Subsea Pumps Market: Global Industry Analysis (2022-2029) by Type, Application, and Region

Subsea Pumps Market size was valued at USD 1.98 Bn. in 2021 and the total Subsea Pumps revenue is expected to grow at 11.5% from 2022 to 2029, reaching nearly USD 4.73 Bn.

Subsea Pumps Market Overview:

Subsea processing is a developing technology that has the potential to unleash huge amounts of hydrocarbon resources in response to ultra-deep water hydrocarbon extraction. The use of subsea processing technology in deep water hydrocarbon fields offers several advantages such as improving environmental and safety performance, reducing host platform size and weight, enabling field management remotely, increasing total hydrocarbon recovery throughout field life, and accelerating production, allowing hydrocarbons to be generated from deeper and more difficult settings, which were previously not possible. As a result, industrial-standard subsea processing technologies are replacing conventional techniques in the development of offshore hydrocarbon resources. A subsea pump is distinguished from a typical topside pump by the need for protection against the hydrostatic column. As a result, the pump housing and electric motor must be encased in a common pressure-containing vessel that contains the following components: pressure housing, pump cartridge, electrical-motor cartridge, high-voltage penetrators, and a barrier-fluid system. Subsea pumps supply mechanical energy to the generated fluid to compensate for pressure losses in pipelines; hence, subsea pumping systems are frequently utilized to improve oil recovery, enhance production rate, and extend field life. Growing energy demand has resulted in significant offshore production expenditure, which is expected to drive the global subsea pumps market. The discovery of economically viable offshore hydrocarbon resources is expected to boost global market growth during the forecast period. Subsea pumps are anticipated to be in high demand throughout the forecast period due to reduced operating costs and time due to handling of generated water close to the production site. The benefits of subsea pumps, such as increased oil and gas recovery, greater net present value (NPV), cost savings on surface production facilities, and decreased hydrate formation inflow lines, are expected to drive global market growth. Subsea Pumps MarketTo know about the Research Methodology :- Request Free Sample Report

Subsea Pumps Market Dynamics:

Subsea Pumping Technology acts as a cost-effective alternative to umbilical-delivered subsea chemical injection

Subsea Pumping Technology provides a feasible alternative to umbilical-delivered subsea chemical injection. The system minimizes or eliminates topside storage, pumping, and delivery systems, as well as the interface resources associated with topside chemical storage, bunkering, and handling. Moving the equipment to the seafloor and situating it locally to the point(s) of need can result in several efficiencies. Chemical product tanks are refilled by tank exchange or by filling from a support vessel down line (s). Using modular, off-the-shelf, and scalable equipment to suit chemical storage and injection needs provides considerable benefits. When compared to conventional umbilical systems performing the same work, not only are costs and lead times reduced but the systems may also be deployed from a multi-service vessel, removing the need for a huge intervention vessel. Once deployed, chemical product tanks are supplied by tank exchange or filled from a support vessel down line (s). The technique is compatible with all electric systems and designs, and the overall cross-section and complexity of the needed field service umbilical may be greatly reduced. Additionally, the local storage and injection idea is a powerful facilitator for longer underwater tiebacks, where chemical supply and distribution to the field(s) is difficult and costly via lengthy and/or numerous umbilical sections.  

Increased water depth and external pressure reduce Subsea Pumps' feasibility

Subsea pressure containers with enormous diameters, such as gravity separators, have been utilized in shallow water where external hydrostatic pressure has little influence. However, as sea depth and external pressure grow, their feasibility in deep water decreases since thick wall designs are often required, making such pressure vessels difficult and expensive to construct and install. Other forms of pressure vessel equipment, such as subsea transformers, variable speed drives (VSDs), and switchgear, face similar challenges. Adopting a pressure compensation-based design that balances the pressure differential is one viable answer. Several manufacturers are collaborating on such an approach.  

The energy and cost required to create a new SPRS technology are relatively significant

The criteria for subsea monitoring and control systems have gotten increasingly stringent as the complexity of the equipment on the bottom has grown. This involves increasing bandwidth, real-time monitoring, rapid control response, automating processing equipment, and designing safety systems/equipment. Subsea sensor technology for measuring generated water quality is quite new and crucial. Light scattering is now the sole technique in use, however alternative sensor technologies are being explored. The effort and cost of creating a new SPRS technology are still relatively considerable. Long-term and complicated certification processes are required to show the technology readiness levels (TRLs) of both components and the system as a whole. The verification and validation approach used might have an impact on project cost and timeline. Standardizing and improving technology qualification procedures may reduce costs.

Subsea Pumps Market Segment Analysis:

By Type, the Helico-axial segment held the largest revenue share in 2021 and is expected to dominate the market at the end of the forecast period. The extensive usage of helicon-axial subsea pumps in oil and gas production operations driving the segment growth during the forecast period. Helico-axial pump technology is the most frequently used technique for multiphase fluid bottom pumping to date. By carefully balancing centrifugal and Coriolis forces within the impellers, as well as the axial direction through the pump, helical-axial impellers and diffusers are intended to avoid phase separation. Because the impellers are unshrouded, some of the flow will pass between the impeller tip and the static surface, from the pressure side to the suction side of the impeller blade. Because of their high clearances relative to particle sizes and the possibility of coating vital components, helical-axial pumps are sand tolerant by design. Subsea Pumps Market Helico-axial multiphase pumps are cutting-edge technology that has gained widespread acceptance among oil operators. They are suitable for a wide range of application situations and operational environments. They open up new possibilities for onshore and offshore field development, and they are ideally suited to high flow rates or subsea applications. They provide major economic benefits as well as operational freedom to the operator. This technique is currently used to produce very big fields. At IFP, new potential applications are presently being developed. These advancements make use of the most recent experimental and computational methodologies to provide the oil sector with creative and efficient products. By Application, the Subsea boosting segment is expected to dominate the market at the end of the forecast period as this segment held the largest market share in 2021. Subsea boosting minimizes the need for insulation and hydrate management, and it requires substantially less topside modification and area than gas lift. However, it can permit smaller flowlines, lowering Capex even further. Continuous technological advancements and better production procedures have enabled the creation of a cost-effective, standardized subsea boosting system for pressures up to 15,000 psi [1,034 bar]. OneSubsea's high-reliability technologies boost overall uptime, minimize pigging, alleviate slugging, reduce well intervention frequency, and save OPEX. Subsea boosting can have a significant impact when incorporated into the initial planning thus, manufacturers are showing interest in this segment. By optimizing the system structure, chemical injection method, number of wells, and drainage design, significant savings and environmental advantages may be gained. IOR is often the primary driver of subsea boosting in an established oil field. There is little to gain from improving hardware, but there may be a lot to gain from rejuvenating weak or dead wells, in addition to operational and environmental savings. Subsea Pumps Market Subsea boosting is often utilized to enhance recovery, but in other circumstances, such as very lengthy tiebacks, it may be the enabling element; without it, it would be impossible to flow the needed distance. A gas lift may assist in lifting fluids from the well, but it may not be capable of transporting them over long distances to the host facility, or it may simply be unavailable. In addition, Subsea boosting devices reduce the need to rely solely on reservoir drive. Cutting wellhead pressures improves reservoir drainage or recovery by 5%-50%, lowering the cost per barrel of oil. These subsea systems raise flow rates by 20%-200%, increasing early income, lowering the cost of incremental oil production to USD 1-10/bbl, improving NPV, shortening the time to repay the investment, and more. Accelerated production also reduces the time necessary to recover the producible amount of hydrocarbons, lowering the required field life, as well as the related cost and environmental effect.

Subsea Pumps Market Regional Insights:

North American market dominated the market in 2021 with the highest market share and is expected to maintain its dominance at the end of the forecast period. The world population began to rise at an exponential rate in the mid-nineteenth century, when the oil industry began to flourish in the United States, eventually becoming one of the most profitable businesses in the world. The continual progress of deepwater oil and gas production in North America is generating significant growth in the subsea pumps market throughout the forecast period. The Gulf of Mexico (GOM) is a typical ocean region for deepwater hydrocarbon exploration. The United States has the most productive drilling rigs in the Gulf of Mexico (GOM), which is driving the subsea pump market. Europe has a large ocean area, and nations such as Norway, the United Kingdom, Germany, Denmark, Sweden, and the Netherlands are principally engaged in offshore operations in the North Sea, increasing demand for the subsea pump industry. Oil output in Europe is increasing in response to rising electrical demand. This is one of the most important elements driving the market growth. Increasing expenditures in research and development (R&D) initiatives to improve temperature and pressure monitoring, reduce environmental footprint, and manage the flow of subsea pumps are also driving the market growth. However, the emergence of the coronavirus illness (COVID-19), a manpower shortage, and a drop in offshore oil and gas development operations are restricting the market growth. Subsea Pumps Market The Asia Pacific has experienced the fastest growth in the economy of all regions of the world over the last decade. Because of increasing energy consumption and rapid economic development, the area is becoming more reliant on oil and gas imports. Because of this reliance, governments have chosen a multifaceted strategy to ensure energy security. Key efforts include increasing domestic oil and gas output through development in unconventional production, such as offshore production, which is expected to drive the Asia Pacific subsea pumps market during the forecast period. Developing countries like China and India have witnessed significant growth due to low oil prices and offshore activity in China and oil & gas import & export activities. Additionally, growing industrialization, urbanization, and rising energy consumption in the countries drive market growth. To fulfill this energy demand, the region's onshore and offshore exploration and production activities are expected to increase. The Latin America region is expected to grow significantly in the global subsea pump industry during the forecast period. Rising investments in the construction of oil and gas industry infrastructure are expected to be major factors driving growth in this area. Brazil is predicted to be the most significant market in this area due to increased investments and government backing to improve the country. A stable political climate in Brazil will attract further investments, making it a very advantageous market for subsea pumps throughout the forecast period.

Subsea Pumps Market Scope: Inquire before buying

Subsea Pumps Market
Report Coverage Details
Base Year: 2021 Forecast Period: 2022-2029
Historical Data: 2017 to 2021 Market Size in 2021: US $ 1.98 Bn.
Forecast Period 2022 to 2029 CAGR: 11.5% Market Size in 2029: US $ 89.37 Bn.
Segments Covered: by Type • Helico-axial • Centrifugal • Hybrid Pump • Co-axial • Twin Screw • Electrical Submersible Pump
by Application • Subsea Separation • Subsea Injection • Subsea Boosting • Subsea Compression

Subsea Pumps Market, by Region

• North America • Europe • