Us Industrial Water Treatment Market
市场规模(十亿美元)
CAGR :
% 
 Forecast Period |
2024 –2031 |
 Market Size (Base Year) |
|
 Market Size (Forecast Year) |
USD 30,656.00 |
 CAGR |
% |
| Major Markets Players |
美国工业水处理市场,按类别(设备、化学品和水处理服务) - 行业趋势和预测到 2031 年。
美国工业水处理市场分析与洞察
美国工业水处理市场预计将在 2024 年至 2031 年的预测期内实现市场增长。Data Bridge Market Research 分析,在 2023 年至 2030 年的预测期内,该市场的复合年增长率为 4.3%,预计到 2031 年将达到 306.56 亿美元。对清洁水的不断增长的需求和对水处理重要性的认识的不断提高是推动市场增长的一些重要因素。
工业水处理是一项重要的过程,它净化和清洁来自河流、湖泊、水井等的水,去除溶解盐、矿物质、微生物和污染物等杂质。这种处理可确保水满足各种工业过程所需的质量标准。它涉及几个阶段:预处理、初级、二级和高级处理,每个阶段都针对特定的杂质。工业水处理的目标包括消除污染物、满足监管要求、提高效率、促进可持续性和降低成本
工业水处理市场报告提供了市场份额、新发展和产品线分析、国内和本地市场参与者的影响的详细信息,分析了新兴收入领域、市场法规变化、产品审批、战略决策、产品发布、地域扩张和市场技术创新方面的机会。要了解分析和市场情况,请联系我们获取分析师简报,我们的团队将帮助您创建收入影响解决方案,以实现您的预期目标。
|
报告指标 |
细节 |
|
预测期 |
2024 至 2031 年 |
|
基准年 |
2023 |
|
历史岁月 |
2022 (可定制为 2016-2021) |
|
定量单位 |
收入(百万美元)和销量(千吨) |
|
涵盖的领域 |
类别(设备、化学品和水处理服务) |
|
覆盖国家 |
我们 |
|
涵盖的市场参与者 |
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. 等 |
市场定义
废水处理是将废水转化为软水以用于工业过程的工业过程。在废水处理中,需要使用化学品去除水中的微生物污染物,例如原生动物、病毒、有害细菌和其他悬浮固体颗粒。
美国工业水处理市场动态
本节旨在了解市场驱动因素、机遇、挑战和限制因素。下文将详细讨论所有这些内容:
驱动程序
- 电力行业对废水处理服务的需求不断增加
电力行业是最需要工业用水的行业,因为这些行业不需要淡水。然而,根据要求,未经处理的原废水不能用于能源工业的工艺。水由各种有机和无机成分组成。因此,水应该经过充分处理才能供各行业使用。这可能是美国工业水处理市场的一个巨大驱动因素。不仅对废水的需求在增加,而且电力行业的数量也在增加,这使得未来几年对水处理服务的需求更高。
废水处理应用于工业领域的原因多种多样。除了这些驱动因素之外,重复使用水处理也是最重要的可持续目标之一。电力行业正在重复使用废水来生产能源。除此之外,大多数能源生产行业都占地广阔。整个地区必须做好应对任何紧急火灾情况的准备。因此,还需要经过处理的无污染且不可饮用的废水。
- 对水传播疾病的认识不断提高
COVID-19 疫情使包括美国在内的发达国家的公众和政府对健康问题有了高度认识,人们非常了解空气传播和水传播的疾病。因此,举办了多场健康运动。美国人民已经了解了水传播疾病的影响和预防。这种日益增强的认识是美国工业废水处理的最大驱动力之一。
