About The Author

Nick Piskura is the Marketing and Web Development Specialist at ChemREADY who utilizes expertise in digital marketing strategies to provide knowledgeable insights in each segment of our business. Nick provides insights through web development and multimedia resources that support ChemREADY’s full range of services, including Legionella management, ANSI/AAMI ST108 compliance, boiler and cooling tower treatment, wastewater processing, and industrial water quality solutions.

Articles From Nick

Discover how ChemREADY’s Intuition-9™ and Intuition-6™ controllers deliver optimized chemical dosing and seamless remote monitoring in Ohio.
Learn how Ohio hospital Legionella regulations state hospitals must comply with Legionella prevention requirement Ohio Code 3701-22-07.
New Jersey legionella compliance has taken a major step to reduce Legionnaires’ disease outbreaks with the passage of P.L. 2024, c.66. This legislation targets sources of Legionella—from cooling towers and whirlpools to potable water systems—and mandates stricter water management programs.
New Jersey’s robust industrial landscape and dense population make water treatment a critical concern for businesses and municipalities alike. From manufacturing plants to commercial facilities, proper chemical treatments help maintain water quality, reduce the risk of health hazards like Legionella, and comply with strict local regulations. In this blog, we’ll explore why water treatment chemicals in New Jersey are essential, how to select the right solutions, and the key compliance guidelines you must follow.
Learn how to optimize end of year budget planning for water treatment with strategies that reduce costs and enhance efficiency. Explore tailored solutions for equipment upgrades, compliance testing, and operational improvements to meet financial goals while maintaining high water quality standards.
Point of use filters are a vital tool in modern water safety, especially when it comes to protecting against Legionella—a waterborne pathogen that poses serious health risks. For those in Ohio, point of use filters in Ohio offer localized solutions designed to remove contaminants where water is consumed.
As part of the new regulations set to take effect on July 12, 2024, Ohio Residential Care Facilities (RCFs) must now implement a mandatory water management program designed to manage the risk of waterborne pathogens, including Legionella. This update is outlined in Rule 3701-16-12, Section D of the Ohio Administrative Code.
In the world of water chemistry, alkalinity often plays a crucial, yet somewhat unnoticed, role. It’s not a specific molecule but rather a measure of a water body’s ability to neutralize acids and resist changes in pH. It acts like a buffer, ensuring a stable environment infrastructure.
Corrosion inhibitor for water: Protecting metal infrastructure from the relentless assault of corrosion is crucial in various industries. Water, often the culprit, can accelerate this process, leading to costly repairs and safety concerns. Thankfully, corrosion inhibitors stand as the first line of defense, safeguarding metal surfaces in water systems.
Wastewater pretreatment is a crucial step that industries take to remove harmful pollutants from their wastewater before it reaches municipal treatment plants.
Sludge is a semi-solid mix of organic and inorganic materials that settles during water treatment. While not harmful initially, untreated sludge can harbor pathogens, pollute waterways, and create unpleasant odors. It's made up of everything from dead microorganisms and discarded food particles to bits of paper and chemicals
Discover how fluorescence aids in dosing Tagged Polymers for cooling towers. Learn why precise detection prevents scale and fouling, improving efficiency and lowering costs.
Legionella sample results, ranging from "non-detectable" to "high," play a pivotal role in gauging the extent of Legionella growth, a key factor in the chain leading to Legionnaires' disease. The ultimate objective is to curtail the potential for bacterial amplification. While achieving 100% non-detectable samples may not be imperative, understanding and interpreting these levels are paramount.
Learn how proper chemical selection and maintenance practices improve Industrial Boiler Treatment, reduce corrosion, and extend equipment lifespan.
Discover how to optimize cooling tower performance through effective water treatment systems. Learn about filtration, side-stream approaches, chemical treatments, and more for extended equipment life and improved reliability.
Discover how choosing the right boiler water treatment process can boost efficiency, prevent damage, and extend your boiler’s lifespan. Learn about softening, deaeration, demineralization, filtration, and more.
Discover how boiler treatment chemicals—like oxygen scavengers, amines, and anti-scaling agents—protect equipment, boost efficiency, and ensure reliable steam production.
Learn how a proper dry lay-up prevents corrosion and bacterial growth in cooling towers during extended shutdowns. Discover key steps for protecting your investment and ensuring a smooth restart.
Oxygen in boiler feed water can cause a number of problems, including corrosion, pitting, and scaling. This can lead to reduced efficiency, increased downtime, and costly repairs.
