is made with very high quality raw materials using all quality standards of the Industry.
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