人们知道工业产生的未经处理的废水。一些有害微生物和化学物质会污染水,对环境造成危害。政府还出台了许多严格的法规,以防止水传播疾病的增长和流行。此外,还启动了针对工业废水的各种监测计划。由于上述原因,各行业将投资和改造其废水处理设施和技术。
机会
- 工业用水绿色处理技术的进步与应用
由于工业和城市化,水污染日益严重。此外,大多数发展中国家的卫生问题也日益严重。各种产品制造行业的用水量增加,导致废水的形成。废水中含有有毒化学品和污泥,这些污泥应该通过水处理分离出来。工业界使用各种化学品来处理制造过程中产生的废水。绿色或环保的工业用水处理技术方法越来越受欢迎,例如使用微藻及其成分进行废水处理。与传统方法相比,使用微藻进行废水处理具有多种积极的应用,因为它可用于废水处理。绿色技术方法非常经济高效,而且可以更有效地处理该国工业产生的废水。
制造商有机会利用绿色技术方法生产用于废水处理的微藻解决方案。由于该方法具有成本效益,工业对废水处理的需求将会增加,这将有助于制造商在未来几年赚取更多收入。
限制/挑战
- 水处理化学品的有害影响
各行各业的大量消费和排放增加了工业和生活用水量。这需要有效的先进废水处理,因为废水含有各种成分,例如颗粒、有机物和乳液,具体取决于各行各业使用的化学品。然而,废水处理过程中使用的化学品种类很少,化学品与污染物发生反应形成不同种类的副产品。这些副产品可能导致慢性接触,例如饮用水摄入、吸入和皮肤接触,以及对人类健康的癌症和非癌症风险。
一般来说,杀菌剂用于处理多个行业的废水,杀死细菌、藻类、昆虫和啮齿动物等生物。这些杀菌剂产品具有高毒性、致癌性、内分泌干扰性,可能对人类健康和环境产生不利影响。杀菌剂除了具有杀死非病原体的特性外,还对人类有害。在废水处理行业中使用杀菌剂会影响工厂工人的健康,因为杀菌剂会对眼睛、皮肤、呼吸系统、神经系统和其他器官产生影响,还可能导致肿瘤形成。这种反应可能会导致人患上慢性疾病甚至死亡。
- 废水分离需要高品质化学品
不同行业中,水参与了各种产品制造的多个阶段。在这些后续阶段和使用过程中,水会受到有害化学物质和物质的污染,导致水处理变得困难,并导致工业向海洋等水体排放有毒水,影响海洋生物和不同的水生态。
油漆行业使用化学品来制造产品。在此过程中会产生有毒化学品。这些有毒化学品随后未经适当处理就被排放到水体中,这可能会导致水生生物的死亡。用于制造油漆的化学品很难分离。这些困难导致工业废水处理成本高昂。在汽车行业,多种金属和化学品用于制造汽车和机器,在工厂中产生有害液体废物。从这些液体中分离水需要高质量的化学品进行处理,这可能会超出制造商的预算。
近期发展
- 2022 年 5 月,根据美国国家科学基金会 (NSF) 发表的文章,莱斯大学的工程师在美国国家科学基金会的资助下,开发了一种位于铜纳米线网格上的钌原子电催化剂,用于从废水中回收氨。这种高性能电催化剂可以近乎完美的效率从工业废水和受污染的地下水中的少量硝酸盐中提取通常用作工业肥料的氨。
- 2023 年 10 月,索理思完成对 CedarChem 的收购。此次收购符合索理思直接面向市场的战略,即为客户提供更好的化学和废水处理产品和服务。
美国工业水处理市场范围和市场规模
美国工业水处理市场分为几类。细分市场之间的增长有助于您分析利基增长领域和进入市场的策略,并确定您的核心应用领域和目标市场的差异。
类别
- 设备
- 化学品
- 水处理服务
根据类别,市场分为设备、化学品和水处理服务。
竞争格局和美国工业水处理市场份额分析
美国工业水处理市场竞争格局按竞争对手提供详细信息。详细信息包括公司概况、公司财务状况、产生的收入、市场潜力、研发投资、新市场计划、国家存在、生产基地和设施、公司优势和劣势、产品发布、临床试验渠道、品牌分析、产品批准、专利、产品宽度和广度、应用优势、技术生命线曲线。以上提供的数据点仅与公司对美国工业水处理市场的关注有关。
