Brine Concentration Minerals Market Size, Share, and Industry Analysis By Type (Sodium Derivatives, Magnesium Derivatives, Potassium Derivatives, Calcium Derivatives, and Others), By Technology (Solar Evaporation, NF-RO-MF, Osmotically Assisted RO, and Others), By Application (Metallurgical, Pharmaceuticals and Food & Beverages, Water Treatment, Construction, Fertilizers, and Others), and Regional Forecast, 2026-2034.

The global brine concentration minerals market size was valued at USD 1.2 billion in 2025. The market is projected to grow from USD 1.3 billion in 2026 to USD 2.45 billion by 2034, exhibiting a CAGR of 8.22% during the forecast period.

The Brine Concentration Minerals Market represents a critical segment of the global minerals and resource recovery industry, focusing on the extraction and concentration of valuable minerals from saline water sources. Brine concentration minerals include sodium, magnesium, potassium, calcium, and other derivative compounds obtained through evaporation and membrane-based concentration processes. These minerals are widely used across chemicals, agriculture, energy storage, water treatment, and industrial manufacturing. The Brine Concentration Minerals Market is shaped by growing demand for resource efficiency, water reuse, and sustainable mineral recovery. Industrial desalination, lithium extraction, and chemical processing industries significantly influence market demand..

The USA Brine Concentration Minerals Market is driven by advanced desalination infrastructure, chemical manufacturing, and lithium extraction activities. Industrial brine management and zero-liquid-discharge initiatives support mineral recovery from brine streams. Strong demand from energy storage, water treatment, and specialty chemicals drives domestic consumption. The presence of advanced membrane technology providers enhances process efficiency. Regulatory focus on water reuse and waste reduction supports adoption. Lithium brine processing for battery materials further strengthens demand. Industrial sustainability goals influence investment in brine concentration systems.

Key Findings

Market Size & Growth

• Global market size 2025: USD 1.2 billion
• Global market size 2034: USD 2.45 billion
• CAGR (2025–2034): 8.22%

Market Share – Regional

• North America: 24%
• Europe: 20%
• Asia-Pacific: 36%
• Middle East & Africa:20%

Country - Level Shares

• Germany: 7% of Europe’s market
• United Kingdom: 5% of Europe’s market
• Japan: 6% of Asia-Pacific market
• China:18% of Asia-Pacific market

Brine Concentration Minerals Market Latest Trends

The Brine Concentration Minerals Market Trends indicate a strong shift toward advanced membrane-based and hybrid concentration technologies. One of the key trends is the increasing use of nanofiltration, reverse osmosis, and osmotically assisted RO systems to maximize mineral recovery while reducing energy consumption. Industries are focusing on extracting high-value minerals such as lithium, magnesium, and potassium from brine streams.

Another prominent Brine Concentration Minerals Market Trend is the growing integration of brine concentration processes with desalination plants. Instead of disposing concentrated brine, operators are recovering commercial-grade minerals. This trend supports circular economy principles and improves overall process economics.The Brine Concentration Minerals Market Research Report also highlights rising adoption in battery materials supply chains, particularly for lithium and magnesium derivatives. Environmental regulations related to wastewater discharge are accelerating demand for zero-liquid-discharge systems.

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Brine Concentration Minerals Market Dynamics

DRIVER

Growing Demand for Resource Recovery and Water Reuse

The primary driver of Brine Concentration Minerals Market Growth is the growing emphasis on resource recovery and industrial water reuse. Industries are under increasing pressure to reduce wastewater discharge and recover valuable materials from brine streams. Brine concentration technologies enable efficient extraction of minerals while minimizing environmental impact.Desalination plants, mining operations, and chemical manufacturers rely on brine concentration minerals to improve operational sustainability. Demand for lithium and magnesium for energy storage further accelerates adoption. Industrial sustainability targets and water scarcity concerns strongly reinforce long-term market growth.

RESTRAINT

High Capital and Operational Costs

High capital investment and operational complexity act as key restraints in the Brine Concentration Minerals Market. Advanced concentration technologies require significant upfront costs. Energy consumption and maintenance expenses can limit adoption in cost-sensitive industries.Smaller operators may struggle to justify investment despite long-term benefits. The Brine Concentration Minerals Market Analysis indicates that economic feasibility varies by mineral type and application, moderating short-term expansion.

