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로터리 펌프 시장 : 구동 유형별, 펌프 유형별, 소재별, 최종 사용자별 - 예측(2026-2032년)

Rotary Pump Market by Drive Type, Pump Type, Material, End User - Global Forecast 2026-2032

발행일: | 리서치사: 구분자 360iResearch | 페이지 정보: 영문 181 Pages | 배송안내 : 1-2일 (영업일 기준)

    
    
    




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한글목차
영문목차

로터리 펌프 시장은 2032년까지 연평균 복합 성장률(CAGR) 5.66%로 성장할 전망이며, 122억 8,000만 달러 규모로 확대될 것으로 예측됩니다.

주요 시장 통계
기준 연도 : 2025년 83억 5,000만 달러
추정 연도 : 2026년 86억 9,000만 달러
예측 연도 : 2032년 122억 8,000만 달러
CAGR(%) 5.66%

로터리 펌프 시장 요약 보고서

로터리 펌프 시장은 석유 및 가스, 화학, 상하수도, 식품 및 음료, 제약, 선박, 발전 및 일반 제조업 분야에서 점도가 높고, 연마성이 있으며, 전단에 민감하고, 정밀한 계량이 필요한 유체를 이송해야 할 필요성에 힘입어 성장하고 있습니다. 용적식 펌프 기술인 로터리 펌프(기어 펌프, 스크류 펌프, 베인 펌프, 로브 펌프, 프로그레시브 캐비티 펌프, 로터리 진공 펌프 등)은 안정적인 유량, 높은 흡입 능력, 그리고 변동하는 압력 조건 하에서도 신뢰성 높은 성능이 요구되는 상황에서 여전히 없어서는 안 될 존재입니다.

로터리 펌프 업계의 혁신적인 변화

로터리 펌프 분야에서는 설비의 교체 주기에서 성능 중심의 자산 현대화로 점차 전환되고 있습니다. 최종 사용자들은 예기치 못한 가동 중지 시간을 줄이고, 더 가혹한 유체에 대응하며, 변동하는 공정 조건 하에서도 효율적으로 작동하는 펌프를 우선적으로 선택하고 있습니다. 이러한 변화에 따라, 개량된 금속 소재, 첨단 코팅, 공회전 보호 기능, 기계식 씰의 업그레이드, 가변 속도 구동과의 호환성을 갖춘 공학적으로 설계된 로터리 펌프가 주목받고 있습니다.

인공지능이 로터리 펌프에 미치는 누적 영향

인공지능(AI)은 설계 및 선정부터 운전, 유지보수에 이르기까지 로터리 펌프의 전체 수명 주기에 걸쳐 누적적인 가치를 창출하고 있습니다. AI를 활용한 사이징 도구는 유체의 점도, 증기압, 흡입 조건, 듀티 사이클 및 재료의 적합성을 수동 선정 워크플로우보다 더 일관성 있게 비교할 수 있습니다. 엔지니어링 분야에서는 머신러닝이 계산 해석을 지원함으로써, 부피 효율 향상, 맥동 저감 및 부품 수명 연장으로 이어지는 설계 패턴을 파악할 수 있습니다.

로터리 펌프 수요에 대한 주요 지역별 분석

아시아태평양은 제조업, 석유화학, 조선, 전자, 광업 및 수자원 인프라에 대한 투자가 집중되어 있어 로터리 펌프의 주요 수요처로 자리 잡고 있습니다. 중국, 인도, 일본, 한국, 호주 및 아세안(ASEAN) 국가들에서는 화학 처리, 폐수 처리, 식품 생산, 에너지 시스템 등 폭넓은 분야에서 기어 펌프, 스크류 펌프, 로브 펌프, 프로그레시브 캐비티 펌프, 진공 펌프에 대한 다양한 수요가 뒷받침되고 있습니다. 산업 생산 능력의 확대, 도시 인프라 수요, 그리고 물·위생 분야에 대한 공공 투자로 인해 해당 지역의 시설 개보수 및 신규 설치 기회는 계속해서 확대되고 있습니다.