Discover the importance of boiler maintenance, from daily checks to annual professional inspections. Keep your boiler running safely, reduce energy costs, and prolong its lifespan.
Learn how often to flush your boiler, why it matters, and signs it’s time. Follow these steps or call a pro to keep your system clean, safe, and running efficiently.
Concrete and washout water are two of the most common types of waste generated on construction sites. Concrete can also be a significant source of pollution if it is not disposed of properly. Washout water is the water that is used to clean concrete tools and equipment, and it can contain a variety of pollutants, including cement, sand, and other debris. Learn how to treat both today.
Industrial wastewater is the water that is used in industrial processes and then discharged. It can contain a variety of pollutants, such as chemicals, metals, and organic matter. However, with proper treatment, industrial wastewater can be reused for a variety of purposes.
Wastewater is the water that has been used in homes and businesses, and it contains a wide range of pollutants, including chemicals. Learn about them in this article by ChemREADY.
Cooling towers are one of the most common places where Legionella can grow, as they provide the warm, moist environment that the bacteria needs to thrive. There are a number of different treatments that can be used to control Legionella in cooling tower water covered in our article.
Cooling towers are used to cool water for a variety of industrial and commercial applications. The water in cooling towers can become contaminated with minerals, bacteria, and algae, which can lead to scaling, corrosion, and the growth of Legionella bacteria. Cooling tower water treatment companies offer a variety of services to help prevent these problems.
Industrial effluent is wastewater that is produced by industries as an undesirable by-product. It can contain a variety of pollutants, including organic matter, inorganic compounds, heavy metals, and toxic chemicals. Industrial effluent treatment is important to protect the environment and public health.
Wastewater treatment plants (WWTPs) produce a variety of odors, including hydrogen sulfide (H2S), mercaptans, ammonia, and amines. These odors can be unpleasant and even harmful to human health. Wastewater odor control is important to protect public health and the environment.
New Jersey Senate Bill S2188 introduces comprehensive measures to prevent and control Legionnaires' disease by regulating public water systems and requiring certain facilities to adopt enhanced water management practices.
Discover the importance of boiler maintenance, from daily checks to annual professional inspections. Keep your boiler running safely, reduce energy costs, and prolong its lifespan.
Defoamers are chemical additives that are used to control or eliminate foam in industrial processes. Foam is a dispersion of gas bubbles in a liquid, and it can be a problem in a variety of industries.
Corrosion is the gradual destruction of a metal by chemical or electrochemical reaction with its environment. In water treatment, corrosion can be a major problem, as it can damage pipes, valves, and other equipment. Corrosion inhibitors are chemicals that can be added to water to slow down or prevent corrosion.
Flocculation is a process in which small particles in a liquid clump together to form larger particles, or flocs. This can be done by adding a flocculant, which is a substance that helps to destabilize the particles and make them more likely to clump together. Flocculation is used in a variety of industries, including water treatment, wastewater treatment, and mining.
Foam in wastewater can be a nuisance and a health hazard. It can also be a sign of a problem with the wastewater treatment system. There are a number of ways to remove foam from wastewater, depending on the cause of the problem.
Foam in wastewater can be a nuisance and a health hazard. It can also be a sign of a problem with the wastewater treatment system. There are a number of ways to remove foam from wastewater, depending on the cause of the problem.
Digital water treatment is the use of digital technologies to improve the efficiency, effectiveness, and sustainability of water treatment processes. These technologies can be used to monitor water quality, optimize treatment processes, and manage water resources.
Magnetite is a black iron oxide mineral that is naturally magnetic. It is the most magnetic of all naturally occurring minerals, and it is used in a variety of applications, including magnets, jewelry, and water treatment.
Tannins are a group of natural compounds that are found in many plants, including trees, bark, and leaves. They are known for their astringent properties, which means they can shrink or dry tissues. Tannins are also effective at binding to metals, which makes them useful for treating boiler water.
Cooling towers are an essential part of many HVAC systems, but they can also be a source of problems if they are not properly maintained. One of the most important things to do when starting up a cooling tower for the season is to perform a thorough inspection and cleaning.
Microbiologically induced corrosion (MIC) is a type of corrosion that is caused by the presence of microorganisms. These microorganisms can produce acids, gases, and other substances that can damage metal surfaces. MIC can occur in a variety of environments, including seawater, freshwater, soil, and industrial fluids.
Biocides are substances that kill or inhibit the growth of living organisms, such as bacteria, viruses, fungi, and algae.
Water pre-treatment is the process of removing contaminants from water before it is treated by a more complex system, such as a reverse osmosis (RO) system. Pretreatment can help to improve the efficiency and lifespan of the RO system by removing contaminants that can foul or damage the membranes.
