#peracetic acid water treatment
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marketanalysisdata · 11 days ago
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Biocides Market Share and Specification forecast To 2030
The global biocides market was valued at approximately USD 9.29 billion in 2024 and is projected to grow at a compound annual growth rate (CAGR) of 4.2% from 2025 to 2030. This market growth is largely driven by demand from the consumer products sector, where biocides play an essential role in a wide range of goods. In this segment, biocides are incorporated into products like cleaning agents, cosmetics, disinfectants, sanitary wipes, laundry products, toothpaste, and various types of detergents. Beyond consumer products, biocides are also increasingly applied in other formulations, such as insecticides, preservatives, fungicides, antiseptics, and herbicides, reflecting their diverse utility across multiple industries.
The global biocides market comprises two primary types based on their mode of action: oxidizing and non-oxidizing biocides. Oxidizing biocides, which work by breaking down microorganisms through oxidation, are produced using chemicals such as sodium bromide, peracetic acid, and chlorine. In contrast, non-oxidizing biocides work through a different mechanism, often targeting specific cellular processes in microbes. These are produced with chemicals like 5-chloro-2-methyl-4-isothiazolin-3-one and 1,2-benzisothiazolin-3-one, among others, which are effective in preventing microbial growth in various applications.
Gather more insights about the market drivers, restrains and growth of the Biocides Market
Stricter regulatory measures and an emphasis on sustainable development have led to a steady decrease in chemical production in the European Union. This reduction, combined with the comparatively higher production costs in the EU and the U.S., has provided a competitive edge to the Asia Pacific region, particularly countries like China, Japan, South Korea, India, and Taiwan. These countries benefit from readily available raw materials and lower production costs, enhancing their position in the global biocides market.
In the food industry, the demand for biocides is notably high as they play a vital role in controlling microbial contamination in food and beverages. Biocides are also applied to disinfect food storage containers, surfaces, and piping systems used in food logistics. As major multinational companies work to expand their product portfolios, they are increasingly focusing on innovations that minimize the potential hazards associated with biocides. This trend is anticipated to broaden the scope of biocide use in the food sector in the coming years.
End Use Segmentation Insights:
Within the biocides market, the paints and coatings segment held a significant revenue share of 26.0% during the forecast period. Paints and coatings are highly susceptible to microbial contamination, as they are often exposed to contaminants from water and air during bulk handling and storage. The use of biocides in this segment serves multiple purposes, including preserving the dry film, preventing microbial growth, and ensuring the preservation of the product within containers. Additionally, biocides help to prevent fungal growth on paint after it has dried and the film has formed. These agents are applied during the production process of paints and coatings and also in treating wastewater generated during their production. By applying biocides, manufacturers can prevent product degradation and ensure longevity and quality.
Water treatment is another major application for biocides. In this area, biocides are essential to prevent antifouling, biofilm formation, and contamination caused by bacteria or algae in a variety of water systems. These systems include cooling towers, pools and spas, paper manufacturing facilities, municipal drinking water treatment plants, and industrial water treatment operations. Commonly used biocides in these water treatment applications include chemicals such as hypobromous acid, sodium bromide, silver, bromine, hydrogen peroxide, stabilized bromine, chlorine tablets, calcium hypochlorite, sodium hypochlorite, quaternary ammonium compounds (QACs), Bronopol, and isothiazolinones. These biocides play a crucial role in ensuring that water systems remain clean, uncontaminated, and free from biofouling, which helps maintain operational efficiency across various industries.
Order a free sample PDF of the Biocides Market Intelligence Study, published by Grand View Research.
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marketstudyreport · 11 days ago
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Biocides Market In-Depth Analysis of Industry Share, Growth Outlook 2030
The global biocides market was valued at approximately USD 9.29 billion in 2024 and is projected to grow at a compound annual growth rate (CAGR) of 4.2% from 2025 to 2030. This market growth is largely driven by demand from the consumer products sector, where biocides play an essential role in a wide range of goods. In this segment, biocides are incorporated into products like cleaning agents, cosmetics, disinfectants, sanitary wipes, laundry products, toothpaste, and various types of detergents. Beyond consumer products, biocides are also increasingly applied in other formulations, such as insecticides, preservatives, fungicides, antiseptics, and herbicides, reflecting their diverse utility across multiple industries.
The global biocides market comprises two primary types based on their mode of action: oxidizing and non-oxidizing biocides. Oxidizing biocides, which work by breaking down microorganisms through oxidation, are produced using chemicals such as sodium bromide, peracetic acid, and chlorine. In contrast, non-oxidizing biocides work through a different mechanism, often targeting specific cellular processes in microbes. These are produced with chemicals like 5-chloro-2-methyl-4-isothiazolin-3-one and 1,2-benzisothiazolin-3-one, among others, which are effective in preventing microbial growth in various applications.
Gather more insights about the market drivers, restrains and growth of the Biocides Market
Stricter regulatory measures and an emphasis on sustainable development have led to a steady decrease in chemical production in the European Union. This reduction, combined with the comparatively higher production costs in the EU and the U.S., has provided a competitive edge to the Asia Pacific region, particularly countries like China, Japan, South Korea, India, and Taiwan. These countries benefit from readily available raw materials and lower production costs, enhancing their position in the global biocides market.
In the food industry, the demand for biocides is notably high as they play a vital role in controlling microbial contamination in food and beverages. Biocides are also applied to disinfect food storage containers, surfaces, and piping systems used in food logistics. As major multinational companies work to expand their product portfolios, they are increasingly focusing on innovations that minimize the potential hazards associated with biocides. This trend is anticipated to broaden the scope of biocide use in the food sector in the coming years.