OPPORTUNITY

Expansion in Lithium and Battery Materials

The expansion of lithium extraction for battery materials presents a major opportunity in the Brine Concentration Minerals Market. Brine-based lithium recovery is gaining importance due to growing electric vehicle and energy storage demand.Innovative concentration techniques improve lithium yield and purity. Investment in battery supply chains supports mineral recovery projects. This opportunity strengthens the Brine Concentration Minerals Market Opportunities landscape globally.

CHALLENGE

Process Efficiency and Mineral Selectivity

A major challenge in the Brine Concentration Minerals Market is achieving high selectivity for targeted minerals while maintaining efficiency. Brine streams often contain complex mineral compositions.Balancing recovery efficiency with energy consumption remains challenging. The Brine Concentration Minerals Market Outlook highlights the need for continuous technological innovation to address process optimization challenges.

Brine Concentration Minerals Market Segmentation

By Type

Sodium derivatives account for approximately 30% of the Brine Concentration Minerals Market, making them the largest type segment. These derivatives are primarily recovered as sodium chloride and related compounds from concentrated brine streams. Chemical manufacturing industries rely heavily on sodium derivatives as base raw materials. Water treatment facilities use sodium-based minerals for softening and purification processes. Food processing and industrial cleaning applications further support demand. High availability and ease of extraction make sodium derivatives economically viable. Cost efficiency enables large-scale production and consumption. Industrial desalination plants frequently recover sodium derivatives as by-products. Demand remains stable due to continuous industrial operations. Infrastructure development indirectly supports consumption. Sodium derivatives are compatible with both solar evaporation and membrane-based recovery. Storage and transportation ease enhances market penetration. 

Magnesium derivatives represent around 25% of the Brine Concentration Minerals Market and play a critical role in multiple industries. These minerals are widely used in flame retardants, construction materials, and metal alloys. Lightweight material demand strongly supports magnesium derivative consumption. Magnesium recovery from brine is increasingly preferred over traditional mining. Construction sector growth drives demand for magnesium-based cement and panels. Industrial manufacturing relies on magnesium compounds for corrosion resistance. Energy-efficient building materials increase adoption. Brine-based recovery supports sustainability goals. Demand is driven by automotive and aerospace material applications. Chemical processing industries use magnesium derivatives as intermediates. Consistent industrial usage supports steady demand patterns. Technological improvements improve extraction efficiency. Market growth aligns with lightweight material trends. 

Potassium derivatives hold approximately 20% of the Brine Concentration Minerals Market and are largely driven by agricultural demand. Potassium salts recovered from brine are widely used as fertilizers. Global food production requirements strongly influence consumption levels. Agriculture modernization supports long-term demand stability. Potassium derivatives also find use in food processing and industrial chemicals. Brine-based potassium recovery reduces dependency on traditional potash mining. This supports supply diversification strategies. Industrial fertilizer blending operations drive volume usage. Demand fluctuates with agricultural cycles and seasonal trends. Government support for crop productivity indirectly boosts consumption. Potassium derivatives are compatible with solar evaporation systems. High purity requirements influence recovery technology choice. Price sensitivity affects procurement decisions. 

Calcium derivatives account for about 15% of the Brine Concentration Minerals Market and serve diverse industrial applications. These derivatives are used in construction materials such as cement and concrete additives. Water treatment facilities rely on calcium compounds for hardness control. Chemical processing industries use calcium derivatives as stabilizers and reactants. Infrastructure development directly influences demand patterns. Calcium recovery from brine supports circular economy objectives. Industrial wastewater treatment increases usage. Cost-effective recovery methods support adoption. Demand is steady but less volume-intensive than sodium derivatives. Industrial-grade calcium compounds dominate consumption. Regional construction activity affects market growth. Compatibility with membrane-based concentration enhances recovery efficiency. Long-term infrastructure investment supports stable demand. Calcium derivatives offer moderate value per unit. This segment adds diversity to the Brine Concentration Minerals Market. It supports both industrial and municipal applications.