报告中涉及的一些主要参与者包括 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. 等。
DBMR 分析师了解竞争优势并为每个竞争对手分别提供竞争分析。
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目录
1 INTRODUCTION
1.1 OBJECTIVES OF THE STUDY
1.2 MARKET DEFINITION
1.3 OVERVIEW OF THE U.S. INDUSTRIAL WATER TREATMENT MARKET
1.4 LIMITATIONS
1.5 MARKETS COVERED
2 MARKET SEGMENTATION
2.1 MARKETS COVERED
2.2 GEOGRAPHICAL SCOPE
2.3 YEARS CONSIDERED FOR THE STUDY
2.4 CURRENCY AND PRICING
2.5 DBMR TRIPOD DATA VALIDATION MODEL
2.6 MULTIVARIATE MODELING
2.7 PRIMARY INTERVIEWS WITH KEY OPINION LEADERS
2.8 DBMR MARKET POSITION GRID
2.9 SECONDARY SOURCES
2.1 ASSUMPTIONS
3 EXECUTIVE SUMMARY
4 PREMIUM INSIGHTS
5 MARKET OVERVIEW
5.1 DRIVERS
5.1.1 INCREASING DEMAND FOR WASTE WATER SERVICES FROM THE POWER INDUSTRY
5.1.2 GROWING AWARENESS REGARDING WATERBORNE DISEASES
5.1.3 INCREASING WATER SCARCITY DUE TO CLIMATE CHANGE AND INEFFICIENT WATER MANAGEMENT
5.1.4 INCREASING WASTEWATER GENERATION IN CHEMICAL INDUSTRIES
5.1.5 REGULATIONS TO REUSE AND RECYCLE WASTEWATER
5.2 RESTRAINTS
5.2.1 HARMFUL EFFECTS OF WATER TREATMENT CHEMICALS
5.2.2 SIGNIFICANT CAPITAL REQUIRED FOR THE INSTALLATION AND OPERATION OF ADVANCED TREATMENT SYSTEMS
5.3 OPPORTUNITIES
5.3.1 ADVANCEMENT AND ADOPTION OF GREENER SOURCES FOR WATER TREATMENT IN INDUSTRIES
5.3.2 IMPLEMENTATION OF ZERO LIQUID DISCHARGE TECHNOLOGY AND REUSE OF TREATED WATER
5.4 CHALLENGES
5.4.1 HIGH-QUALITY CHEMICALS ARE REQUIRED FOR THE SEPARATION OF WASTES FROM WATER
5.4.2 DETECTION AND TREATMENT OF EMERGING CONTAMINANTS, SUCH AS PHARMACEUTICALS AND MICRO PLASTICS
6 U.S. INDUSTRIAL WATER TREATMENT MARKET, BY CATEGORY
6.1 OVERVIEW
6.2 EQUIPMENT
6.2.1 BY PRODUCT
6.2.1.1 OPERATION AND PROCESS CONTROL SERVICES
6.2.1.2 BUILDING AND INSTALLATION
6.2.1.3 MAINTENANCE AND REPAIR SERVICES
6.2.1.4 DESIGN AND ENGINEERING CONSULTING
6.2.1.5 OTHERS
6.2.2 BY END USER
6.2.2.1 POWER GENERATION
6.2.2.2 MUNICIPAL
6.2.2.3 MINING
6.2.2.4 TEXTILE
6.2.2.5 FOOD INDUSTRY
6.2.2.6 OTHERS
6.2.3 BY APPLICATION
6.2.3.1 BOILER WATER
6.2.3.2 COOLING WATER
6.2.3.3 MEMBRANE WATER
6.2.3.4 OTHERS
6.3 CHEMICALS
6.3.1 BY PRODUCT
6.3.1.1 SCALE INHIBITORS
6.3.1.1.1 PHOSPHONATES
6.3.1.1.2 CARBOXYLATES/ACRYLIC
6.3.1.1.3 OTHERS
6.3.1.2 BIOCIDES AND DISINFECTANTS
6.3.1.2.1 OXIDIZING
6.3.1.2.2 NON-OXIDIZING
6.3.1.2.3 DISINFECTANTS
6.3.1.2.4 CORROSION INHIBITORS
6.3.1.2.5 DEFOAMER
6.3.1.2.6 OXYGEN SCAVENGERS
6.3.1.2.7 IONS EXCHANGE
6.3.1.2.8 PH NEUTRALIZER
6.3.1.2.9 OTHERS
6.3.1.3 FLOCCULANTS
6.3.1.3.1 ANIONIC
6.3.1.3.2 CATIONIC
6.3.1.3.3 NON-IONIC
6.3.1.3.4 AMPHOTERIC
6.3.1.4 COAGULANTS
6.3.1.4.1 INORGANIC COAGULANTS
6.3.1.4.1.1 ALUMINUM SULFATE
6.3.1.4.1.2 POLYALUMINIUM CHLORIDE
6.3.1.4.1.3 FERRIC CHLORIDE
6.3.1.4.1.4 OTHERS
6.3.1.4.2 ORGANIC COAGULANTS
6.3.1.4.2.1 POLYAMINE
6.3.1.4.2.2 POLYDADMAC
6.3.2 BY END USER
6.3.2.1 MINING
6.3.2.2 MUNICIPAL
6.3.2.3 POWER GENERATION
6.3.2.4 TEXTILE
6.3.2.5 FOOD INDUSTRY
6.3.2.6 OTHERS
6.3.3 BY APPLICATION
6.3.3.1 BOILER WATER
6.3.3.2 COOLING WATER
6.3.3.3 MEMBRANE WATER
6.3.3.4 OTHERS
6.4 WATER TREATMENT SERVICES
6.4.1 BY PRODUCT
6.4.1.1 OPERATION AND PROCESS CONTROL SERVICES
6.4.1.2 BUILDING AND INSTALLATION
6.4.1.3 MAINTENANCE AND REPAIR SERVICES
6.4.1.4 DESIGN AND ENGINEERING CONSULTING
6.4.1.5 OTHERS
6.4.2 BY END USER
6.4.2.1 POWER GENERATION
6.4.2.2 MUNICIPAL
6.4.2.3 TEXTILE
6.4.2.4 FOOD INDUSTRY
6.4.2.5 MINING
6.4.2.6 OTHERS
6.4.3 BY APPLICATION
6.4.3.1 BOILER WATER
6.4.3.2 COOLING WATER
6.4.3.3 MEMBRANE WATER
6.4.3.4 OTHERS
7 U.S. INDUSTRIAL WATER TREATMENT MARKET COMPANY LANDSCAPE
7.1 COMPANY SHARE ANALYSIS: U.S.
7.2 AWARD
7.3 ACQUISITION
7.4 EXPANSION
7.5 COLLABORATION
8 SWOT ANALYSIS
9 COMPANY PROFILES
9.1 ECOLAB
9.1.1 COMPANY SNAPSHOT
9.1.2 REVENUE ANALYSIS
9.1.3 PRODUCT PORTFOLIO
9.1.4 RECENT DEVELOPMENT
9.2 SOLENIS
9.2.1 COMPANY SNAPSHOT
9.2.2 PRODUCT PORTFOLIO
9.2.3 RECENT DEVELOPMENTS
9.3 3M
9.3.1 COMPANY SNAPSHOT
9.3.2 REVENUE ANALYSIS
9.3.3 PRODUCT PORTFOLIO
9.3.4 RECENT DEVELOPMENT
9.4 SNF
9.4.1 COMPANY SNAPSHOT
9.4.2 REVENUE ANALYSIS
9.4.3 PRODUCT PORTFOLIO
9.4.4 RECENT DEVELOPMENT
9.5 SUEZ SA
9.5.1 COMPANY SNAPSHOT
9.5.2 REVENUE ANALYSIS
9.5.3 PRODUCT PORTFOLIO
9.5.4 RECENT DEVELOPMENT
9.6 ARIES CHEMICAL, INC.
9.6.1 COMPANY SNAPSHOT
9.6.2 PRODUCT PORTFOLIO
9.6.3 RECENT DEVELOPMENT
9.7 BUCKMAN
9.7.1 COMPANY SNAPSHOT
9.7.2 PRODUCT PORTFOLIO
9.7.3 RECENT DEVELOPMENT
9.8 DORF KETAL CHEMICALS (I) PVT. LTD.
9.8.1 COMPANY SNAPSHOT
9.8.2 PRODUCT PORTFOLIO
9.8.3 RECENT DEVELOPMENT
9.9 HYDRITE CHEMICAL
9.9.1 COMPANY SNAPSHOT
9.9.2 PRODUCT PORTFOLIO
9.9.3 RECENT DEVELOPMENT
9.1 KEMIRA
9.10.1 COMPANY SNAPSHOT
9.10.2 REVENUE ANALYSIS
9.10.3 PRODUCT PORTFOLIO
9.10.4 RECENT DEVELOPMENT
9.11 KRONOS INTERNATIONAL, INC.
9.11.1 COMPANY SNAPSHOT
9.11.2 PRODUCT PORTFOLIO
9.11.3 RECENT DEVELOPMENT
