Marché du traitement des eaux industrielles aux États-Unis – Tendances et prévisions du secteur jusqu’en 2031

Analyse et perspectives du marché du traitement des eaux industrielles aux États-Unis

Le marché américain du traitement des eaux industrielles devrait connaître une croissance du marché au cours de la période de prévision de 2024 à 2031. Data Bridge Market Research analyse que le marché croît à un TCAC de 4,3 % au cours de la période de prévision de 2023 à 2030 et devrait atteindre 30 656,00 millions USD d'ici 2031. La demande croissante d'eau propre et la sensibilisation croissante à l'importance du traitement de l'eau sont quelques-uns des facteurs essentiels qui devraient propulser la croissance du marché.

Le traitement des eaux industrielles est un processus essentiel qui purifie et nettoie l'eau provenant des rivières, des lacs, des puits et autres, en éliminant les impuretés telles que les sels dissous, les minéraux, les micro-organismes et les contaminants. Ce traitement garantit que l'eau répond aux normes de qualité requises pour divers processus industriels. Il comprend plusieurs étapes : prétraitement, traitement primaire, secondaire et avancé, chacune traitant des impuretés spécifiques. Les objectifs du traitement des eaux industrielles comprennent l'élimination des contaminants, le respect des exigences réglementaires, l'amélioration de l'efficacité, la promotion de la durabilité et la réduction des coûts

Le rapport sur le marché du traitement des eaux industrielles fournit des détails sur la part de marché, les nouveaux développements et l'analyse du pipeline de produits, l'impact des acteurs du marché national et local, analyse les opportunités en termes de poches de revenus émergentes, de changements dans la réglementation du marché, d'approbations de produits, de décisions stratégiques, de lancements de produits, d'expansions géographiques et d'innovations technologiques sur le marché. Pour comprendre l'analyse et le scénario du marché, contactez-nous pour un briefing d'analyste, notre équipe vous aidera à créer une solution d'impact sur les revenus pour atteindre votre objectif souhaité.

Définition du marché

Le traitement des eaux usées est le processus industriel de conversion des eaux usées en eau douce pour la rendre utilisable dans les processus industriels. Dans le traitement des eaux usées, le produit chimique est nécessaire pour éliminer les contaminants microbiens tels que les protozoaires, les virus, les bactéries indésirables et autres particules solides en suspension de l'eau. 

Dynamique du marché du traitement des eaux industrielles aux États-Unis

Cette section traite de la compréhension des moteurs, des opportunités, des défis et des contraintes du marché. Tout cela est discuté en détail ci-dessous :

Conducteurs

• Demande croissante de services de traitement des eaux usées de la part du secteur de l'énergie

Power industries are where industrial water is needed the most, as these industries do not need fresh water. However, as per the requirements, untreated raw wastewater cannot be applied for processes in the energy industries. The water consists of various organic and inorganic components within it. For this reason, the water should be adequately treated to be usable for sectors. This can be a huge driving factor for the industrial water treatment market in the U.S. Not only is the need for wastewater increasing, but the number of power industries is also rising, enabling higher demand for water treatment services in the upcoming years.

Wastewater treatment is applied in industries for various reasons. Along with these drivers, reusing water treatment is also one of the most important sustainable goals. The power industry is reusing wastewater to produce energy. Other than that, most of the energy-producing industry has a huge area. The whole area must be ready to fight any emergency fire situation. Therefore, there is also a need for treated wastewater that is contaminant-free and not potable.

• Growing Awareness Regarding Waterborne Diseases

The pandemic of COVID-19 made the public and government highly aware about health in developed countries including U.S. and people are well aware of airborne and waterborne diseases. Due to this, several health campaigns were held. People in U.S. have been taught about the effects and prevention of waterborne diseases. This growing awareness is one of the biggest drivers for U.S. industrial wastewater treatment.

People are aware of the untreated wastewater produced by industries. Several harmful microorganisms and chemicals can contaminate the water, which can be hazardous to the environment. Many stringent government regulations are also being released to prevent the growth and prevalence of water-borne diseases. Furthermore, various surveillance programs have been initiated for Industrial waste water. Because of the reasons above, various industries will invest in and modify their wastewater treatment facilities and technologies.

Opportunity

• Advancement and Adoption of Greener Sources for Water Treatment in Industries        

Water contamination is growing as a result of industry and urbanization. In addition, the sanitation problem is growing daily in most developing countries. Water use has increased in the various product manufacturing industries, leading to waste water formation. The waste water includes toxic chemicals and sludge, which is supposed to be separated through water treatment. The industries use various chemicals for the treatment of the waste water which is generated during manufacturing. There is increasing popularity of green or Eco-friendly technical methods for treating industrial water such as using the microalgae and its component for waste water treatment. Waste water treatment using microalgae has several positive applications over conventional methods as it is useful in wastewater treatment. The green technical methods are very cost-effective and more efficient for treating the waste water produced by industries in the country.