Other minerals represent approximately 10% of the Brine Concentration Minerals Market and include lithium, boron, and specialty compounds. These minerals are recovered in smaller volumes but offer high value. Lithium extraction from brine is driven by battery material demand. Boron derivatives are used in glass, ceramics, and specialty chemicals. Specialty mineral recovery supports niche industrial applications. Energy storage growth increases focus on lithium brine projects. Advanced concentration technologies enable selective recovery. Demand is project-specific and technology-dependent. Production volumes are lower than bulk minerals. Value per unit is significantly higher. Research and development drive innovation in this segment. Regulatory frameworks influence extraction feasibility. Supply chain integration is critical. This segment supports future-oriented market opportunities. Others enhance profitability potential. They contribute to long-term Brine Concentration Minerals Market innovation.

By Technology

Solar evaporation represents approximately 35% of the Brine Concentration Minerals Market and is the most widely used application method. This process is preferred in regions with high solar radiation and arid climates. Low operational cost is a key advantage. Large land availability supports large-scale mineral extraction. Sodium and potassium recovery commonly rely on solar evaporation. Long processing times are accepted due to cost benefits. Energy consumption is minimal compared to mechanical systems. Environmental footprint is relatively low. Climate dependency affects geographic adoption. Production scalability supports bulk mineral recovery. Infrastructure investment is moderate. This method is widely used in salt flats and coastal regions. Purity levels depend on evaporation control. Solar evaporation supports sustainable extraction models. It remains essential for volume-driven mineral recovery. This application anchors overall Brine Concentration Minerals Market size.

NF-RO-MF systems account for around 30% of the Brine Concentration Minerals Market and represent advanced membrane-based applications. These systems enable selective separation of minerals. Higher efficiency compared to evaporation drives adoption. Industrial desalination plants rely heavily on membrane technologies. Water reuse initiatives support demand growth. Controlled operation enhances mineral purity. Energy consumption is higher than solar methods but more predictable. Industrial facilities favor consistent output quality. Integration with existing water treatment systems is common. These systems support zero-liquid-discharge strategies. Capital investment requirements influence adoption. Technological advancements improve membrane lifespan. This application supports recovery of high-value minerals. NF-RO-MF systems enable modular scalability. They play a critical role in industrial brine management. This segment supports technology-driven market growth.

Osmotically assisted RO holds approximately 20% of the Brine Concentration Minerals Market and supports advanced recovery needs. This technology enhances water recovery rates. It reduces energy demand compared to conventional RO. Industrial users adopt it for high-salinity brine streams. Mineral selectivity is improved through controlled osmotic gradients. Adoption is growing in lithium brine projects. Capital cost remains a limiting factor. Operational efficiency attracts high-value mineral recovery projects. Integration with hybrid systems is common. Performance stability supports industrial usage. This method suits space-constrained facilities. Innovation continues to improve membrane performance. Adoption is technology-driven rather than volume-driven. Osmotically assisted RO supports sustainable processing goals. This application enhances recovery efficiency. It represents the future of advanced brine concentration.

Other applications account for approximately 15% of the Brine Concentration Minerals Market and include hybrid systems and crystallization technologies. These methods are used for specialized mineral recovery. Hybrid systems combine evaporation and membrane processes. Crystallizers support high-purity mineral production. These applications are common in zero-liquid-discharge plants. Industrial chemical recovery projects rely on them. Capital investment is relatively high. Operational complexity requires technical expertise. Demand is project-specific and limited in volume. High recovery efficiency supports adoption. These systems support regulatory compliance. Custom design is common. Energy optimization remains a focus area. Others serve niche and advanced industrial needs. This segment adds flexibility to application choices. It strengthens the overall Brine Concentration Minerals Market structure.

By Application

The metallurgical application segment accounts for approximately 24% of the Brine Concentration Minerals Market, driven by the use of concentrated brine minerals in metal extraction, alloy production, and metallurgical processing. Sodium, magnesium, and calcium derivatives recovered from brine are widely used as fluxes, stabilizers, and processing aids in metal refining operations. Magnesium derivatives play a critical role in lightweight alloy manufacturing, supporting automotive and aerospace industries. Brine-derived minerals offer consistent purity levels, which are essential for metallurgical process control. Industrial steel and non-ferrous metal production rely on these minerals to enhance efficiency and product quality. Growing demand for lightweight and corrosion-resistant metals further strengthens this segment. 