아세안(ASEAN), GCC, EU, 브릭스(BRICS), G7, 나토(NATO)의 주요 그룹 분석

인도네시아, 베트남, 태국, 말레이시아, 필리핀 및 인근 국가들에서 제조업 이전, 식품 가공, 화학, 전자, 수자원 인프라가 확대되는 가운데, 아세안(ASEAN)은 로터리 펌프 시장의 강력한 성장 축으로 부상하고 있습니다. 특히, 비용 경쟁력과 내식성, 유지보수의 용이성, 안정적인 서비스 지원, 그리고 변화하는 생산 환경에 대한 적응성을 모두 갖춘 펌프에 대한 수요가 호조를 보이고 있습니다.

로터리 펌프 시장의 주요 국가 분석

미국은 화학 플랜트, 정유시설, 셰일 관련 인프라, 식품 가공업체, 제약 시설 및 도시 상수도 시스템이 다수 존재하기 때문에 로터리 펌프 시장의 주요 시장으로 자리 잡고 있습니다. 캐나다에서는 오일샌드, 광업, 수처리, 폐수 처리 시설 개보수 및 산업용 유지보수 분야 수요가 더해지고 있습니다. 한편, 멕시코는 제조업의 확대, 자동차 공급망, 니어쇼어링 활동, 그리고 공정 산업에 대한 투자의 혜택을 누리고 있습니다. 브라질의 비즈니스 기회는 석유 및 가스, 광업, 펄프·제지, 에탄올, 농업 가공, 그리고 상수도 인프라 현대화와 관련이 있습니다.

업계 리더를 위한 실천적인 제안

업계의 리더는 단가 경쟁보다 라이프사이클 가치를 우선시해야 합니다. 로터리 펌프 제조업체는 에너지 감사, 적절한 펌프 선정, 가변 속도 구동 장치의 통합, 씰 시스템의 최적화, 그리고 문서화된 총 소유 비용(TCO) 제시를 통해 시장 내 입지를 강화할 수 있습니다. 이러한 기능들은 전력 소비량, 유지보수 비용, 누출 위험 및 공정 가동 중단 시간의 감축이라는 최종 사용자의 목표와 직접적으로 부합합니다.

조사 방법

본 요약본은 2차 조사, 1차 검증 및 분석적 삼각측량법을 결합한 체계적인 조사 기법에 기초하여 작성되었습니다. 2차 자료에는 연차 보고서, 투자자 대상 프레젠테이션 자료, 제품 문서, 규제 관련 간행물, 무역 데이터, 에너지 효율에 관한 지침, 업계 단체의 자료, 그리고 국제에너지기구(IEA), 미국 에너지부, 세계은행, OECD, 유로스타트, 각국 통계 기관 등 공공 기관이 제공하는 공개 데이터 세트가 포함됩니다.

결론

로터리 펌프 시장은 정확하고 신뢰성이 높으며 효율적인 유체 이송이 필요한 핵심 산업 공정에 필수적이기 때문에 장기적으로 지속적인 중요성을 유지할 것으로 전망됩니다. 이러한 성장은 인프라 투자, 공정 산업의 현대화, 폐수 처리 확대, 에너지 전환 관련 용도, 그리고 모터 구동 시스템의 최적화 수요에 힘입어 이루어지고 있습니다.

자주 묻는 질문

  • 로터리 펌프 시장의 규모와 성장률은 어떻게 예측되나요?
  • 로터리 펌프 시장의 주요 수요처는 어디인가요?
  • 로터리 펌프 업계의 혁신적인 변화는 무엇인가요?
  • 인공지능이 로터리 펌프에 미치는 영향은 무엇인가요?
  • 로터리 펌프 시장의 주요 국가들은 어디인가요?
  • 로터리 펌프 시장에서 업계 리더를 위한 제안은 무엇인가요?