End Use Segmentation Insights:
Within the biocides market, the paints and coatings segment held a significant revenue share of 26.0% during the forecast period. Paints and coatings are highly susceptible to microbial contamination, as they are often exposed to contaminants from water and air during bulk handling and storage. The use of biocides in this segment serves multiple purposes, including preserving the dry film, preventing microbial growth, and ensuring the preservation of the product within containers. Additionally, biocides help to prevent fungal growth on paint after it has dried and the film has formed. These agents are applied during the production process of paints and coatings and also in treating wastewater generated during their production. By applying biocides, manufacturers can prevent product degradation and ensure longevity and quality.
Water treatment is another major application for biocides. In this area, biocides are essential to prevent antifouling, biofilm formation, and contamination caused by bacteria or algae in a variety of water systems. These systems include cooling towers, pools and spas, paper manufacturing facilities, municipal drinking water treatment plants, and industrial water treatment operations. Commonly used biocides in these water treatment applications include chemicals such as hypobromous acid, sodium bromide, silver, bromine, hydrogen peroxide, stabilized bromine, chlorine tablets, calcium hypochlorite, sodium hypochlorite, quaternary ammonium compounds (QACs), Bronopol, and isothiazolinones. These biocides play a crucial role in ensuring that water systems remain clean, uncontaminated, and free from biofouling, which helps maintain operational efficiency across various industries.
Order a free sample PDF of the Biocides Market Intelligence Study, published by Grand View Research.
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12-grids · 2 months ago
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500 Billion Liters and Counting: Why Pharma Needs Sustainable Water Purification
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Pharmaceutical companies use approximately 500 billion liters of water every year. While traditional water purification methods contribute to a substantial carbon footprint, sustainable water purification systems are redefining the game by minimizing energy use, reducing chemical waste, and focusing on renewable resources.
As the world becomes increasingly aware of environmental issues, the pharmaceutical industry faces growing pressure to adopt sustainable practices. Many companies are now integrating eco-friendly water purification solutions to actively work toward their sustainability goals.
Key Features of Sustainable Water Purification Systems
1. Energy Efficiency Sustainable water purification systems consume far less energy compared to traditional methods. Opting for systems powered by renewable energy, like solar panels, further reduces energy consumption and promotes eco-friendly practices.
2. Minimal Use of Chemicals These systems prioritize reducing harmful chemicals in water treatment. For example, they use ethylenediamine-N, N’-disuccinic acid (EDDS), a biodegradable agent that binds and removes heavy metals, unlike traditional agents that are less environmentally friendly. Another innovative approach is using peracetic acid (PAA), an organic compound that breaks down into harmless substances, providing an effective and green alternative to chlorine.
3. Reduced Waste Generation Technologies like Zero-Liquid Discharge (ZLD) systems ensure no waste is left behind by treating and reusing all water. ZLD can help cut water waste by up to 90%, offering a sustainable solution that benefits both the environment and the bottom line.
4. Use of Renewable Resources Switching to renewable energy sources like solar and wind power can significantly reduce a company’s carbon footprint. For instance, a solar installation can offset CO₂ emissions equivalent to the work of 1,600 trees over ten years. Wind-powered systems can also save up to 30% of energy, making them an ideal choice for sustainable water management.
Innovative Technologies in Sustainable Water Purification
1. Advanced Membrane Filtration Nanofiltration (NF) and Ultrafiltration (UF) can remove up to 99.9% of contaminants, including bacteria and viruses, while consuming significantly less energy than reverse osmosis. Forward Osmosis (FO) saves up to 30% more energy and achieves high water recovery rates, further reducing environmental impact.
2. Electrodeionization (EDI) EDI systems produce ultra-pure water without the need for harsh chemical treatments. This technology reduces chemical waste by up to 90% and meets the stringent water quality requirements of the pharmaceutical industry.
3. Ultraviolet (UV) Disinfection UV systems offer a non-chemical method to achieve up to a 99.99% disinfection rate. UV disinfection minimizes harmful by-products, making it an effective and environmentally friendly solution for water treatment.
4. Ozonation Ozone is a powerful oxidant that eliminates up to 99% of organic contaminants without leaving harmful residues. This method is ideal for reducing total organic carbon (TOC) levels by up to 70%.
5. Zero Liquid Discharge (ZLD) Systems ZLD technology recovers up to 95% of wastewater, significantly reducing the need for fresh water and cutting water consumption by up to 60% in the pharmaceutical sector.
The Path Forward: Overcoming Challenges
While sustainable water purification offers numerous benefits, there are challenges to adoption, including the initial costs, ongoing maintenance, and the need for specialized technical expertise. However, with tax incentives, grants, and subsidies available, the transition becomes more feasible.
At TSA, we provide cost-effective, sustainable water purification systems tailored to your needs. Our high-purity water treatment solutions use advanced technologies like electrodeionization and closed-loop recirculation, helping you meet the highest standards while safeguarding the environment.
Get in Touch
Ready to explore sustainable solutions? Contact TSA today to craft a water management plan that aligns with your environmental and business goals.
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coherentmarketinsights · 6 months ago
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Global Peracetic Acid Market: Trends, Growth Drivers, and Future Outlook
Peracetic Acid: A Versatile and Powerful Disinfectant Acid Used What is Peracetic Acid?