Pharmaceuticals and food & beverages collectively represent around 16% of the Brine Concentration Minerals Market. High-purity sodium, potassium, and magnesium derivatives recovered from brine are used in drug formulations, nutritional supplements, and food processing. In pharmaceuticals, brine-derived minerals act as excipients, electrolytes, and intermediates in drug synthesis. Strict purity and safety standards drive demand for controlled mineral recovery processes. In food and beverage applications, sodium and potassium salts are used for preservation, flavor enhancement, and processing stability. Growing health awareness increases demand for mineral-fortified food products. Regulatory compliance and quality assurance play a crucial role in this segment. 

Water treatment applications account for approximately 22% of the Brine Concentration Minerals Market, supported by increasing global focus on water reuse and purification. Sodium and calcium derivatives recovered from brine are widely used in water softening, pH control, and desalination processes. Industrial and municipal water treatment facilities generate significant brine streams, creating opportunities for mineral recovery. Zero-liquid-discharge and wastewater minimization initiatives strongly support this segment. Brine concentration minerals help reduce chemical procurement costs for treatment operators. Growing urbanization and industrial wastewater volumes increase demand. Regulatory requirements related to water discharge accelerate adoption of brine concentration technologies. This segment is technology-driven and sustainability-focused, making it a key pillar of the Brine Concentration Minerals Market Outlook.

Construction applications represent around 15% of the Brine Concentration Minerals Market, driven by the use of calcium, magnesium, and sodium derivatives in building materials. These minerals are used in cement production, concrete additives, insulation materials, and specialty construction chemicals. Infrastructure development and urban expansion directly influence demand. Brine-derived calcium compounds improve cement strength and setting characteristics. Magnesium derivatives are used in fire-resistant panels and lightweight construction materials. Water treatment residues integrated into construction materials support circular economy goals. Demand is closely linked to residential, commercial, and infrastructure projects. Replacement and renovation activities further contribute to consumption. Construction remains a steady, volume-oriented application supporting long-term Brine Concentration Minerals Market stability.

The fertilizer segment accounts for approximately 18% of the Brine Concentration Minerals Market, primarily driven by potassium and magnesium derivatives. Brine-based potassium salts are widely used in agricultural fertilizers to improve crop yield and soil health. Global food demand and agricultural productivity initiatives strongly support this segment. Magnesium-based fertilizers enhance plant nutrient absorption. Brine concentration offers an alternative source of agricultural minerals, reducing dependency on traditional mining. Seasonal agricultural cycles influence demand patterns. Government support for fertilizer usage sustains long-term consumption. Environmental concerns encourage controlled mineral sourcing. This segment is closely tied to global agriculture trends and plays a critical role in regional food security, strengthening the Brine Concentration Minerals Market Growth outlook.

Other applications collectively account for approximately 5% of the Brine Concentration Minerals Market and include energy storage, specialty chemicals, glass manufacturing, and research applications. Lithium extraction from brine supports battery material supply chains. Boron and specialty minerals are used in ceramics and glass production. Research institutions utilize high-purity brine-derived minerals for testing and innovation. These applications are typically project-specific and lower in volume but higher in value. Advanced concentration technologies enable selective recovery for niche uses. Although smaller in scale, this segment contributes to diversification and innovation within the Brine Concentration Minerals Market, supporting long-term future opportunities.

Brine Concentration Minerals Market Regional Outlook

North America

North America accounts for approximately 24% of the Brine Concentration Minerals Market, supported by advanced industrial infrastructure. Desalination plants across coastal regions generate significant brine streams for mineral recovery. Lithium extraction from brine is a key demand driver due to battery material requirements. Chemical manufacturing industries rely on sodium, calcium, and magnesium derivatives recovered from brine. Industrial water reuse initiatives strongly support adoption of brine concentration technologies. Zero-liquid-discharge regulations encourage mineral recovery instead of disposal. Advanced membrane and hybrid systems are widely implemented. Technological innovation improves mineral selectivity and process efficiency. Energy-efficient concentration methods gain preference. Mining and resource optimization projects contribute to demand. Strong regulatory frameworks promote sustainable brine management. Capital investment in advanced processing facilities remains high. Industrial sustainability goals influence purchasing decisions. Demand is technology-driven rather than cost-driven. Replacement and system upgrade projects sustain ongoing demand. North America remains a mature yet innovation-focused market.

