 | • レポートコード:MRC2303D056 • 出版社/出版日:Mordor Intelligence / 2023年1月23日 • レポート形態:英文、PDF、120ページ • 納品方法:Eメール(受注後2-3営業日) • 産業分類:化学&部品 |
| Single User | ¥665,000 (USD4,750) | ▷ お問い合わせ |
| Corporate License | ¥1,225,000 (USD8,750) | ▷ お問い合わせ |
• お支払方法:銀行振込(納品後、ご請求書送付)
レポート概要
| Mordor Intelligence社の本調査資料では、世界のイオン交換樹脂市場規模が、予測期間中に年平均4%で拡大すると推測しています。本書は、イオン交換樹脂の世界市場について調査・分析し、イントロダクション、調査手法、エグゼクティブサマリー、市場動向、種類別(汎用樹脂、特殊樹脂)分析、用途別(医薬品、食品&飲料、水処理、鉱業&冶金、その他)分析、地域別(中国、インド、日本、韓国、アジア太平洋、アメリカ、カナダ、メキシコ、ドイツ、イギリス、イタリア、フランス、スペイン、ブラジル、アルゼンチン、サウジアラビア、南アフリカ)分析、競争状況、市場機会・将来の動向などをまとめています。なお、主要参入企業として、DuPont、Eichrom Technologies, LLC、Evoqua Water Technologies LLC、Finex Oy、ION EXCHANGE、Ionic Systems Ltd.、JACOBI CARBONS GROUP、LANXESS、Mitsubishi Chemical Corporation、Novasep、Purolite、ResinTech Inc.、SAMYANG CORPORATION、Thermax Limitedなどの企業情報が含まれています。 ・イントロダクション ・調査手法 ・エグゼクティブサマリー ・市場動向 ・世界のイオン交換樹脂市場規模:種類別 - 汎用イオン交換樹脂の市場規模 - 特殊イオン交換樹脂の市場規模 ・世界のイオン交換樹脂市場規模:用途別 - 医薬品における市場規模 - 食品&飲料における市場規模 - 水処理における市場規模 - 鉱業&冶金における市場規模 - その他用途における市場規模 ・世界のイオン交換樹脂市場規模:地域別 - アジア太平洋のイオン交換樹脂市場規模 中国のイオン交換樹脂市場規模 インドのイオン交換樹脂市場規模 日本のイオン交換樹脂市場規模 … - 北米のイオン交換樹脂市場規模 アメリカのイオン交換樹脂市場規模 カナダのイオン交換樹脂市場規模 メキシコのイオン交換樹脂市場規模 … - ヨーロッパのイオン交換樹脂市場規模 ドイツのイオン交換樹脂市場規模 イギリスのイオン交換樹脂市場規模 イタリアのイオン交換樹脂市場規模 … - 南米/中東のイオン交換樹脂市場規模 ブラジルのイオン交換樹脂市場規模 アルゼンチンのイオン交換樹脂市場規模 サウジアラビアのイオン交換樹脂市場規模 … - その他地域のイオン交換樹脂市場規模 ・競争状況 ・市場機会・将来の動向 |
The market for ion exchange resin is expected to witness a CAGR of around 4% during the forecast period. One of the major factor driving the growth of the market is the growing demand for ion exchange resins from various applications.
Key Highlights
- On the flip side, bacterial contamination caused by ion exchange resins is likley to hinder the growth of the market studied.
- North America dominated the market with the largest consumption coming from United States. However, Asia-Pacific is likley to register the fastest growth rate during the forecast period.
Ion Exchange Resin Market Trends
Water Treatment Segment to Drive the Market
- Fresh water, even though abundantly available, is a limited resource to humanity in the environment. The increasing need for mechanization and food safety have led to the excessive use of the available freshwater resources in the past century, without taking efforts to replenish them.
- This has created an ecological imbalance, as the wastewater produced from agriculture, industrial processes, and sewage are discarded into freshwater resources. Currently, freshwater sources have become polluted largely due to human activities making them toxic. Also, there have been reports of fires in the lakes, owing to chemical waste disposal.
- Water treatment applications have been increasing lately, owing to the strong demand for freshwater resources. Water recycling is a multi-stage process in wastewater treatment plants. Ion exchange treatment process is commonly used for water softening or demineralization. It is also used for removing other substances from water in processes, such as de-alkalization, de-ionization, and disinfection.
- Recently, ion exchange resins have been increasingly used to create drinking water. Specialized resins have been designed to treat various contaminants of concern, including perchlorate and uranium.
- There are many resins designed for these purposes, such as strong base/strong anion resin, which is used to remove nitrates and perchlorate. There are also resin beads that can be used for water softening.