Manufacturers have the opportunity to produce microalgae solutions for the treatment of wastewater with the green technical method. As the method is cost-effective will have more demand by the industries for the waste water treatment, which will help the manufacturer earn more revenue in coming years.

Restraints/Challenges

• Harmful Effects of Water Treatment Chemicals

Mass consumption and disposal into various industries have increased the volume of industrial and domestic water. This has created the requirement for effective advanced wastewater treatment as wastewater contains a variety of constituents such as particles, organic materials, and emulsions depending on the chemicals used in various industries. However, few types of the chemicals are used during the wastewater treatments, forming different kinds of by-products by reacting between chemicals and pollutants. These by-products can cause chronic exposure, such as drinking water ingestion, inhalation, and dermal contact, along with cancer and non-cancer risks to human health.

Generally, biocides are used to treat waste water in several industries, killing living organisms such as bacteria, algae, insects, and rodents. These biocides products are highly toxic, carcinogen, endocrine disrupting properties and may adversely affect human health and the environment. Along with properties that kill non-pathogens, biocides are dangerous for humans. The use of biocides in the industry for wastewater treatment affects the workers' health in the factory as biocides cause effects on the eyes, skin, respiratory system, nervous system, and other organs, which can also result in building tumors. The reaction may lead to a person's chronic disease or even death.

• High-Quality Chemicals are Required for The Separation of Wastes from Water

Water is involved in numerous stages of manufacturing various products in different industries. During these subsequent stages and usages, the water gets polluted with hazardous chemicals and substances, due to which treatment of the water becomes difficult and resulting in the discharge of the toxic water in the water bodies such as sea by the industries and affect the sea life and different water ecologies.

Paint industries use chemicals for manufacturing products. In this process, the generation of toxic chemicals takes place. These toxic chemicals are later released into the water bodies without proper treatment, which may lead to the loss of aquatic life. The chemicals which are used in the manufacturing of the paints are very difficult to separate. These difficulties lead to the high cost of Industrial waste water treatment. In the automotive sector, several metals and chemicals are used to manufacture cars and machines, generating hazardous liquid waste in the factories. Water separation from these liquids needs high-quality chemicals to be treated, which can exceed the manufacturer's budget.

Recent Development

• In May 2022, according to the article published by National Science Foundation (NSF), Rice University engineers developed an electrocatalyst of ruthenium atoms atop a mesh of copper nanowires to recover ammonia from wastewater, with funding from the National Science Foundation. The high-performance electrocatalyst can extract ammonia, which is often used as an industrial fertilizer, from low quantities of nitrates in industrial effluent and polluted groundwater with near-perfect efficiency.
• In October 2023, Solenis finalized the acquisition of CedarChem. The purchase is consistent with Solenis' direct go-to-market strategy of improving chemical and wastewater treatment products and service offerings for clients.

U.S. Industrial Water Treatment Market Scope and Market Size

U.S. industrial water treatment market is categorized into category. The growth among segments helps you analyze niche pockets of growth and strategies to approach the market and determine your core application areas and the difference in your target markets.

Category

• Equipment
• Chemicals
• Water Treatment Services

On the basis of category, the market is segmented into equipment, chemicals and water treatment services.

Competitive Landscape and U.S. Industrial Water Treatment Market Share Analysis

Le paysage concurrentiel du marché américain du traitement des eaux industrielles fournit des détails par concurrent. Les détails inclus sont la présentation de l'entreprise, les finances de l'entreprise, les revenus générés, le potentiel du marché, les investissements dans la recherche et le développement, les nouvelles initiatives du marché, la présence dans le pays, les sites et installations de production, les forces et les faiblesses de l'entreprise, le lancement de produits, les pipelines d'essais cliniques, l'analyse de la marque, les approbations de produits, les brevets, la largeur et l'ampleur du produit, la domination des applications, la courbe de survie technologique. Les points de données ci-dessus fournis ne concernent que l'orientation de l'entreprise par rapport au marché américain du traitement des eaux industrielles.

Certains des principaux acteurs couverts par le rapport sont Ecolab, Kemira, Kurita Water Industries Ltd, SUEZ SA, Solenis, SNF, Hydrite Chemical, Aries Chemical, Inc., WATERTECH USA, Buckman, Dorf Ketal Chemicals (I) Pvt. Ltd., MCC CHEMICALS, Xylem, 3M, KRONOS INTERNATIONAL, Inc. et entre autres.

Les analystes DBMR comprennent les atouts concurrentiels et fournissent une analyse concurrentielle pour chaque concurrent séparément.

SKU-70300