9.12 KURITA WATER INDUSTRIES LTD
9.12.1 COMPANY SNAPSHOT
9.12.2 REVENUE ANALYSIS
9.12.3 PRODUCT PORTFOLIO
9.12.4 RECENT DEVELOPMENT
9.13 MCC CHEMICALS
9.13.1 COMPANY SNAPSHOT
9.13.2 PRODUCT PORTFOLIO
9.13.3 RECENT DEVELOPMENT
9.14 WATERTECH USA
9.14.1 COMPANY SNAPSHOT
9.14.2 PRODUCT PORTFOLIO
9.14.3 RECENT DEVELOPMENT
9.15 XYLEM
9.15.1 COMPANY SNAPSHOT
9.15.2 REVENUE ANALYSIS
9.15.3 PRODUCT PORTFOLIO
9.15.4 RECENT DEVELOPMENTS
10 QUESTIONNAIRE
11 RELATED REPORTS
表格列表
TABLE 1 DISCHARGE LIMIT OF CHEMICALS
TABLE 2 U.S. INDUSTRIAL WATER TREATMENT MARKET, BY CATEGORY, 2022-2031 (USD MILLION)
TABLE 3 U.S. EQUIPMENT IN INDUSTRIAL WATER TREATMENT MARKET, BY PRODUCT, 2022-2031 (USD MILLION)
TABLE 4 U.S. EQUIPMENT IN INDUSTRIAL WATER TREATMENT MARKET, BY END USER, 2022-2031 (USD MILLION)
TABLE 5 U.S. EQUIPMENT IN INDUSTRIAL WATER TREATMENT MARKET, BY APPLICATION, 2022-2031 (USD MILLION)
TABLE 6 U.S. CHEMICALS IN INDUSTRIAL WATER TREATMENT MARKET, BY PRODUCT, 2022-2031 (USD MILLION)
TABLE 7 U.S. CHEMICALS IN INDUSTRIAL WATER TREATMENT MARKET, BY PRODUCT, 2022-2031 (KILO TONS)
TABLE 8 U.S. SCALE INHIBITORS IN INDUSTRIAL WATER TREATMENT MARKET, BY TYPE, 2022-2031 (USD MILLION)
TABLE 9 U.S. BIOCIDES AND DISINFECTANTS IN INDUSTRIAL WATER TREATMENT MARKET, BY TYPE, 2022-2031 (USD MILLION)
TABLE 10 U.S. FLOCCULANTS IN INDUSTRIAL WATER TREATMENT MARKET, BY TYPE, 2022-2031 (USD MILLION)
TABLE 11 U.S. COAGULANTS IN INDUSTRIAL WATER TREATMENT MARKET, BY TYPE, 2022-2031 (USD MILLION)
TABLE 12 U.S. INORGANIC COAGULANTS IN INDUSTRIAL WATER TREATMENT MARKET, BY TYPE, 2022-2031 (USD MILLION)
TABLE 13 U.S. ORGANIC COAGULANTS IN INDUSTRIAL WATER TREATMENT MARKET, BY TYPE, 2022-2031 (USD MILLION)
TABLE 14 U.S. CHEMICALS IN INDUSTRIAL WATER TREATMENT MARKET, BY END USER, 2022-2031 (USD MILLION)
TABLE 15 U.S. CHEMICALS IN INDUSTRIAL WATER TREATMENT MARKET, BY APPLICATION, 2022-2031 (USD MILLION)
TABLE 16 U.S. WATER TREATMENT SERVICES IN INDUSTRIAL WATER TREATMENT MARKET, BY PRODUCT, 2022-2031 (USD MILLION)
TABLE 17 U.S. WATER TREATMENT SERVICES IN INDUSTRIAL WATER TREATMENT MARKET, BY END USER, 2022-2031 (USD MILLION)
TABLE 18 U.S. WATER TREATMENT SERVICES IN INDUSTRIAL WATER TREATMENT MARKET, BY APPLICATION, 2022-2031 (USD MILLION)
图片列表
FIGURE 1 U.S. INDUSTRIAL WATER TREATMENT MARKET: SEGMENTATION
FIGURE 2 U.S. INDUSTRIAL WATER TREATMENT MARKET: DATA TRIANGULATION