PAA, also known as peroxyacetic acid or PAA, is an organic compound with the formula CH3CO3H. It is a colorless liquid with a pungent odor similar to acetic acid (vinegar). PAA forms when hydrogen peroxide and acetic acid react together. The chemical formula sums this up nicely - it combines a peroxy (O-O) group from hydrogen peroxide with an acetic acid (CH3COOH) molecule. Uses of PAA in Disinfection
PAA has powerful antimicrobial properties which has led to its widespread use as a disinfectant, sanitizer and sterilant across many industries. Some key applications of PAA include: Food Processing Industry
PAA is commonly used to sanitize food processing equipment and surfaces in industries such as meat, poultry and seafood processing. It can effectively kill bacteria, viruses, molds and spores that may contaminate food. Its rapid degradation to harmless byproducts like oxygen, water and acetic acid means it leaves no toxic residues on processed foods. Beverage Industry
Breweries and other beverage manufacturers use PAA to sanitize bottling, canning and packaging lines. It disinfects equipment quickly and efficiently between product runs without requiring extensive rinsing. This helps minimize cross-contamination risks between different beverages being produced on the same lines. Agricultural Applications
PAA is approved by the EPA for use on fruits, vegetables, nuts and herbs to control fungi, yeasts and bacteria that may cause spoilage. Produce packing and storage facilities also use it to sanitize surfaces and fresh produce wash systems. Some farmers inject low concentrations into irrigation water to inhibit development of plant pathogens in soil and on crops. Healthcare Industry
In hospitals and medical settings, PAA is commonly used for cold sterilization or high-level disinfection of heat-sensitive medical equipment and devices. It effectively eliminates pathogens like C. difficile and HIV without heat or excess moisture. Endoscope reprocessors, dialysis machines and other medical tools rely on PAA to safely disinfect between patient uses. Water Treatment
Municipal water authorities and industrial plants employ PAA to purify water supplies and treat wastewater. It can destroy bacteria, viruses, parasites and other microbes more rapidly and efficiently than chlorine. PAA decomposes quickly so it presents fewer risks of harmful disinfection byproducts forming compared to chlorine-based treatments. Why is Peracetic Acid an Effective Disinfectant?
There are a few key reasons why PAA is such a powerful and versatile disinfectant. Its effectiveness comes down to its unique chemistry and properties. Broad Spectrum Activity
PAA has broad-spectrum antimicrobial activity, meaning it can eliminate an extremely wide range of microbes including bacteria, fungi, spores, and viruses. This is because its oxidative properties allow it to disrupt the cell membranes and cellular proteins of microorganisms indiscriminately. Rapidly Kills Vegetative Cells & Spores
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While many disinfectants struggle to inactivate resilient bacterial spores, PAA is highly sporicidal. It can kill both vegetative bacterial and fungal cells as well as their resilient spores quickly - often within minutes of exposure. This is partly due to its ability to penetrate thick spore coats.
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bizworldinsights · 9 months ago
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Peracetic Acid 
The global Peracetic Acid market is estimated to be valued at over USD 710 million in 2019, with a projected Compound Annual Growth Rate (CAGR) of 5.7% during the forecast period. This growth is primarily fueled by the expanding sales within the food and beverage industry, creating a favorable ecosystem for industry players. Peracetic acid, also known as acetyl hydroperoxide, is produced in a controlled environment through reactions between hydrogen peroxide and acetic acid, positioning itself as one of the most oxidizing agents, second only to ozone.
Known for its antimicrobial properties and as an effective preservative, peracetic acid finds significant application in the food and beverage sector, particularly in processed foods. Contributing factors to the rising demand include the increasing global population, higher per capita income, and evolving lifestyles. The surge in corporate lifestyles has led to a spike in packaged food sales, benefiting the entire allied ecosystem, including the peracetic acid market. The chemical is extensively used in the poultry and fishery industries, and beyond food applications, it serves as a disinfectant and finds applications in personal care products. However, it is essential to note that direct exposure to peracetic acid can lead to allergies and other potential health effects, and high concentrations are generally avoided.
Global Peracetic Acid Market Size and Forecast: By Product Type
The revenue segmentation by product type includes solution grade and distilled grade, with solution grade holding the highest share. Solution grades, with 12% to 15% peracetic acid content, are widely used on a large scale.
Global Peracetic Acid Market Size and Forecast: By End-User
The market is segmented by end-use into food & beverages, pulp & paper bleaching, water treatment, agriculture, medical, and others. The food & beverage segment accounted for a significant 44% market share in 2018, with the processed food industry surpassing USD 79 billion in 2018 and showing impressive growth, particularly in developing regions.
Global Peracetic Acid Market Size and Forecast: Regional Analysis
In 2018, Asia Pacific held 39% of the global market share, with continued significant growth anticipated during the forecast period. China leads the region, followed by India and Japan, positioning Asia Pacific for the fastest growth.
Western Europe follows closely behind Asia Pacific, with Germany, France, and the UK being key countries. Together, they accounted for 69% of the regional share in 2018. However, these countries are expected to experience a slight market share decline by 377 basis points.
Global Peracetic Acid Market Size and Forecast: Competition Landscape
The industry is highly consolidated, with leading players securing a major share of the market.