Corrosion is the gradual destruction of a material by chemical or electrochemical reaction with its environment. In water systems, corrosion can occur in pipes, valves, and other components. It can lead to leaks, blockages, and other problems that can disrupt water service and cause costly repairs.
What Should I Do To Shut Down My Cooling Tower For The Season? Scale is a hard, chalky deposit that can form on the surfaces of cooling towers. It is caused by the precipitation of dissolved minerals in the cooling water. These minerals can come from the makeup water, the air, or the materials used to construct the cooling tower.
How Does Scale Form on Cooling Tower Surfaces? Scale is a hard, chalky deposit that can form on the surfaces of cooling towers. It is caused by the precipitation of dissolved minerals in the cooling water. These minerals can come from the makeup water, the air, or the materials used to construct the cooling tower.
What Type Of Equipment Do I Need For My Cooling Tower System? To treat your cooling tower you will need chemical feed pumps, treatment control system, filtration, and monitoring probes. Cooling towers are used to remove heat from a variety of industrial and commercial applications. However, the water used in cooling towers can become contaminated with minerals, microorganisms, and other impurities.
There are a number of products that can be used to descale cooling towers, heat exchangers, and boilers. The best product for a particular application will depend on the type of scale, the severity of the scaling, and the materials of the equipment.
ChemREADY is your go-to source for all your chemical maintenance needs! If you own or operate a nitrite closed loop water treatment system, you know how crucial it is to keep it running efficiently to ensure smooth operations and prevent costly downtime. In this comprehensive guide, we will walk you through the best practices for maintaining nitrite closed loop water treatment systems, so you can keep your system in top shape and extend its service life.
Water is a valuable resource, and with increasing global demand, it's important to ensure that it's used efficiently. Closed-loop water treatment systems are an effective way to recycle and reuse water, reducing overall water consumption. Nitrite closed-loop water treatment is a particular method that's gaining popularity due to its efficiency and effectiveness. In this blog, we'll discuss what nitrite closed-loop water treatment is, its advantages, and how it works.
The best system for wastewater dewatering will depend on the type of sludge you have, the amount of water you need to remove, and your budget.
Medical centers, commercial buildings, industrial sites and residential apartments can all save money and energy and help prevent service disruptions with proper steam boiler maintenance for their water system. Learn more in our Water Facts.
Water-based cooling systems, also known as hydronic cooling systems, are a type of heating, ventilation and air conditioning (HVAC) system that use water to transfer heat from one location to another. Hydronic systems can either heat or cool buildings, in fact. The systems operate by either absorbing heat inside the building and transferring it outside to cool the building, or vice versa, absorbing heat from outside air and bringing it inside.
ORP stands for oxidation-reduction potential. It is a measure of the tendency of a substance to either gain or lose electrons in a chemical reaction. Learn about its importance in water treatment here.
Cooling towers are essential components of many industrial and commercial facilities. These systems utilize the heat exchange process to efficiently cool water. Learn more with ChemREADY on Cooling Tower Efficiency.
When it comes to Alkalinity in boiler water it is important to test its levels. If it gets outside of safe operating ranges; it will cause corrosion, embrittlement, and carryover with cooling water systems. where it has a significant effect on chemical treatments for scale and corrosion inhibition.
Every industry has certain “set it and forget it” systems that are easy to ignore. The water cooling towers, quietly perched on the rooftop of your facility is one of those systems. Or is it? Revenue could be slipping away through that equipment, and needlessly so. Here are six tips to help prevent profits from evaporating unchecked into the atmosphere.
Winterize your cooling towers as winter weather approaches, maintenance personnel can take proactive measures to help protect cooling towers from corrosion, bacterial contamination and potential health, safety, or operational issues
Corrosion is an inevitability in any water system. Learn how to more effectively manage your closed loop water system treatment with the Magstrainer from ChemReady.
Spring and fall are times for normal cooling tower maintenance, as staff performs their normal shut-down-startup routines. While there’s typically a lot of focus on the equipment procedures, proper water handling needs to be considered as well to avoid not only corrosion but bacterial growth. Here are common best practices to follow during seasonal maintenance.
Implementing a regular water treatment program for your cooling tower is necessary to maintain safe and reliable operations. In order to get these benefits, you have to tailor your water treatment company to the specific conditions of your cooling tower.
Implementing a regular water treatment program for your cooling tower is necessary to maintain safe and reliable operations. In order to get these benefits, you have to tailor your water treatment program to the specific conditions of your cooling tower.