Europe

Europe represents around 20% of the Brine Concentration Minerals Market, shaped by sustainability and regulatory compliance. Environmental regulations strongly influence brine disposal and mineral recovery practices. Industrial water treatment plants increasingly adopt concentration technologies. Chemical processing industries use recovered minerals as feedstock. Circular economy initiatives support resource recovery from industrial brine. Desalination-linked mineral recovery is gaining traction. Energy efficiency requirements shape technology selection. Advanced membrane systems are widely preferred. Industrial wastewater reuse drives consistent demand. Infrastructure modernization supports new installations. Cross-border industrial operations strengthen regional demand. Agricultural demand for potassium derivatives supports mineral recovery. Research-driven innovation improves process optimization. Compliance with discharge standards accelerates adoption. Europe prioritizes environmental performance over volume extraction. The market shows stable, regulation-driven growth.

Germany Brine Concentration Minerals Market

Germany accounts for approximately 7% of the global Brine Concentration Minerals Market. The country’s strong chemical manufacturing base drives mineral recovery demand. Industrial water treatment systems are widely deployed. Sustainability regulations encourage brine reuse and mineral extraction. Advanced membrane technologies are commonly adopted. Chemical producers recover sodium and calcium derivatives for internal use. High efficiency and precision processing are key priorities. Research and development activities support innovation. Industrial automation improves system performance. Infrastructure upgrades drive replacement demand. Compliance with strict discharge standards influences adoption. Lithium and specialty mineral recovery projects are emerging. Industrial sustainability targets reinforce long-term demand. Germany emphasizes quality and efficiency over scale. The market remains stable and technologically advanced.

United Kingdom Brine Concentration Minerals Market

The United Kingdom represents around 5% of the Brine Concentration Minerals Market. Industrial brine management projects support steady demand. Water reuse initiatives play a central role in adoption. Chemical processing plants recover minerals for operational efficiency. Desalination-linked recovery remains limited but growing. Regulatory focus on wastewater reduction supports implementation. Infrastructure refurbishment drives replacement demand. Membrane-based systems dominate installations. Cost-performance balance influences purchasing decisions. Import-based equipment supply supports the market. Industrial sustainability programs encourage mineral recovery. Potassium and sodium derivatives dominate recovered minerals. Adoption is more project-driven than volume-driven. Research partnerships support pilot-scale projects. Growth remains moderate but consistent. The UK market focuses on compliance and efficiency.

Asia-Pacific 

Asia-Pacific leads the Brine Concentration Minerals Market with a 36% share. Rapid industrialization drives large-scale brine generation. Desalination capacity expansion supports mineral recovery. Lithium extraction for battery supply chains is a major growth driver. Agricultural demand supports potassium derivative recovery. Cost-effective production enables high-volume operations. Industrial water reuse initiatives are expanding rapidly. Infrastructure development increases adoption. Membrane and hybrid systems are widely implemented. Government policies support resource efficiency. Chemical manufacturing drives steady mineral demand. Urbanization increases water treatment requirements. Technology adoption varies across countries. Large-scale projects dominate demand patterns. Asia-Pacific serves as a global production hub. The region strongly influences global market dynamics.

Japan Brine Concentration Minerals Market

Japan accounts for approximately 6% of the Brine Concentration Minerals Market. High-efficiency membrane systems dominate installations. Industrial precision and quality standards shape adoption. Chemical and electronics industries drive mineral recovery demand. Space constraints favor compact concentration systems. Energy-efficient technologies receive priority. Advanced R&D supports selective mineral extraction. Lithium recovery projects remain limited but growing. Industrial water reuse is strongly regulated. Reliability and consistency are key purchasing criteria. Capital investment focuses on system optimization. Import and domestic technologies coexist. Sustainability goals influence technology upgrades. Demand volumes are moderate but value-driven. Japan emphasizes performance over scale. The market remains innovation-led and stable.

China Brine Concentration Minerals Market

China represents approximately 18% of the global Brine Concentration Minerals Market, making it the largest single-country contributor. Massive industrial activity generates significant brine volumes. Lithium extraction for battery manufacturing is a major driver. Large-scale desalination plants support mineral recovery. Chemical manufacturing consumes recovered sodium and magnesium derivatives. Cost efficiency supports high-volume adoption. Domestic technology development improves system performance. Infrastructure expansion sustains long-term demand. Agricultural fertilizer demand supports potassium recovery. Environmental regulations are strengthening gradually. Industrial water reuse policies encourage adoption. Export-oriented manufacturing increases capacity utilization. Hybrid concentration systems are increasingly deployed. Replacement demand grows with installed base expansion. China significantly influences global supply-demand balance.