Key players in the Peracetic Acid market include:
Peroxychem
Diversey
Airedale Chemical Company
Evonik
Loeffler Chemical Corporation
Mitsubishi
Ecolab
Kemira
Enviro Tech Chemical Services
Thai Peroxide
Solvay
SEITZ
Hydrite Chemical
Industry Segmentation
By Type:
Solution
Filtered
By Application:
Food & Beverages
Healthcare
Agriculture
Paper and Pulp
Water Treatment
Others
The global Peracetic Acid market, with its substantial valuation and growth prospects, reflects the chemical's pivotal role in the food and beverage industry. As industry players compete in this dynamic landscape, sustained growth is expected across various regions.
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vaiswr · 10 months ago
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Peracetic Acid Market Business Scenario Analysis By Global Industry Trend, Share, Sales Revenue and Opportunity Assessment till 2032
The global Peracetic Acid (PAA) market size was USD 934.2 Million in 2022 and is expected to register a rapid revenue CAGR of 7.2% during the forecast period. Rising demand for PAA from the processed food industry and medical industry for disinfecting surgical devices and increasing adoption of advanced technologies in the water treatment industry, and PAA in critical end-use applications are key factors driving market revenue growth.
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pearlsmith25 · 11 months ago
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Global Resilience: Peracetic Acid Market's Response to Economic and Environmental Challenges
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Peracetic acid (PAA) is an organic compound widely used as a sterilant and disinfectant in various industries including food, healthcare, and water treatment. It provides effective antimicrobial activity against viruses, bacteria, yeasts, molds, and spores. PAA breaks down into acetic acid, oxygen, and water and does not leave any toxic residues. It is adopted as an eco-friendly alternative to chlorine-based disinfectants. Increasing concerns regarding waterborne diseases have augmented the demand for PAA from water treatment applications. The global peracetic acid market is estimated to be valued at US$ 872.06 mn in 2023 and is expected to exhibit a CAGR of 7.8% over the forecast period 2023 to 2030, as highlighted in a new report published by Coherent Market Insights. Market Opportunity: The growing water scarcity around the world has emphasized the need for improved water treatment processes. Peracetic acid effectively inactivates microorganisms in water and aids in disinfecting drinking water. It leaves no disinfection by-products and residue, unlike chlorine. Various governments and international organizations are undertaking initiatives and investments towards expanding access to clean water. This growing focus on water treatment infrastructure development presents significant opportunities for peracetic acid manufacturers. Advanced purification technologies using peracetic acid can help address critical issues of water contamination. This will further drive the demand for peracetic acid from the water treatment segment over the forecast period. Porter’s Analysis Threat of new entrants: The peracetic acid market requires large capital investments for R&D, manufacturing facilities and distribution channels. Therefore threat of new entrants is moderate. Bargaining power of buyers: The buyers have moderate bargaining power due to presence of multiple established manufacturers. Bargaining power of suppliers: Few manufacturers control global supply of key raw materials which gives them strong bargaining power over buyers. Threat of new substitutes: No major substitutes currently exist for peracetic acid. However hydrogen peroxide can partly substitute peracetic acid. Competitive rivalry: The market is mature with established players. Price competition is high due to availability of substitutes. SWOT Analysis Strength: Wide industrial uses of peracetic acid as sterilant and disinfectant. Stringent food safety regulations driving demand. Weakness: Highly unstable and corrosive in nature requiring safe handling and transportation. Fluctuating raw material prices. Opportunity: Growing end-use industries especially food and medical sectors in Asia Pacific region. Development of innovative application specific products. Threats: Stringent environmental regulations around the use of hazardous chemicals. Competition from substitutes like hydrogen peroxide. Key Takeaways The global peracetic acid market is expected to witness high growth over the forecast period of 2023 to 2030. The market size for 2024 is US$ 872.06 Mn.
Regional analysis: North America dominates currently due to stringent food safety regulations. Asia Pacific is growing fastest with increasing consumption in China, India.
Key players: Kemira Oyj, Solvay S.A., Promox S.p.A., Evonik Industries, Ecolab Inc are major players. They are focusing on capacity expansion to cater to growing demand.
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chemtexspecialityltd · 1 year ago
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Exploring Peracetic Acid as Disinfectant and Sanitizer in Several Industries | Chemtex Speciality Limited
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Peracetic Acid has grown in popularity over the last several years for its use as a disinfectant and sanitizer in many industries including healthcare, food processing, and water treatment.    
It is a simple chemical formulation in a mixture of hydrogen peroxide and acetic acid with excellent disinfection properties and is environment-friendly.  Broad Spectrum Disinfectant or Sterilant peracetic acid proclaims to be a sanitizer, disinfectant as well and microbial agent. Hospitals should consider a safe disinfectant for their regular cleaning and disinfection program. It is very necessary to combat these pathogens with proper disinfectant which would eradicate them as well as not produce any harmful diseases. In general, large contaminated areas must be disinfected efficiently and precisely to minimize infection rates and microbial counts.
What is Peracetic Acid?
Peracetic Acid, commonly referred to as PAA, is a potent oxidizing agent and disinfectant that has gained popularity due to its exceptional antimicrobial properties. It is a combination of hydrogen peroxide and acetic acid, making it highly effective against a wide spectrum of microorganisms, including bacteria, viruses, fungi, and spores.
Advantages:
Peracetic Acid works as a disinfectant by oxidizing a microorganism, causing it to deactivate.
Broad Spectrum Efficacy: It is highly effective against a wide range of microorganisms, including bacteria, viruses, fungi, and spores. This broad-spectrum efficacy ensures well disinfection and minimizes the risk of microbial contamination.
Multiple Uses: This formulation is versatile and adaptable.