Water Treatment for Cooling Towers is critical. Cooling towers are integral pieces of equipment to many businesses today, allowing companies to remove heat from their environments to cool down their buildings and processes. These specialized heat exchangers run on the principles of water-cooling methods.
Are you looking for a more efficient wastewater treatment process for your mining operation? ChemREADY’s online ROI Calculator can help you determine if a custom dewatering solution is right for you.
Wastewater treatment is critical to the success of any concrete production application. Considering how vital and necessary this process is, improving the efficiency of your wastewater treatment can lead to numerous benefits.
Coagulants In Wastewater Treatment plays a vital role in the wastewater treatment process, allowing for solids removal and dewatering, water clarification, lime softening, and sludge thickening. With the help of other specialized chemicals and mechanical filtration methods, coagulants help companies maintain a consistent and reliable source of clean water to support their industrial processes.
As businesses prepare for the new year ahead, now is the perfect time to rethink your water treatment plan. With new water treatment technologies and solutions becoming more readily available, it’s a good time to re-visit how to optimize your water treatment plan.
Azoles are used in Water Treatment because they are structured ringed organic molecules which act as corrosion inhibitors for copper and copper alloys in cooling water management plans. If you’re involved with cooling towers or water treatment, you’ve likely heard of Azoles before. Because of the copper alloys used in cooling systems due to their ability to transfer heat efficiently, azoles are used to protect these alloys from potential corrosion.
Many mining operations rely on tailings dams for their tailings management. However, when these dams fail, it can result in significant harm to people and the environment. Now, with regulatory pressure on the rise, the mining industry needs to find better alternatives to tailings dams – like high-pressure filters for mining wastewater treatment – in order to ensure safe and efficient operations.
Coagulation plays a vital role in the wastewater treatment process, allowing for solids removal and dewatering, water clarification, lime softening, and sludge thickening. With the help of other specialized chemicals and mechanical filtration methods, coagulants help companies maintain a consistent and reliable source of clean water to support their industrial processes.
If you need powerful, industry-grade temperature regulation, then cooling towers are often your best bet. These specialized heat exchangers can keep your systems cool in even the toughest applications through advanced water-cooling methods.
Side stream filtration units help to keep your cooling towers operational by continually cleaning and treating the tower’s water. Since they are easy to integrate into existing systems, every plant manager should look into getting a quality side stream filter to help optimize their cooling tower’s water treatment process.
High-efficiency side stream filtration is critical to optimizing the water treatment process for cooling towers. Using this equipment, you can filter out fine particulate in your tower’s water supply, which is the underlying cause of many cooling tower problems.
A cooling tower is powerful heat exchangers that provide temperature regulation for a variety of industrial processes. Unfortunately, while they’re critical to many applications, cooling towers can easily succumb to a number of problems that hinder their operations.
Boilers and cooling towers rely on consistent water treatment to stay operational. When used effectively, ultra-concentrated products allow for more efficient water treatment process.
Concrete production applications require ongoing wastewater treatment in order to keep operations running. Not only is wastewater treatment necessary to stay within regulatory guidelines, but excess waste can reduce profits, slow down operations, and can lead to environmental harm/damage.
The Basics of Mining Wastewater Treatment is an important topic for most mining operations. Used in mineral processing to recover valuable metals from ore, water is essential to the mining industry. However, using water in this way causes mineral contaminants and other solids to accumulate in your process water supply.
In the past, dry screening was very common and accepted. Today, to meet the needs of advancing world markets, there are now better options. For mining Companies using washing and scrubbing for materials, they can ensure they are producing a silt free product.
Water Treatment for Cooling Towers is critical. Cooling towers are integral pieces of equipment to many businesses today, allowing companies to remove heat from their environments to cool down their buildings and processes. These specialized heat exchangers run on the principles of water-cooling methods.
Why is Boiler Water Treatment Maintenance Required? The answer lies in the problems of not treating a boiler. No matter the type of boiler you work with, corrosion is always a risk and not everyone understands the preventative maintenance required to prevent equipment damage. Corrosion is commonly caused by oxygen or improper pH control. This can create holes in economizers, boiler tubes or feedwater piping resulting in boiler leaks and a pricey fix. There are many forms of corrosion and they are not treated equally.
What is a filter press and how does it work? A filter press is one of the oldest and most trusted pieces of dewatering equipment. They’re used for wastewater treatment across a variety of industries and applications. A filter press works by separating out solids from liquids, removing impurities, and suspended solids from industrial wastewater. This allows plant managers to easily handle and dispose of waste while returning clean water to their systems. Want to learn how the technology or filtration equipment works or how it could help your operation? In this Water Facts, we'll examine these details further.