- Resin materials have a finite exchange capacity. Each of the individual exchange sites will become full with prolonged use. When it is not possible to exchange ions any longer, the resin must be recharged or regenerated to restore it to its initial condition. The substances used for this, include sodium chloride, as well as hydrochloric acid, sulfuric acid, or sodium hydroxide.
- The spent regenerant is the primary substance remaining from the process. It contains not only all of the ions removed, but also contains extra regenerantions having high level of total dissolved solids. It can be treated in a municipal wastewater facility, while discharges may require monitoring.
- The efficacy of ion exchange for water treatment can be limited by mineral scaling, surface clogging, and other issues that contribute to resin fouling. Pretreatment processes such as filtration or addition of chemicals can help reduce or prevent these issues.
- With the increasing need for water treatment across the globe, the demand for ion exchange resins is projected to grow through the forecast period.
North America to Dominate the Market
North America is expected to dominate the global ion exchange resin market during the forecast period. This is majorly because of the increasing demand for ion exchange resins from end-user industries including pharmaceutical, mining, and nuclear power. Additionally, the increasing investments in United States pharmaceutical sector is expected to boost the demand for ion exchange resins in the coming years which in turn is likely to boost the market growth. However, Asia-Pacific is expected to be the fastest growing region during the forecast period. The governments of developing economies, such as China, India, and Indonesia in this region have been taking strict measures for water treatment.
Ion Exchange Resin Market Competitor Analysis
The global ion exchange resin market is partially fragmented in nature, with no major player accounting for a major share of the global market. Some of the prominent players in the market include DuPont, LANXESS, Purlite, Mitsubishi Chemical Corporation, and Evoqua Water Technologies LLC, among others.
Additional Benefits:
- The market estimate (ME) sheet in Excel format
- 3 months of analyst support
1 INTRODUCTION
1.1 Study Assumptions
1.2 Scope of the Study
2 RESEARCH METHODOLOGY
3 EXECUTIVE SUMMARY
4 MARKET DYNAMICS
4.1 Drivers
4.1.1 Growing Demand from Various Applications
4.1.2 Other Drivers
4.2 Restraints
4.2.1 Bacterial Contamination Caused by Ion Exchange Resins
4.2.2 Other Restraints
4.3 Industry Value-chain Analysis
4.4 Porter’s Five Forces Analysis
4.4.1 Bargaining Power of Suppliers
4.4.2 Bargaining Power of Consumers
4.4.3 Threat of New Entrants
4.4.4 Threat of Substitute Products and Services
4.4.5 Degree of Competition
5 MARKET SEGMENTATION
5.1 Type
5.1.1 Commodity Resins
5.1.2 Specialty Resins
5.2 Application
5.2.1 Pharmaceutical
5.2.2 Food and Beverage
5.2.3 Water Treatment
5.2.4 Mining and Metallurgy
5.2.5 Chemical Processing
5.2.6 Power
5.2.7 Other Applications
5.3 Geography
5.3.1 Asia-Pacific
5.3.1.1 China
5.3.1.2 India
5.3.1.3 Japan
5.3.1.4 South Korea
5.3.1.5 ASEAN Countries
5.3.1.6 Rest of Asia-Pacific
5.3.2 North America
5.3.2.1 United States
5.3.2.2 Canada
5.3.2.3 Mexico
5.3.3 Europe
5.3.3.1 Germany
5.3.3.2 United Kingdom
5.3.3.3 Italy
5.3.3.4 France
5.3.3.5 Spain
5.3.3.6 Rest of Europe
5.3.4 South America
5.3.4.1 Brazil
5.3.4.2 Argentina
5.3.4.3 Rest of South America
5.3.5 Middle-East
5.3.5.1 Saudi Arabia
5.3.5.2 South Africa
5.3.5.3 Rest of Middle-East
6 COMPETITIVE LANDSCAPE
6.1 Mergers & Acquisitions, Joint Ventures, Collaborations and Agreements
6.2 Market Share/Ranking Analysis**
6.3 Strategies Adopted by Leading Players
6.4 Company Profiles
6.4.1 DuPont
6.4.2 Eichrom Technologies, LLC
6.4.3 Evoqua Water Technologies LLC
6.4.4 Finex Oy
6.4.5 ION EXCHANGE
6.4.6 Ionic Systems Ltd.
6.4.7 JACOBI CARBONS GROUP
6.4.8 LANXESS
6.4.9 Mitsubishi Chemical Corporation
6.4.10 Novasep
6.4.11 Purolite
6.4.12 ResinTech Inc.
6.4.13 SAMYANG CORPORATION
6.4.14 Thermax Limited
7 MARKET OPPORTUNITIES AND FUTURE TRENDS