목차

제1장 서문

제2장 조사 방법

제3장 주요 요약

제4장 시장 개요

제5장 시장 인사이트

제6장 AI의 누적 영향(2026년)

제7장 로터리 펌프 시장 : 구동 방식별

제8장 로터리 펌프 시장 : 펌프 유형별

제9장 로터리 펌프 시장 : 소재별

제10장 로터리 펌프 시장 : 최종 사용자별

제11장 로터리 펌프 시장 : 지역별

제12장 로터리 펌프 시장 : 그룹별

제13장 로터리 펌프 시장 : 국가별

제14장 경쟁 구도

제15장 기업 개요

AJY 26.06.30

The Rotary Pump Market is projected to grow by USD 12.28 billion at a CAGR of 5.66% by 2032.

KEY MARKET STATISTICS
Base Year [2025] USD 8.35 billion
Estimated Year [2026] USD 8.69 billion
Forecast Year [2032] USD 12.28 billion
CAGR (%) 5.66%

Rotary Pump Market Executive Summary

The rotary pump market is anchored by the need to move viscous, abrasive, shear-sensitive, and precisely metered fluids across oil & gas, chemicals, water and wastewater, food & beverage, pharmaceuticals, marine, power generation, and general manufacturing. As positive displacement pump technology, rotary pumps, including gear pumps, screw pumps, vane pumps, lobe pumps, progressive cavity pumps, and rotary vacuum pumps, remain essential where stable flow, high suction capability, and reliable performance under varying pressure conditions are required.

Demand is supported by verified industrial trends: the International Energy Agency identifies electric motors as a dominant source of industrial electricity use, while the U.S. Department of Energy and the Hydraulic Institute have long highlighted pumping systems as a major opportunity for energy savings in industrial facilities. This makes pump efficiency, lifecycle cost, predictive maintenance, and seal reliability central purchasing criteria rather than secondary engineering considerations.

Market momentum is also shaped by stricter process safety requirements, wastewater treatment expansion, refinery and petrochemical modernization, and the growth of hygienic processing in food and pharmaceutical applications. Buyers are increasingly evaluating rotary pumps not only on flow rate and pressure, but also on total cost of ownership, materials compatibility, cleanability, digital monitoring capability, emissions control, and compliance with regional efficiency and safety standards.

Transformative Shifts in the Rotary Pump Landscape

The rotary pump landscape is shifting from equipment replacement cycles toward performance-led asset modernization. End users are prioritizing pumps that reduce unplanned downtime, handle more demanding fluids, and operate efficiently across variable process conditions. This shift favors engineered rotary pump designs with improved metallurgy, advanced coatings, dry-running protection, mechanical seal upgrades, and variable-speed drive compatibility.

Industrial decarbonization is accelerating this transition. Because pumps are part of motor-driven systems, energy-efficient pump selection, right-sizing, and system optimization are increasingly tied to corporate emissions targets and operating cost reduction. Regulatory pressure in Europe, efficiency programs in North America, and energy conservation initiatives in Asia-Pacific are pushing OEMs to offer higher-efficiency packages and lifecycle services.

Supply chain resilience is another defining shift. Manufacturers and end users are diversifying sourcing of castings, precision components, elastomers, and electronic controls after recent logistics disruptions. At the same time, demand for application-specific pumps is rising in specialty chemicals, lithium processing, biofuels, hydrogen infrastructure, and high-purity pharmaceutical manufacturing, creating opportunities for suppliers that can combine customization with reliable delivery.

Cumulative Impact of Artificial Intelligence on Rotary Pumps

Artificial intelligence is creating cumulative value across the rotary pump lifecycle, from design and selection to operation and service. AI-enabled sizing tools can compare fluid viscosity, vapor pressure, suction conditions, duty cycle, and material compatibility more consistently than manual selection workflows. In engineering, machine learning can support computational analysis by identifying design patterns that improve volumetric efficiency, reduce pulsation, and extend component life.

