이온교환 재료 : 각종 기술과 세계 시장

Highlights:

The global market for ion exchange materials is estimated to increase from $3.1 billion in 2023 to reach $4.8 billion by 2028, at a compound annual growth rate (CAGR) of 9.0% from 2023 through 2028.

Asia-Pacific market for ion exchange materials is estimated to increase from $1.5 billion in 2023 to reach $2.4 billion by 2028, at a CAGR of 10.6% from 2023 through 2028.

North American market for ion exchange materials is estimated to increase from $845.8 million in 2023 to reach $1.3 billion by 2028, at a CAGR of 8.8% from 2023 through 2028.

Report Scope:

This report will cover the ion exchange materials industry. Definitive and detailed estimates and forecasts of the global market are provided, followed by a detailed analysis of the ion exchange resins/beads and membranes, application, and regions. It will also focus on the regulations and government-supported programs impacting this market. Regionally, the focus of study will be the markets of North America, Europe, Asia-Pacific, and the Rest of the World (RoW).

While applications for ion exchange materials other than those mentioned above do exist-sensors, for example-the market size for the materials in these industries is comparatively small. Therefore, these technologies are not covered within the scope of this report. In fact, only the applications and geographical regions listed in this chapter are considered in the subsequent market sections.

The report focuses on the global market for ion exchange materials by form factor (resin/beads, membranes), by end user (energy generation and storage [fuel cell systems, water electrolysis systems, redox flow batteries], water technologies [electrodialysis, ultrapure water generation, water softening, demineralization, wastewater treatment], separation and chemicals production [chlor-alkali processes, ion exchange chromatography, chemical catalysis, metal extraction and purification], power generation and electricity [condensate polishing, nuclear waste remediation], food production [sugar production, beverage production], pharmaceutical production {drug delivery, isolation and purification of biochemical substances]).

The report concentrates on ion exchange materials that are currently in commercial use or are likely to be commercialized by 2028. Other applications that, while promising, are not likely to make it out of the laboratory by 2028 are not covered in depth. Sales value estimates are based on prices in the supply chain. Market-driving forces and industry structure are examined. International aspects are analyzed for all global regions.

Report Includes:

• 76 data tables and 69 additional tables.
• An overview of the global market landscape related to the ion exchange materials and technologies.
• In-depth analysis of global market trends, featuring historical revenue data for 2022 and estimated figures for 2023. This analysis includes projections of Compound Annual Growth Rates (CAGRs) spanning through 2028.
• Evaluation of the current market size and revenue growth prospects specific to ion exchange materials, accompanied by a comprehensive market share analysis categorized by form factor, application, and geographical region.
• Discussion of the major growth drivers, opportunities and challenges, technology updates, and impact of various macroeconomic variables influencing the market for ion exchange materials as a basis for projecting demand in the next few years (2023-2028).
• In-depth information (facts and figures) concerning the major factors influencing the progress of this market (benefits, and industry-specific challenges) with respect to specific growth trends, upcoming technologies, regulations, prospects, and contributions to the ion exchange materials industry.
• Review of the key patents grants and patent applications on ion exchange materials, along with emerging technologies and new developments in the global market over a brief period.
• Discussion of the ESG trends and technologies, new developments and sustainable practices in the ion exchange materials industry.
• Identification of the companies best positioned to meet the demand for ion exchange materials in water treatment industry and various remediation projects, owing to or in conjunction with their proprietary technologies, merger and acquisition (M&A) activities, and other strategic advantages.
• Analysis of the company competitive landscape based on recent developments, product portfolios, key financials and segmental revenues, as well as their operational integration.
• Detailed profiles of leading market participants, including DuPont de Nemours Inc., Lanxess AG, Purolite, Mitsubishi Chemical Group, The Chemours Co., and Solvay S.A.

