Water Treatment Biocides Market By Type (Oxidized, Non-Oxidized), Application (Municipal Water Treatment, Oil & Gas, Power Plants, Mining, Pulp and Paper, Swimming Pool), & Region for 2024-2031

Water Treatment Biocides Market Valuation – 2024-2031

Industries such as oil and gas, power plants, and pulp and paper rely largely on effective water treatment systems to stay in operation. Biocides serve an important role in reducing biofouling and corrosion in industrial water systems, maintaining equipment efficiency and longevity. As industrial activity increases, so does the demand for biocides in water treatment procedures, which drives market expansion. Thus, the focus on industrial water treatment is surging the growth of water treatment biocides market surpassing USD 4.46 Billion in 2024 to reach valuation of USD 7.28 Billion by 2031.

Deteriorating water infrastructure, including aged pipes and treatment facilities, fosters microbial growth and contamination. Biocides have emerged as critical assets for preserving water quality and managing the dangers associated with aged infrastructure. As governments and water utilities face the issues posed by aging systems, the need for biocides to maintain water quality remains strong. Thus, the aging water infrastructure is enabling the market to grow at a CAGR of 6.30% from 2024 to 2031.

Water Treatment Biocides MarketDefinition/ Overview

Water treatment biocides are special chemicals added to water to control the growth of unwanted organisms. The water treatment biocides sector includes the manufacture, distribution, and sale of chemical compounds or formulations intended to control or eliminate hazardous bacteria in water systems. Biocides, which are chemicals used to control bacteria, viruses, algae, fungi, and other organisms, are essential components of many water treatment systems in industrial, commercial, and residential settings. These operations involve ensuring the quality and safety of water supplies in cooling towers, boilers, pools, spas, and wastewater treatment plants.

Biocides help to prevent biofilm formation, remove pathogens, manage microbial fouling, and avoid scaling and corrosion in water systems. They are categorized into several categories based on their chemical composition and mode of action, including oxidizing biocides, non-oxidizing biocides, and others. The water treatment biocides market is made up of the manufacturing, supply chain, and use of these biocidal agents by various businesses and water treatment service providers.

How the Rapid Urbanization and Growing Population Globally is Surging the Growth of Water Treatment Biocides Market?

Rapid urbanization and a growing worldwide population highlight the need for modern water treatment systems to satisfy rising water demand levels. Biocides are especially important in densely populated areas for maintaining water quality and reducing the danger of waterborne illness transmission. Water is essential to the operations of numerous industries, including pulp and paper, oil and gas, chemical manufacture, food and beverage production, and electricity generation. These industries rely on water treatment biocides to maintain operating efficiency while also combating equipment fouling and microbiological development.

The growing emphasis on waterborne ailments such as Legionnaires’ disease, cholera, and typhoid highlights the relevance of biocides in avoiding disease transmission by regulating microbial populations in water systems, hence raising demand for water treatment biocides. Globally, water contamination and pollution pose serious environmental risks. Biocide use in water treatment is critical for decreasing environmental harm since it inhibits the growth of harmful algae, manages invasive species, and prevents infections from spreading into water bodies.

However, in addition to their benefits, there are growing worries about biocides’ possible environmental consequences. In order to reduce environmental pollution, regulatory bodies are tightening laws and regulations governing the use and disposal of biocides. Compliance with these rules is difficult for both biocide manufacturers and consumers due to the potency of these chemicals and the hazards connected with their improper handling. Safety protocols and adherence to occupational health requirements are critical for companies working in the water treatment biocides sector, but at a higher cost and complexity.

As environmental awareness grows, alternative water treatment technologies that rely less on chemical biocides are gaining traction. Biocides in water treatment systems. Current research and development activities are aimed at improving the efficacy, safety, and sustainability of biocides. Biocide formulation innovations, including as synergistic combinations, controlled release systems, and microencapsulation, seek to increase effectiveness, reduce dosage frequency, and limit environmental impact. Rapid urbanization, industrialization, and population expansion are driving demand for water treatment products, presenting biocide providers and manufacturers with tremendous growth prospects, particularly in emerging economies. Establishing a strong presence in these regions and meeting their specialized water treatment demands are critical tactics for entering this growing industry.

How the Stringent Regulation on Biocide Usage and Complicated Regulatory Landscape is Hampering the Growth of Water Treatment Biocide Market?

Stringent regulations imposed on the use of biocide is limiting the growth of water treatment biocide market. In order to preserve water purity, regulatory requirements place restrictions on biocide kinds, application methods, and residual levels in treated water. Compliance with these requirements can be difficult for both manufacturers and consumers, potentially limiting the market for specific biocide products. Furthermore, managing the complicated regulatory landscape may necessitate considerable investments in R&D, limiting market growth. Biocides, if not adequately controlled, endanger aquatic ecosystems, raising public and regulatory issues. The quest for more sustainable and environmentally friendly alternatives may result in lower demand for traditional biocides, reducing market size and driving manufacturers to innovate and adapt to meet changing environmental standards.