The most immediate impact is in predictive maintenance. Rotary pumps often provide measurable early-warning signals through vibration, temperature, pressure ripple, acoustic emissions, current signature, and flow deviation. AI models trained on these condition-monitoring signals can help detect bearing wear, cavitation, seal degradation, misalignment, and dry-running risk before failure. This is particularly valuable in continuous-process industries where pump downtime can interrupt entire production lines.

AI adoption is also improving aftermarket models. OEMs and service providers are using remote monitoring, digital twins, and automated work-order recommendations to shift from reactive repair to performance-based service. However, success depends on clean sensor data, cybersecurity governance, accurate failure histories, and integration with plant maintenance systems. The cumulative impact is a more service-oriented rotary pump market in which uptime, efficiency, and verified performance analytics become key differentiators.

Key Regional Insights for Rotary Pump Demand

Asia-Pacific is a major demand engine for rotary pumps due to its concentration of manufacturing, petrochemicals, shipbuilding, electronics, mining, and water infrastructure investment. China, India, Japan, South Korea, Australia, and ASEAN economies support diverse demand for gear pumps, screw pumps, lobe pumps, progressive cavity pumps, and vacuum pumps across chemical processing, wastewater treatment, food production, and energy systems. Industrial capacity expansion, urban infrastructure needs, and public investment in water and sanitation continue to strengthen the region's replacement and new-installation opportunities.

North America benefits from mature but high-value demand in oil & gas, refining, specialty chemicals, water utilities, pharmaceuticals, and food processing. The United States and Canada emphasize reliability, energy efficiency, and compliance with safety and environmental standards, while Mexico's manufacturing integration with North American supply chains supports demand for industrial pumping equipment in automotive, chemicals, and general industry. Latin America is driven by mining, oil production, agribusiness, water treatment, and industrial modernization, with Brazil and Mexico acting as major demand centers where corrosion resistance, serviceability, and lifecycle cost remain critical procurement factors.

Europe remains a technology-led region where energy efficiency, emissions reduction, hygienic design, and regulatory compliance shape procurement decisions across chemicals, pharmaceuticals, water utilities, food processing, and advanced manufacturing. The Middle East continues to rely on rotary pumps in hydrocarbons, petrochemicals, desalination, fuel handling, and district cooling, where operation in high-temperature and corrosive environments is essential. Africa presents long-term opportunities linked to mining, water access, energy development, wastewater upgrades, and food-processing capacity, with demand often shaped by ruggedness, ease of maintenance, and availability of local service support.

Key Group Insights Across ASEAN, GCC, EU, BRICS, G7, and NATO

ASEAN is emerging as a strong rotary pump growth corridor as manufacturing relocation, food processing, chemicals, electronics, and water infrastructure expand across Indonesia, Vietnam, Thailand, Malaysia, the Philippines, and neighboring economies. Demand is particularly favorable for pumps that combine cost competitiveness with corrosion resistance, easy maintenance, stable service support, and compatibility with variable production environments.

The GCC remains a high-value market due to oil & gas production, refining, petrochemical integration, desalination, and large-scale infrastructure programs. Rotary screw pumps, gear pumps, and specialty positive displacement pumps are used in fuel transfer, lubrication, chemical dosing, wastewater treatment, and process applications where reliability in high-temperature, saline, and corrosive environments is critical. The European Union is shaped by energy-efficiency regulation, circular economy objectives, water-quality standards, and advanced manufacturing requirements, making it a premium market for efficient, digitally enabled, hygienic, and compliant pump systems.