FIGURE 3 U.S. INDUSTRIAL WATER TREATMENT MARKET: DROC ANALYSIS
FIGURE 4 U.S. INDUSTRIAL WATER TREATMENT MARKET: REGIONAL VS COUNTRY ANALYSIS
FIGURE 5 U.S. INDUSTRIAL WATER TREATMENT MARKET: COMPANY RESEARCH ANALYSIS
FIGURE 6 U.S. INDUSTRIAL WATER TREATMENT MARKET: MULTIVARIATE MODELLING
FIGURE 7 U.S. INDUSTRIAL WATER TREATMENT MARKET: INTERVIEW DEMOGRAPHICS
FIGURE 8 U.S. INDUSTRIAL WATER TREATMENT MARKET: DBMR MARKET POSITION GRID
FIGURE 9 U.S. INDUSTRIAL WATER TREATMENT MARKET: SEGMENTATION
FIGURE 10 INCREASING DEMAND FOR WATER TREATMENT SERVICES FROM THE POWER INDUSTRY IS EXPECTED TO DRIVE THE U.S. INDUSTRIAL WATER TREATMENT MARKET GROWTH IN THE FORECAST PERIOD OF 2024 TO 2031
FIGURE 11 EQUIPMENT SEGMENT IS EXPECTED TO ACCOUNT FOR THE LARGEST SHARE OF THE U.S. INDUSTRIAL WATER TREATMENT MARKET IN 2024 & 2031
FIGURE 12 DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES OF THE U.S. INDUSTRIAL WATER TREATMENT MARKET
FIGURE 13 U.S. INDUSTRIAL WATER TREATMENT MARKET: BY CATEGORY, 2023
FIGURE 14 U.S. INDUSTRIAL WATER TREATMENT MARKET: COMPANY SHARE 2023 (%)
研究方法
Data collection and base year analysis are done using data collection modules with large sample sizes. The stage includes obtaining market information or related data through various sources and strategies. It includes examining and planning all the data acquired from the past in advance. It likewise envelops the examination of information inconsistencies seen across different information sources. The market data is analysed and estimated using market statistical and coherent models. Also, market share analysis and key trend analysis are the major success factors in the market report. To know more, please request an analyst call or drop down your inquiry.
The key research methodology used by DBMR research team is data triangulation which involves data mining, analysis of the impact of data variables on the market and primary (industry expert) validation. Data models include Vendor Positioning Grid, Market Time Line Analysis, Market Overview and Guide, Company Positioning Grid, Patent Analysis, Pricing Analysis, Company Market Share Analysis, Standards of Measurement, Global versus Regional and Vendor Share Analysis. To know more about the research methodology, drop in an inquiry to speak to our industry experts.
可定制
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