Middle East & Africa 

Middle East & Africa account for approximately 20% of the Brine Concentration Minerals Market. Large-scale desalination infrastructure drives brine generation. Mineral recovery is integrated with water production facilities. Sodium and calcium derivatives dominate recovered minerals. Water scarcity strongly supports reuse initiatives. Government-led infrastructure projects fuel demand. Energy availability supports energy-intensive processes. Industrial diversification increases mineral recovery applications. Import-based technology supply dominates the region. Environmental regulations promote brine management solutions. Capital-intensive projects define market growth. Hybrid and thermal systems are widely used. Agricultural mineral demand supports potassium recovery. Adoption is project-driven rather than continuous. Long-term desalination expansion sustains growth. The region remains infrastructure-led and resource-focused.

List of Top Brine Concentration Minerals Companies

• Olokun Minerals (U.S.)
• Albemarle Corporation (U.S.)
• Ganfeng Lithium Group Co Ltd (China)
• Arcadium Lithium (Ireland)
• ICL Industrial Products (Israel)
• SQM S. A. (Chile)
• SEALEAU (Netherlands)
• Konoshima Chemical Co., LTD (Japan)
• Solvay (Belgium)
• Magrathea (U.S.)

Top Two Companies by Market Share

• Albemarle Corporation: 17% Market Share
• SQM S. A.: 14% Market Share

Investment Analysis and Opportunities

nvestment activity in the Brine Concentration Minerals Market is increasingly directed toward expanding mineral extraction and concentration capacity across industrial facilities. Companies are allocating capital to upgrade brine concentration infrastructure to improve recovery efficiency and operational reliability. Significant investments are being made in membrane-based technologies to enhance mineral selectivity and reduce energy consumption. Lithium-focused brine projects attract strong financial interest due to growing battery and energy storage demand. Strategic partnerships between mineral producers and technology providers strengthen long-term supply chains. Industrial desalination plants are integrating mineral recovery systems as part of sustainability initiatives. Investments in zero-liquid-discharge systems are rising to meet regulatory requirements. Automation and digital monitoring technologies are being funded to optimize process control. 

New Product Development

New product development in the Brine Concentration Minerals Market focuses on improving recovery efficiency and mineral purity through technological innovation. Manufacturers are developing advanced membrane materials with higher resistance to fouling and chemical degradation. Selective ion recovery systems are being designed to target high-value minerals such as lithium and magnesium. Energy-efficient concentration solutions are prioritized to reduce operational costs. Hybrid systems combining evaporation and membrane technologies are gaining attention. Modular product designs allow scalability across different facility sizes. Enhanced durability extends equipment lifecycle and lowers maintenance requirements. Custom-engineered solutions address application-specific mineral compositions. Smart monitoring features are being integrated to optimize performance.

Five Recent Developments (2023–2025)

• Expansion of lithium brine extraction projects
• Introduction of high-selectivity membrane systems
• Integration of brine concentration with desalination plants
• Investment in zero-liquid-discharge technologies
• Development of hybrid evaporation-membrane solutions

Report Coverage of Brine Concentration Minerals Market

The Brine Concentration Minerals Market Report offers an in-depth and structured assessment of the global market landscape. It presents a detailed overview of industry fundamentals influencing mineral recovery from brine streams. The report analyzes key market dynamics, including drivers, restraints, opportunities, and challenges affecting growth patterns. Comprehensive segmentation analysis covers mineral types and application areas with clear market share insights. Regional outlook evaluation highlights performance across major geographic markets and key countries. The competitive landscape section examines leading companies and their strategic positioning. Investment analysis identifies capital flow trends and expansion priorities. The report reviews technological advancements shaping brine concentration processes. Sustainability and regulatory considerations impacting market adoption are assessed. Supply chain structure and operational frameworks are examined in detail. Emerging trends and innovation pathways are highlighted for future planning. Overall, the report supports data-driven strategic and investment decision-making in the Brine Concentration Minerals Market.

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