Excessive or incorrect use of biocides can promote microbial resistance, making these products less effective over time. This involves the development of alternative solutions, which may lessen dependency on traditional biocides, hence influencing market demand and profitability for certain goods.  The high cost of biocides and treatment systems The initial expense of procuring efficient biocides and the accompanying equipment for their use might be prohibitively expensive, especially for users in underdeveloped countries or companies with limited funds. This financial barrier may impede market penetration and adoption of biocide-based water treatment technologies, hence delaying overall market growth.

Despite advances in biocide safety and efficacy, public education campaigns on their benefits and correct usage are frequently ineffective. This lack of information can lead to misconceptions and reluctance to use biocides, reducing market demand and preventing widespread adoption of these products.

The constant changes and revisions to regulatory requirements for biocide usage create uncertainty for manufacturers and consumers, making long-term planning and investment difficult. This regulatory uncertainty can stifle market growth and innovation, as businesses may be hesitant to develop new goods or expand into new areas due to compliance concerns.

Unequal access to clean water, particularly in disadvantaged or distant locations, fuels demand for effective water treatment solutions. However, guaranteeing fair access to biocide-based water treatment technologies may pose logistical and economical obstacles, potentially limiting market expansion in some areas. Emerging disinfection methods, such as UV light and ozone treatment, offer competitive alternatives to existing biocides. While these alternatives may provide benefits in terms of efficacy and environmental impact, they also threaten biocide makers’ market position, forcing innovation and adaptation to remain competitive.

Category-Wise Acumens

How the Rising Use of Non-Oxidizing Biocides Across Industries is Escalating the Growth of Non-Oxidized Segment in the Water Treatment Biocide Market?

Non-oxidized segment is showing significant growth in the water treatment biocide market owing to the rising use of non-oxidizing biocides in a variety of industries strengthens their market position. Oil and gas, power plants, and pulp and paper industries rely significantly on water treatment technologies to preserve operating efficiency and reduce the danger of microbiological contamination. Non-oxidizing biocides provide targeted solutions to various industries’ specific issues, resulting in widespread acceptance and contributing to the overall growth of the water treatment biocides market

Non-oxidizing biocides are compounds that use methods other than oxidation to inhibit microbial growth. These strategies include interrupting reproduction and cell metabolism, inducing cell wall lysis, and limiting microbial respiration. Non-oxidizing biocides are typically added to water systems for extended periods of time, ranging from hours to days, in order to efficiently eradicate algae, bacteria, and fungi.

In the landscape of water treatment biocides, the non-oxidizing biocides segment emerges as the leading force in terms of market value, with this trend expected to continue during the projection period. This segment’s importance is due to a variety of factors. For starters, non-oxidizing biocides are typically more expensive than their oxidizing equivalents. This premium pricing reflects the advanced processes and enhanced efficacy associated with non-oxidizing biocides, making them the preferable choice for a variety of applications.

As companies prioritize water quality and operational integrity, demand for non-oxidizing biocides is projected to stay strong. Their capacity to provide excellent microbial control while meeting severe regulatory requirements makes them critical components of modern water treatment strategies. Furthermore, continued R&D initiatives targeting

How the Environmental Sustainability and Operational Integrity of Oil and Gas Industry is Accelerating the Growth of Oil and Gas Segment in the Water Treatment Biocide Market?

The oil and gas industry emerges as the dominant segment in the water treatment biocides market, owing to the water treatment biocides play in guaranteeing the operational integrity and environmental sustainability of oil and gas facilities. In the oil and gas application category, there is a growing demand for water treatment biocides, particularly glutaraldehyde and tetrakis hydroxymethyl-phosphonium sulfate. These biocides are critical for preventing microbial contamination and maintaining water quality during all stages of oil and gas exploration, production, and transportation.

The widespread use of biocides in various industry applications is a significant factor contributing to the oil and gas segment’s supremacy. From drilling and completion fluids to pipeline pressurization and storage tanks, biocides are critical in avoiding microbial growth and maintaining equipment integrity. Key producers in this category, including DuPont, Solvay, Buckman, and Kemira Oyj, among others, offer a wide range of biocide solutions targeted to the unique needs of oil and gas operations. These companies use modern technologies and creative formulations to handle the industry’s increasing issues, thereby strengthening their market position.

The oil and gas industry’s rising emphasis on operational efficiency, cost reduction, and environmental stewardship fuels ongoing research and investment in water treatment biocides. As the industry navigates complicated regulatory frameworks and strives for sustainable practices, the demand for effective water treatment solutions remains strong, cementing the oil and gas segment’s position as a major player in the worldwide water treatment biocides market.

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Country/Region-wise Acumens

How the Presence of Major Manufacturers in the Region and Aging Infrastructure in the Region are Surging the Growth of North America Water Treatment Biocide Market?