Table of Contents

Chapter 1 Introduction

• Overview
• Study Goals and Objectives
• Reasons for Doing This Study
• Scope of Report
• What's New in This Update?
• Research Methodology
• Information Sources
• Geographic Breakdown

Chapter 2 Summary and Highlights

• Market Outlook
• Market Summary

Chapter 3 Market Overview

• Overview
• Ion Exchange Materials
• Form Factor
• Key Properties of Ion Exchange Materials
• Ion Exchange Materials: A Brief History
• Ion Exchange Process
• Ion Exchange Models
• Equivalent Fraction
• Ion Exchange Capacity
• Selectivity
• Kinetics of Ion Exchange Processes
• Separation and Purification Processes
• Life Cycle Assessment of Ion Exchange Materials
• Regulatory Trends

Chapter 4 Market Dynamics

• Market Dynamics
• Market Drivers
• Market Challenges and Restraints
• Recent Innovations
• Supply Chain
• Raw Material Producers
• Chemical Production Specialists
• Ion Exchange Material Producers
• Commodity Supply Chain
• Semiconductor Manufacturers
• Electronics Equipment Manufacturers
• Original Equipment Manufacturers
• Ion Exchange Equipment Manufacturers
• Distributors
• Engineering, Procurement and Construction Contractors
• Construction/installation Contractors
• End Users
• Waste Management and Disposal
• Impact of the Russia-Ukraine War on the Market for Ion Exchange Materials

Chapter 5 Market by Form Factor

• Overview
• Ion Exchange Resins/Beads
• Ion Exchange Membranes

Chapter 6 Market by Application

• Overview
• Energy Generation and Storage
• Fuel Cells
• Water Electrolysis
• Redox Flow Batteries
• Water Technologies
• Electrodialysis
• Ultrapure Water
• Water Softening
• Demineralization
• Wastewater Treatment
• Separation and Chemical Production
• Chlor-Alkali Process
• Chromatography
• Chemical Catalysis
• Metal Extraction and Purification
• Power Generation and Electricity
• Food and Beverages
• Sugar and Sweeteners
• Beverage Production
• Pharmaceutical
• Drug Delivery
• Isolation and Purification of Biochemical Substances

Chapter 7 Market by Region

• Global Market for Ion Exchange Materials
• North America
• Europe
• Asia-Pacific
• Rest of the World

Chapter 8 ESG Developments

• Importance of ESG in the Ion Exchange Materials Industry
• ESG Ratings and Metrics: Understanding the Data
• Key ESG Issues in the Ion Exchange Materials Industry
• ESG Practices in the Ion Exchange Materials Industry
• Current Status of ESG in the Market for Ion Exchange Materials
• ESG Score Analysis
• Risk Scale, Exposure Scale, and Management Scale
• Risk Scale
• Exposure Scale
• Management Scale
• Case Studies: Examples of Successful ESG Implementation
• Environmental Initiatives
• Social Initiatives
• Governance Initiatives
• Outcomes
• Future of ESG: Emerging Trends and Opportunities
• Concluding Remarks from BCC

Chapter 9 Emerging Technologies and Developments

• Key Highlights
• Key Trends in the Market
• Green and Sustainable Resins and Membranes
• Hybrid Technologies
• Circular Economy and Recycling
• Advanced Regeneration Techniques
• Membrane Hybridization
• Process Intensification
• Application Expansion
• Digitalization and Analytics
• High-Temperature and Acid-Resistant Membranes
• Selective and Specialty Resins/Membranes
• New Product/New Technology Development
• Patented Technologies

Chapter 10 Patent Analysis

• Patent Activity

Chapter 11 M&A and Venture Funding Outlook

• M&A Analysis
• Start-up Funding in Ion Exchange Materials

Chapter 12 Competitive Intelligence

• Overview
• Company Market Shares of Ion Exchange Materials
• Strategic Analysis

Chapter 13 Company Profiles

• 3M
• ASTOM CORP.
• AXPLORA
• AGC INC.
• BIO-RAD LABORATORIES INC.
• CHEMOURS (THE CHEMOURS CO.)
• DUPONT DE NEMOURS INC.
• DIOXIDE MATERIALS
• EVOQUA WATER TECHNOLOGIES LLC
• EICHROM TECHNOLOGIES
• ECOSOFT BWT
• ECOLECTRO INC.
• FUJIFILM HOLDINGS CORP.
• ION EXCHANGE (INDIA) LTD.
• IONOMR INNOVATIONS INC.
• JACOBI CARBONS AB
• LANXESS AG
• MITSUBISHI CHEMICAL GROUP CORP.
• MEMBRANES INTERNATIONAL
• PUROLITE
• RESINTECH INC.
• SAMYANG CORP.
• SUNRESIN NEW MATERIALS CO., LTD.
• SALTWORKS TECHNOLOGIES INC.
• SUQING GROUP
• SNOWPURE LLC
• SOLVAY SA
• TAIYUAN LANLANG TECHNOLOGY INDUSTRIAL CORP.
• THERMAX LTD.

Chapter 14 Appendix: Acronyms