Many industrial plants and facilities use or create wastewater with their processes. The wastewater can be discharged, based on local regulations and permit requirements, or re-used within their process. Most likely in all cases, the water needs to be treated to some degree to meet quality characteristics or regulatory requirements – often referred to as wastewater treatment or wastewater pretreatment.
ChemREADY knows how important it is to properly maintain boiler systems and keep your boiler operating at peak efficiency. How to Shut Down a Boiler is very important, boilers are often damaged by improper shut down. When drained hot, the residual heat in the boiler furnace can cause warpage of tubes or tube sheets, causing leaks and requiring tube rolling.
Here at ChemREADY, we know how important boiler maintenance is and how to keep your boiler operating at peak efficiency. A common boiler system failure is a boiler leaking and leaky water tubes. Boiler tube leaks can cost a company thousands of dollars in lost efficiencies, elevated maintenance costs, and in the worst cases, added risks associated with complete boiler system failure. ChemREADY can help companies who have boilers mitigate the risk of boiler leaking through proper treatment of the boiler’s water system.
The affordability of a Filter Press is a concern for many of our customers, can a Filter Press be affordable. Finding the correct equipment to fuel your operation can sometimes be a difficult task especially for smaller operations with a limited capital budget. Historically, to deal with wastewater, a lot of capital investment was required to keep the plant running smoothly, engineers were hired, and a lot of chemicals were employed.
With so many options for alkalinity adjustment in wastewater treatment, it is hard to know which one truly works the best. There are three main options that are typically represented in the marketplace for Wastewater Treatment Plants (WWTP) when faced with this question: magnesium hydroxide, lime slurry, and caustic soda.
Spending hours scouring the internet only to come up empty handed on any question just isn’t acceptable by today’s standards. We have found there is a gap in readily available information regarding Boiler Water Treatment programs and their associated costs. For a new business or first-time manager, knowing which factors are important and which level of treatment is required, will be key to calculating your estimated monthly costs to have a quality Water Treatment program.
It is hard to recall the last time this question did not come up during conversations with a customer. “If I buy your equipment, how much is the all-in cost; everything from labor to the price of equipment, and everything in between?” Every job is different and filtering press dewatering solutions are highly engineered and customized to meet each requirement of the customer which makes this question a bit tricky to answer. But generally, we have come up with some basic rules of thumb that will help anyone understand what costs they can expect for each stage of the process to purchase and install a Dewatering Filter Press.
Hiring a Water Treater can seem overwhelming at times. We have put together 7 Tips for Choosing a Water Treatment Company a consumer should be aware of and utilize during this decision time.
Industrial filter press have been a known technology in dewatering processes for several decades. The Matec filter press is in a league of its own with their advancements in the technology. From having a fully automated press to high pressure pumps, the Matec filter press can handle anything that you may throw at it.
In this Water Facts, we will review and discuss some of the areas where a Filter Press vs. a Belt Press and what this means to you as an owner. Learn why Plate and Frame Presses are more advanced than the older Belt Press.
What really makes Matec equipment different and how will it speed up the process? This Water Facts details all the unique attributes of our Filter Press Operation that make it stand apart from the competition.
Find out the main differences between vertical and horizontal clarifiers. In this Water Facts, we will explore the two models and discuss in detail some of the advantages of each and highlight where they are most effective.
In this Water Facts, we will briefly outline the steps to the automated filtration process and how each sequence of events builds upon the next to result in efficient filtration and dewatering and 15% moisture cakes. Find out how a filter press operates through each step.
In this Water Facts, we cover various applications where the use of a Filter Press makes it cost effective and strategically feasible to treat waste water on property and avoid costly slurry ponds. Ultimately these solutions save our customers millions each year in handling and disposal costs. Discover which industries can benefit from a filter press and why it is valuable to you.
Did you know Deep Cone Water Clarifier is free of maintenance? Our Matec Deep Cone Clarifiers have no moving parts, rake systems, suction, or pumping mechanics. As a result, they are the most efficient clarifiers in the industry today!
What is a Filter Press and how do they work? Perhaps you don’t fully understand how the technology or filtration equipment works or how it could help your operation. In this Water Facts, we'll examine these details further.
Are you considering to remove your settling ponds? How to deal with settling ponds? Also, are you unsure of what to put in its place? Generally, settling ponds are headaches for industrial waste water management because of all the unnecessary waste of time and money spent maintaining their settling ponds.