North America is substantially dominating the water treatment biocides market and is expected to continue its dominance over the forecast period, owing to the region benefits from the presence of major manufacturers like DuPont, Ecolab Inc., Solenis, and Albemarle Corporation, whose contributions have considerably aided market expansion.

The aging infrastructure of current water and wastewater treatment units in the United States is one key factor contributing to North America’s dominance in the water treatment biocides industry. The United States Environmental Protection Agency (USEPA) has prioritized the improvement of water and sewage services, notably municipal wastewater treatment, emphasizing the importance of sophisticated water treatment systems. This focus, together with the recovery of the building industry, is projected to increase demand for water treatment biocides in the region.

Furthermore, North America’s strong safety requirements, which are implemented by several developed countries in the region, require compliance with demanding criteria for citizen safety. This regulatory framework generates a favorable market landscape for water treatment biocides, assuring adherence to high-quality and safety requirements in industries such as food and beverage, water purification, and painting and coating, all of which are major biocide consumers. Furthermore, growing oil and gas production in North America is a key driver of market expansion. The region’s strong state and national municipal rules add to the advantageous market conditions by developing a regulatory framework that encourages the use of water treatment biocides.

How the Power, Oil and Gas Industries and Increasing Population in the Region are Expected to Drive the Growth of Asia Pacific Water Treatment Biocide Market During the Forecast Period?

Asia Pacific is expected to the fastest growing region during the forecast period owing to the power, oil and gas, and pulp and paper industries in the region are highly contributing to the Asia Pacific water treatment biocide market. Efficient water treatment is critical for these industries, and biocides play an important role in maintaining water quality and operational efficiency. Developed economies (Japan, South Korea, and Australia) have created water treatment facilities but still rely on biocides to preserve water quality and regulatory compliance. In addition, there is a strong emphasis on biocide technology innovation to improve water treatment procedures.

Asia Pacific is a developing market with significant expansion and modernization. While there is a growing demand for water treatment technologies, factors such as inadequate infrastructure and budget constraints may stymie market expansion. Governments throughout Asia Pacific are establishing stronger laws to maintain water quality standards, necessitating the employment of effective biocides to ensure compliance. This regulatory environment increases demand for biocides in a variety of industries and applications.

Increasing water scarcity, increasing population and fast urbanization in Asia Pacific put a strain on freshwater supplies, exacerbating water scarcity concerns. Biocides serve an important role in maintaining the quality of this restricted resource, which has led to their increased use in water treatment operations. Many Asia Pacific countries are dealing with declining water treatment facilities, emphasizing the importance of using biocide to limit microbial growth and maintain water quality requirements in the face of aging infrastructure.

As a major player in the Asia Pacific market, China’s massive population, rapid industrialization, and emphasis on improving water infrastructure all drive high demand for biocides. Stringent restrictions and outdated water treatment facilities help to drive up demand for biocides in China. India’s expanding population and urbanization increase the demand for clean water and wastewater treatment technologies. Government measures to improve water cleanliness also drive market expansion, highlighting Asia Pacific’s enormous growth potential in the water treatment biocide industry.

Competitive Landscape

The competitive landscape for water treatment biocides is dynamic. Companies that can innovate, demonstrate environmental responsibility, and provide value-added services are likely to succeed in this growing market. The water treatment biocide market is moderately concentrated with a mix of established global players and regional participants.

The organizations are focusing on innovating their product line to serve the vast population in diverse regions. Some of the prominent players operating in the water treatment biocides market include

• Troy Corp
• Chemtreat, Inc.
• Neogen Corp
• Finoric LLC
• Shanghai Zhongxin Yuxiang Chemicals Co. Ltd
• Iro Group Inc.
• Wuxi Honor Shine Chemical Co. Ltd
• Albemarle Corporation
• Lubrizol
• BASF SE

Water Treatment Biocides Latest Developments

• In August 2022, Nouryon announced to receive a US patent for its unique LumaTreat-tagged polymers used in improved water treatment. To support Nouryon’s commitment to providing ground-breaking and vital solutions for a sustainable future, the use of LumaTreat®-tagged polymers permitted the measurement of deposit-control compounds found in water treatment systems.
• In May 2019, Ecolab Inc. released LegionGuard LG25, a chlorine dioxide product to decrease the waterborne disease Legionella pneumophila in Drinking water systems.
• In January 2019, Solenis (US) and BASF SE announced the merger with paper and water chemical businesses to provide cost-effective solutions to customers in pulp and paper, oil and gas, mining, biorefining, power, municipal, and other industrial areas.

Report Scope

Water Treatment Biocides Market, By Category

Type

• Oxidized
• Non-Oxidized

Application

• Municipal Water Treatment
• Oil & Gas
• Power Plants
• Mining
• Pulp and Paper
• Swimming Pool

Region

• North America
• Europe
• Asia-Pacific
• South America
• Middle East & Africa

Research Methodology of Market Research

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Reasons to Purchase this Report

• Qualitative and quantitative analysis of the market based on segmentation involving both economic as well as non-economic factors• Provisio