BRICS countries collectively represent scale, infrastructure expansion, energy development, mining activity, industrial diversification, and public investment in utilities, supporting broad use of rotary pumps across heavy industry and process applications. G7 markets emphasize advanced automation, strict quality standards, lower lifecycle emissions, and aftermarket service, raising demand for high-performance pump packages with digital monitoring and documented efficiency benefits. NATO-linked demand is influenced by defense readiness, fuel logistics, naval systems, base infrastructure, water resilience, and secure energy supply chains, supporting specialized rotary pump requirements in mission-critical environments.

Key Country Insights in the Rotary Pump Market

The United States is a leading rotary pump market due to its large base of chemical plants, refineries, shale infrastructure, food processors, pharmaceutical facilities, and municipal water systems. Canada adds demand from oil sands, mining, water treatment, wastewater upgrades, and industrial maintenance, while Mexico benefits from manufacturing expansion, automotive supply chains, nearshoring activity, and process industry investment. Brazil's opportunities are linked to oil & gas, mining, pulp and paper, ethanol, agribusiness processing, and water infrastructure modernization.

In Europe, the United Kingdom emphasizes water utilities, offshore energy, food processing, pharmaceuticals, and specialty manufacturing. Germany remains a center for high-performance industrial equipment, chemicals, automotive production, and advanced process automation, while France supports demand through pharmaceuticals, water, food, energy, and industrial processing. Italy and Spain contribute strong demand from food & beverage, machinery, wastewater, chemicals, and energy applications. Russia's rotary pump demand is tied to oil & gas, mining, power generation, and heavy industry, although procurement patterns are affected by sanctions, localization requirements, and supply constraints.

China is central to global rotary pump demand because of its manufacturing scale, chemical capacity, electronics sector, municipal infrastructure, and energy investments. India is expanding through chemicals, refining, water treatment, pharmaceuticals, food processing, and manufacturing policy initiatives. Japan and South Korea emphasize precision, reliability, shipbuilding, semiconductors, chemicals, batteries, and energy systems. Australia's demand is led by mining, water management, LNG, wastewater treatment, and industrial processing, creating opportunities for rugged pumps suited to remote operations and abrasive fluids.

Actionable Recommendations for Industry Leaders

Industry leaders should prioritize lifecycle value over unit-cost competition. Rotary pump manufacturers can strengthen market position by offering energy audits, correct pump sizing, variable-speed drive integration, seal system optimization, and documented total cost of ownership. These capabilities align directly with end-user goals to reduce electricity use, maintenance cost, leakage risk, and process downtime.

OEMs should expand digital and service capabilities through condition monitoring, remote diagnostics, predictive maintenance contracts, and installed-base analytics. Building interoperable platforms that connect with plant asset management systems will improve customer retention and create recurring aftermarket revenue. Suppliers should also invest in application engineering for high-growth niches such as battery materials, biofuels, specialty chemicals, hydrogen-related fluids, carbon-management infrastructure, and hygienic processing.

Resilience is equally important. Companies should dual-source critical components, localize service inventory near major industrial clusters, and document compliance with regional standards. Strategic partnerships with motor, drive, sensor, and automation providers can help deliver complete pump packages rather than standalone equipment, improving differentiation in competitive bids.

Research Methodology

This executive summary is developed using a structured research methodology that combines secondary research, primary validation, and analytical triangulation. Secondary inputs include annual reports, investor presentations, product documentation, regulatory publications, trade data, energy-efficiency guidance, industry association materials, and public datasets from recognized institutions such as the International Energy Agency, U.S. Department of Energy, World Bank, OECD, Eurostat, and national statistical agencies.

Primary research typically includes discussions with pump manufacturers, distributors, system integrators, maintenance providers, procurement professionals, and end users across major application sectors. These interviews help validate demand drivers, technology adoption, pricing behavior, supply constraints, maintenance practices, and regional purchasing priorities.

Findings are triangulated across demand-side indicators, end-use industry investment trends, installed-base replacement cycles, import-export patterns, regulatory developments, and competitive intelligence. The methodology emphasizes data verification, consistency checks, and market relevance to ensure that insights reflect real purchasing behavior and measurable industrial trends rather than unsupported assumptions.