Environmentally responsible: It does not contain harmful components, and breaks down into harmful residue, making it safe for the environment.
Powerful oxidizing and Instant action: - Works quickly and effectively to neutralize pathogens, ensuring minimal downtime and ensure safety.
Applications of PAA are vast and diverse:
Food and Beverage Industry: Widely used for sanitizing food processing equipment, and beverage bottling lines, and ensuring safety and quality.
Hospital Facilities: Peracetic Acid is considered a disinfectant for the disinfection program that is necessary to combat these pathogens as well as not produce any harmful diseases, Peracetic acid is used to disinfect medical equipment and to prevent biofilm formation in pulp industries.
Agriculture: It is used in poultry farms, dairy facilities, and crop protection for effective disinfection.
Water Treatment: It is used in wastewater treatment plants for pathogen removal and odor control. It can be applied during water purification as a disinfectant and for plumbing disinfection.
Brewing Industry: It is used to sanitize equipment and maintain the quality of their products.
Chemtex Speciality Limited offers a game changer in the world of hygiene and sanitation. Our solution is incorporated with no rinse, non-foaming formulation along with sanitizing ability and efficaciously suited for use in CIP systems for food processing equipment. It is also applicable for the removal of bacteria and fungi from vegetables, fruits.
Chemtex Offers Peracetic Acid under the brand name Alstasan Activ, It is certified by NDRI, KARNAL for use as a cold sterilant for killing pathogens related to the dairy industry.  It’s exceptional disinfection properties, versatility, and eco-friendly nature make it a preferred choice for a wide range of industries and applications. It is a highly effective disinfectant showing good efficacy against a broad spectrum of pathogens and finding extensive usage as a disinfectant in hospitals and critical areas. As a disinfectant, it brings about the oxidation of the outer cell membranes of microorganisms.
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severepeanutperfection · 1 year ago
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Peracetic Acid Market Expectations and Growth Trends Highlighted Until 2032
The Peracetic Acid Market is a thriving sector within the chemical industry, driven by its widespread application as a powerful disinfectant, sanitizer, and sterilant. Peracetic acid is a highly effective oxidizing agent, known for its broad-spectrum antimicrobial properties. It is widely used in various industries, including food and beverage processing, healthcare, water treatment, and agriculture. Peracetic acid offers a safe and environmentally friendly alternative to traditional disinfectants, as it decomposes into harmless by-products, making it a popular choice for industries seeking sustainable and efficient antimicrobial solutions.
One of the key drivers behind the growth of the Peracetic Acid Market is the increasing focus on food safety and hygiene in the food and beverage industry. As consumers become more conscious of foodborne illnesses and contamination risks, food manufacturers and processors are embracing peracetic acid as a reliable disinfectant for equipment, surfaces, and water used in the production process. Its ability to eliminate a wide range of microorganisms, including bacteria, viruses, and fungi, makes it an essential tool in maintaining food safety standards.
The healthcare sector is another significant contributor to the demand for peracetic acid. It is widely used for medical equipment sterilization, surface disinfection, and as a water treatment agent in healthcare facilities. Its quick action and ability to eliminate even the most resistant pathogens have made it a preferred choice for infection control and prevention in hospitals and healthcare settings.
Moreover, the growing awareness of environmental sustainability and the shift towards eco-friendly chemicals are propelling the adoption of peracetic acid. Unlike some traditional disinfectants, peracetic acid breaks down into harmless by-products, such as water, oxygen, and acetic acid, without leaving any harmful residues. This characteristic aligns with the growing preference for green and sustainable solutions, contributing to the market's expansion.
For More Info@ https://www.openpr.com/news/2727728/peracetic-acid-market-analysis-by-key-players-applications
In conclusion, the Peracetic Acid Market is witnessing steady growth due to its remarkable effectiveness as a disinfectant and sterilant across various industries. As global health and hygiene standards continue to be a priority, the demand for peracetic acid is expected to remain strong. Additionally, its eco-friendly nature and safety profile make it a favored choice among industries aiming to improve their environmental footprint and offer safe products and services. With ongoing research and development efforts to optimize its applications, the market for peracetic acid is likely to witness further advancements and increased adoption in the coming years.
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palvifze · 2 years ago
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Use of Hydrogen Peroxide as Bleaching agent in Paper and Pulp Industry
Hydrogen Peroxide:
Hydrogen peroxide (H2O2) is a chemical compound that is composed of two hydrogen atoms and two oxygen atoms. It is a pale blue liquid that is commonly used as a disinfectant and bleaching agent.
Hydrogen peroxide supplied by one of the most popular Hydrogen Peroxide suppliers in Kazakhstan - Palvi FZE is a powerful oxidizing agent and can be used to kill bacteria and other microorganisms on surfaces and in water. It is commonly used to disinfect wounds and as a mouth, rinse to treat mouth sores. It is also used to bleach hair and teeth, and to remove stains from fabrics and other surfaces.
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In addition to its use as a disinfectant and bleaching agent, hydrogen peroxide has several other applications, including its use in rocket propulsion, water treatment, and the production of other chemicals.
It is important to handle hydrogen peroxide with caution, as it can be toxic if ingested or inhaled in large amounts. It is also a strong oxidizing agent and can cause fires if it comes into contact with certain materials.
Applications of Hydrogen Peroxide:
Hydrogen peroxide has several applications, including:
●   Disinfectant:
Hydrogen peroxide is a powerful oxidizing agent and can be used to kill bacteria and other microorganisms on surfaces and in water. It is commonly used to disinfect wounds, mouth sores, and other areas of the body.
●   Bleaching agent:
Hydrogen peroxide is commonly used as a bleaching agent to remove stains from fabrics and other surfaces. You can also bleach your teeth as well as your hair.
●   Rocket propulsion:
Hydrogen peroxide is used as a rocket propellant because it can produce a high-velocity jet of steam when it decomposes.
●   Water treatment:
Hydrogen peroxide is used in water treatment to remove impurities and kill microorganisms. It is commonly used to purify drinking water and sewage.
●   Chemical production:
Hydrogen peroxide is used in the production of a variety of chemicals, including peracetic acid, sodium percarbonate, and sodium perborate.
●   Environmental remediation:
Hydrogen peroxide is used in environmental remediation to destroy harmful contaminants in soil and water.
●   Food processing:
Hydrogen peroxide is used in the food processing industry to remove bacteria from raw meat and to sterilize equipment.
●   Laboratory research:
Hydrogen peroxide is used in laboratory research to study the effects of oxidative stress on cells and tissues.
Why does Pulp and Paper industry used Hydrogen Peroxide?
Hydrogen peroxide distributed by an excellent Hydrogen Peroxide distributor in Kazakhstan is commonly used as a bleaching agent in the paper and pulp industry to whiten and brighten paper and other cellulose-based products. It is used in both chemical and mechanical pulping processes to remove lignin, the natural polymer that gives wood its brown colour.
In chemical pulping, hydrogen peroxide is used in combination with other chemicals, such as sodium hydroxide, to remove lignin from wood chips. The resulting pulp is then bleached with hydrogen peroxide to produce a bright white colour.
In mechanical pulping, hydrogen peroxide is used to bleach the pulp after it has been mechanically separated from the wood. This process, known as chemical mechanical pulping (CMP), produces pulp with bright white colour and improved strength properties.
Hydrogen peroxide is also used in the paper and pulp industry to bleach recycled paper and to remove contaminants, such as inks and dyes, from the pulp.
Overall, hydrogen peroxide is an important bleaching agent in the paper and pulp industry because of its ability to produce bright white colours and improve the strength and quality of the final product.
Precautions while using Hydrogen Peroxide:
Hydrogen peroxide is a powerful oxidizing agent and can be toxic if ingested or inhaled in large amounts. It can also cause fires if it comes into contact with certain materials. Are you looking for one of the most distinguished Hydrogen Peroxide exporters in Kazakhstan? Palvi FZE is the most trustworthy supplier that can take care of your chemical needs.
Here are some precautions to consider when using hydrogen peroxide:
●   Wear protective clothing:
When handling hydrogen peroxide, it is important to wear protective clothing, such as gloves and goggles, to prevent contact with the skin and eyes.
●   Store safely:
Hydrogen peroxide should be stored in a cool, dry place, away from heat and flames.
●   Use caution when handling:
Handle hydrogen peroxide with caution and avoid spilling it on yourself or others. If it does come into contact with the skin, wash the affected area thoroughly with water.
●   Avoid ingestion:
Do not swallow hydrogen peroxide or use it as a mouth rinse unless specifically directed to do so by a healthcare professional.
●   Keep away from flammable materials:
Hydrogen peroxide is a strong oxidizing agent and can cause fires if it comes into contact with certain materials, such as paper, oil, or grease.
●   Follow label instructions:
Always follow the label instructions when using hydrogen peroxide, and use it only for the purposes for which it is intended. Do not mix hydrogen peroxide with other chemicals unless specifically directed to do so.
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coldpenguintaco · 2 years ago
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Increasing Peracetic Acid Adoption will Surge the Market Growth Further| Evonik Industries, Kemira Oyj, Mitsubishi Gas Chemicals, Inc., Solvay S.A., PeroxyChem LLC, SEITZ GmbH, and Ecolab Inc., among others
Increasing Peracetic Acid Adoption will Surge the Market Growth Further| Evonik Industries, Kemira Oyj, Mitsubishi Gas Chemicals, Inc., Solvay S.A., PeroxyChem LLC, SEITZ GmbH, and Ecolab Inc., among others
North America Peracetic Acid The global peracetic acid market size is estimated to be USD 813 million in 2020 and is projected to reach USD 1,685 million by 2030, at a CAGR of 7.6%, between 2020 and 2030. Peracetic acid is widely used as disinfectant, sanitizer, bleach, sterilant, industrial reagent, oxidizer, and polymerization catalyst. It is a strong oxidizing agent and has stronger oxidation…
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millioninsights · 4 years ago
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Global Peracetic Acid Market is expected to grow considerably by 2025
Global Peracetic Acid Market is expected to grow considerably in the years to come owing to the increase in demand from food and beverage industry majorly. Peracetic acid, also known as Peroxyacetic acid (PAA) is a powerful oxidizing sanitizer. It reacts with several metals and other contact bases like aluminum, tin-plated iron, and stainless steel but galvanized iron, plain steel, copper, bronze, and brass, are prone to corrosion and reaction.
Growing applications of peracetic acid in several industries like food and beverage are the major drivers of peracetic acid market. Peracetic acid initially gained popularity from the United States (FDA) Food and Drug Administration as safe chemical and antimicrobial for food preservation. This introduced numerous other application of peracetic acid as microbial disinfectants and food preservatives in the recent years.