Conclusion

The rotary pump market is positioned for sustained long-term relevance because it serves core industrial processes that require accurate, reliable, and efficient fluid movement. Growth is supported by infrastructure investment, process industry modernization, wastewater expansion, energy transition applications, and the need to optimize motor-driven systems.

Competitive advantage will increasingly depend on efficiency, application expertise, digital monitoring, service responsiveness, and the ability to support demanding fluids and operating environments. Suppliers that combine engineered pump performance with lifecycle services and verifiable data-driven value will be best positioned to capture demand across mature and emerging markets.

As industries balance productivity, sustainability, and resilience, rotary pumps will remain a critical component of industrial fluid handling strategies worldwide.

Table of Contents

1. Preface

  • 1.1. Objectives of the Study
  • 1.2. Market Definition
  • 1.3. Market Segmentation & Coverage
  • 1.4. Years Considered for the Study
  • 1.5. Currency Considered for the Study
  • 1.6. Language Considered for the Study
  • 1.7. Key Stakeholders

2. Research Methodology

  • 2.1. Introduction
  • 2.2. Research Design
    • 2.2.1. Primary Research
    • 2.2.2. Secondary Research
  • 2.3. Research Framework
    • 2.3.1. Qualitative Analysis
    • 2.3.2. Quantitative Analysis
  • 2.4. Market Size Estimation
    • 2.4.1. Top-Down Approach
    • 2.4.2. Bottom-Up Approach
  • 2.5. Data Triangulation
  • 2.6. Research Outcomes
  • 2.7. Research Assumptions
  • 2.8. Research Limitations

3. Executive Summary

  • 3.1. Introduction
  • 3.2. CXO Perspective
  • 3.3. Market Size & Growth Trends
  • 3.4. Market Share Analysis, 2025
  • 3.5. FPNV Positioning Matrix, 2025
  • 3.6. New Revenue Opportunities
  • 3.7. Next-Generation Business Models
  • 3.8. Industry Roadmap

4. Market Overview

  • 4.1. Introduction
  • 4.2. Industry Ecosystem & Value Chain Analysis
    • 4.2.1. Supply-Side Analysis
    • 4.2.2. Demand-Side Analysis
    • 4.2.3. Stakeholder Analysis
  • 4.3. Market Dynamics
    • 4.3.1. Key Drivers
    • 4.3.2. Key Restraints
    • 4.3.3. Key Opportunities
    • 4.3.4. Key Challenges
  • 4.4. Porter's Five Forces Analysis
  • 4.5. PESTLE Analysis
  • 4.6. Market Outlook
    • 4.6.1. Near-Term Market Outlook (0-2 Years)
    • 4.6.2. Medium-Term Market Outlook (3-5 Years)
    • 4.6.3. Long-Term Market Outlook (5-10 Years)
  • 4.7. Go-to-Market Strategy

5. Market Insights

  • 5.1. Consumer Insights & End-User Perspective
  • 5.2. Consumer Experience Benchmarking
  • 5.3. Opportunity Mapping
  • 5.4. Distribution Channel Analysis
  • 5.5. Pricing Trend Analysis
  • 5.6. Regulatory Compliance & Standards Framework
  • 5.7. ESG & Sustainability Analysis
  • 5.8. Disruption & Risk Scenarios
  • 5.9. Return on Investment & Cost-Benefit Analysis

6. Cumulative Impact of Artificial Intelligence 2026

7. Rotary Pump Market, by Drive Type

  • 7.1. Diesel Engine
  • 7.2. Electric
    • 7.2.1. AC Motor
    • 7.2.2. DC Motor
  • 7.3. Hydraulic
    • 7.3.1. Closed Loop
    • 7.3.2. Open Loop