The acid is extensively used in food industry as preservative for poultry, fisheries and meat items. Additionally, increase in the demand of peracetic acid in several beverages processing is also influencing the growth of peracetic acid industry. However, the conventional applications of the acid in healthcare, personal care, and industrial cleaning disinfectants is growing, which ultimately drives peracetic acid market.
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https://www.millioninsights.com/industry-reports/peracetic-acid-market
Developments in manufacturing technology, innovative techniques for using peracetic acid in wide applications and growing acceptance of bio-based chemicals is expected to introduce new opportunities in peracetic market in the years to come. Conversely, direct exposure of peracetic acid can cause allergy, burns and other hazardous infection to eyes, skin and respiratory organs. If the acid is consumed in high concentrations, the effects could be more dangerous. Altogether, peracetic acid is restricting its approval in household applications, which hampers the growth of peracetic market.
Developments and advancements in chemical products has resulted the horticulture industries to turn more cautious for checking microbial safety, which has promoted the application of peracetic acid in agriculture. With the use of concentrated peracetic acid, the overall price can be brought down for application in pulp and paper segment. However, the health hazards related to incessant exposure to product can obstruct the growth of the market.
Peracetic acid industry is categorized on the basis of product, application, and geography. On the basis of product, the industry is divided into solution grade and distilled grade. Sulfuric acid is commonly used due to which it is predicted to lead peracetic acid market in the years to come.
On the basis of application, peracetic acid industry is split into sterilant, disinfectants, sanitizer and others. Disinfectants segment is expected to register significant growth in future since it is widely used in industries like food and beverage, water treatment, healthcare, pulp and paper. This is followed by sterilant and sanitizer industry.
Geographically, the industry is segmented as North America, Latin America, Asia Pacific, Europe, and Middle East & Africa. Europe is predicted to lead the market in the years to come owing to the growing demand. The key players in peracetic acid industry are Peroxychem, Evonik Industries, Kemira Chemicals, Seitz GMBH, Aditya Birla Chemicals, Ecolab, Solvay Chemicals, Mitsubishi Gas Chemicals, Enviro Tech Chemical Services, Christeyns, Promox S.P.A., and Helios Group among others.
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qingzinano · 4 years ago
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What Are The Applications of Hydrophobic PTFE Film Waterproof Breathable Film (Hydrophobic PTFE Breathable Film)?
 #hydrophobic #PTFE #film #waterproof #breathable #water #oil #resistance #air #permeability
 [Product Features]
Qingzi Nano hydrophobic film is made of PTFE. It is naturally hydrophobic. Ensuring the free passage of gases while blocking liquids (water or oil) is widely used in a variety of applications requiring water/oil resistance and air permeability.
 [Application Field] Filtration of organic gases, recovery of organic droplets from the industrial exhaust, removal of gases from biomass liquids, removal of volatile components from solutions, breathing of liquid storage containers, sensors, electronic accessories, control units, any components exposed to chemical reagents.
 Product Specification
* Can be customized according to customer needs.
 Introduction of The Application of Hydrophobic PTFE Breathable Film
For containers containing agricultural products, industrial chemicals, detergents, household chemicals, and active preparations of detergents, if waterproof and breathable solutions are not adopted, it may lead to:
1) Expansion or indentation of the container 2) Leakage of active preparations occurs 3) Leaking liquids On the one hand, it may lead to serious environmental pollution; On the other hand, the leaking liquid can also contaminate other products, causing serious losses and personal safety hazards to manufacturers.
 What are the main causes of container expansion, dented, or leakage? Shaking of a container during storage, transportation, or distribution; The difference of pressure between inside and outside the container caused by the change of altitude and temperature; Some chemicals are easily volatilized or decomposed to produce gas; Some chemicals react with the air and consume the air in the chemical barrels and containers. Where chemicals contain surfactants, they may also lose their permeability due to the wetting of porous products by surfactants.
 The left figure shows the PTFE microporous membrane modified without hydrophobic and oil-repellent effect. Low surface energy liquid material rolls and leaves visible marks, forming an impermeable "liquid film" on the surface of the permeable film. The right figure shows the PTFE microporous membrane after 7 grade enhanced oil-repellent modification. Low surface energy liquid substances can roll off smoothly, preventing the formation of a "water film" on the surface of the breathable film, so that it can maintain a good breathable effect.
 In addition to the hydrophobic and oil-repellent effect of PTFE microporous film, it also has the following functions: It effectively repels the liquid while maintaining ventilation, thus continuously balancing the pressure and preventing the container from expanding or collapsing. Even in contact with high viscosity or low surface tension liquid, it can maintain air permeability and prevent the leakage of active preparation. Therefore, several levels of oil-repellent (oil repellent) modification are required for the breathable film depending on the amount of surface energy of the solution. Generally, the film has undergone 7 levels of oil-repellent modification (oil repellent modification).
 Application Field: 1) Industrial chemicals and detergent liquids: hydrogen peroxide, peracetic acid, sodium hypochlorite, organic peroxides, etc.; 2) Consumer goods industry: fragrances, eye drops, health care products, carpet cleaners, laundry detergents, and pre-treatment cleaners, pipe plugging remover, mold remover, surface cleaners containing bleach and chlorine, automotive fluids and lubricants, fragrances, eye drops, contact lens care solutions, cosmetics, etc.; 3) Breathable packaging in agriculture and agricultural industry: inorganic fertilizer, organic fertilizer, fungicide, insecticide (imidacloprid, abamectin, etc.), herbicide (glyphosate, etc.).
 Contact Us:
Winnie Chan
International Trade Manager
Mob./Whatsapp: +86 18520902852
QQ: 1130008454
WeChat: QingziNano
Tel.:+86 757-89956076
Web. : https://www.qingzitech.net/
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sramfact · 2 years ago
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The report "Peracetic Acid Market by Application (Disinfectant, Sterilant, Sanitizer), End-use Industry (Healthcare, Food & Beverage, Water Treatment, Pulp & Paper), and Region (North America, Europe, APAC) - Global Forecasts to 2030" The global peracetic acid market size is projected to grow from USD 813 million in 2020 to USD 1,685 million by 2030, at a CAGR of 7.6%.
The drivers of the industry are the growing usage of peracetic acid in end-use industries and the demand for high-quality biocides products. The availability of different product grades and shift in consumer preference toward high-quality products are also important drivers of the market in recent times. Increase in the use of peracetic acid in industries, such as healthcare, food & beverage, water treatment, pulp & paper, and the emergence of new applications (laundry, breweries, wineries, and agriculture) are expected to change the market dynamics. The growing demand in India, China, Brazil, South-East Asia, and Mexico is expected to drive the market during the forecast period.
The sterilant segment is projected to grow at a higher rate than the other application segments. It is an emerging application of peracetic acid. The major factor responsible for the growth of sterilants is their increased demand in the food industry, life sciences, pharmaceutical, and other industrial products. The rising population is also projected to boost the demand from end-user industries, such as healthcare and life sciences.
The wastewater treatment application is witnessing a surge in demand and is projected to register a high CAGR in the next five years, globally. The growing and developing economies of Asia Pacific, such as China and India, with their infrastructural and technological development in the end-use industries, are expected to increase the demand for peracetic acid in the markets. The global water treatment market will continuously grow at a higher rate and is projected to drive the overall market of water treatment products. The superior peracetic acid product is expected to surpass the biocides industry growth due to its larger acceptance and rising demand from end-users.
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pearlsmith25 · 11 months ago
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Peracetic Acid Market Insights: Harnessing Innovation for Sustainable Solutions
Peracetic acid is an organic compound widely used as a strong and effective disinfectant and sterilant agent in various end-use industries like healthcare, food and beverage, and water treatment. It is used for disinfecting medical devices, food processing equipment, and cleaning floors and surfaces in hospitals with its rapid microbicidal activity against bacteria, viruses, yeasts, and molds. The global peracetic acid market is estimated to be valued at US$ 872.6 Mn in 2023 and is expected to exhibit a CAGR of 7.8% over the forecast period 2023 to 2030, as highlighted in a new report published by Coherent Market Insights.
Market Dynamics: Increasing demand from food and beverage disinfection applications is estimated to drive the growth of the peracetic acid market over the forecast period. Peracetic acid is widely used as a disinfectant and sterilant in the food and beverage industry for cleaning and disinfecting food processing equipment, facilities, and production areas. It helps reduce microbial contamination and prevent foodborne illnesses. Moreover, rapid microbicidal activity, non-toxic to humans and safe for equipment also contributes to its increasing usage in the F&B industry. Another factor expected to propel the market growth includes expanding healthcare sector which is employing peracetic acid on a large scale for sterilizing medical devices and hospital surfaces.
SWOT Analysis Strength: Peracetic acid is an effective sterilizer and disinfectant which kills a wide range of microorganisms in a short period of time. It leaves no toxic residues and breaks down to oxygen, acetic acid and water after use. It does not require activated wastewater treatment like chlorine-based disinfectants. This reduces the environmental impact of wastewater discharge. Peracetic acid decomposes into non-toxic byproducts and does not leave toxic residues that require removal from treated water. Weakness: Peracetic acid is highly reactive and corrosive. Precautions must be taken during transportation, storage and handling. Workers directly exposed to peracetic acid may experience skin or eye irritation. Peracetic acid is also more expensive than alternative sterilants and disinfectants like chlorine. Opportunity: Food safety concerns are increasing globally which is driving demand for more effective and natural disinfectants and sterilants. Peracetic acid is being widely used in food and beverage industry for disinfecting food processing equipment and facilities. Growing demand from various end use industries like healthcare, agriculture and wastewater treatment also presents significant growth opportunities. Threats: Presence of alternative disinfectants and sterilants like chlorine based compounds poses competition to peracetic acid market. Strict regulations regarding the transportation and use of peracetic acid are a challenge. Availability of substitute chemicals can also threaten the demand.
Key Takeaways
The global peracetic acid market is expected to witness high growth over the forecast period of 2023-2030. Recent innovations focused on developing safer and more effective formulations are driving the growth. The market is estimated to reach a value of US$ 872.6 Mn in 2023 and expected to surpass US$ 1 billion by 2030, expanding at a CAGR of 7.8%.
Regional analysis: North America dominates the global peracetic acid market currently, accounting for over 35% of the total demand. Stringent food safety and wastewater treatment regulations in the region are propelling the market. Asia Pacific is expected to be the fastest growing market going forward due to rising consumption in industries such as healthcare, food processing, and water treatment. Countries like China, India are major producers and consumers of peracetic acid in the region.
Key players: Key players operating in the peracetic acid market are Kemira Oyj, Solvay S.A., Promox S.p.A., Evonik Industries, Ecolab Inc., Thai Peroxide Limited, Mitsubishi Gas Chemical Company, Inc., PeroxyChem LLC and Diversey Inc. Innovation in production technologies and development of new application specific formulations are the focus of major companies to gain competitive advantage.
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