8. Rotary Pump Market, by Pump Type

  • 8.1. Gear Pump
    • 8.1.1. External Gear Pump
    • 8.1.2. Internal Gear Pump
  • 8.2. Lobe Pump
  • 8.3. Piston Pump
  • 8.4. Screw Pump
  • 8.5. Vane Pump
    • 8.5.1. Fixed Vane Pump
    • 8.5.2. Variable Vane Pump

9. Rotary Pump Market, by Material

  • 9.1. Alloy Steel
  • 9.2. Bronze
  • 9.3. Cast Iron
    • 9.3.1. Ductile Iron
    • 9.3.2. Grey Iron
  • 9.4. Plastic
    • 9.4.1. PTFE
    • 9.4.2. PVC
  • 9.5. Stainless Steel

10. Rotary Pump Market, by End User

  • 10.1. Chemical & Petrochemical
    • 10.1.1. Chemical
    • 10.1.2. Petrochemical
  • 10.2. Food & Beverage
    • 10.2.1. Bakery
    • 10.2.2. Beverage
    • 10.2.3. Dairy
  • 10.3. Oil & Gas
  • 10.4. Pharmaceutical
    • 10.4.1. Biopharma
    • 10.4.2. Generic
  • 10.5. Power Generation
    • 10.5.1. Hydro
    • 10.5.2. Nuclear
    • 10.5.3. Thermal
  • 10.6. Pulp & Paper
    • 10.6.1. Kraft
    • 10.6.2. Tissue
  • 10.7. Water & Wastewater
    • 10.7.1. Industrial
    • 10.7.2. Municipal

11. Rotary Pump Market, by Region

  • 11.1. Asia-Pacific
  • 11.2. North America
  • 11.3. Latin America
  • 11.4. Europe
  • 11.5. Middle East
  • 11.6. Africa

12. Rotary Pump Market, by Group

  • 12.1. ASEAN
  • 12.2. GCC
  • 12.3. European Union
  • 12.4. BRICS
  • 12.5. G7
  • 12.6. NATO

13. Rotary Pump Market, by Country

  • 13.1. United States
  • 13.2. Canada
  • 13.3. Mexico
  • 13.4. Brazil
  • 13.5. United Kingdom
  • 13.6. Germany
  • 13.7. France
  • 13.8. Russia
  • 13.9. Italy
  • 13.10. Spain
  • 13.11. China
  • 13.12. India
  • 13.13. Japan
  • 13.14. Australia
  • 13.15. South Korea

14. Competitive Landscape

  • 14.1. Market Concentration Analysis, 2025
    • 14.1.1. Concentration Ratio (CR)
    • 14.1.2. Herfindahl Hirschman Index (HHI)
  • 14.2. Recent Developments & Impact Analysis, 2025
  • 14.3. Product Portfolio Analysis, 2025
  • 14.4. Benchmarking Analysis, 2025

15. Company Profiles

  • 15.1. Alfa Laval AB
  • 15.2. Atlas Copco AB
  • 15.3. Busch SE
  • 15.4. Colfax Corporation
  • 15.5. DESMI A/S
  • 15.6. Dover Corporation
  • 15.7. Flowserve Corporation
  • 15.8. Gardner Denver Holdings, Inc.
  • 15.9. IDEX Corporation
  • 15.10. Ingersoll Rand Inc.
  • 15.11. ITT Inc.
  • 15.12. Kirloskar Brothers Limited
  • 15.13. KSB SE & Co. KGaA
  • 15.14. Leistritz AG
  • 15.15. Netzsch Pumpen & Systeme GmbH
  • 15.16. PCM SA
  • 15.17. Pentair plc
  • 15.18. Pfeiffer Vacuum Technology AG
  • 15.19. Roper Technologies, Inc.
  • 15.20. Roto Pumps Limited
  • 15.21. Seepex GmbH
  • 15.22. SPX Flow, Inc.
  • 15.23. Sulzer Ltd.
  • 15.24. Tuthill Corporation
  • 15.25. Verder International B.V.
  • 15.26. Xylem Inc.
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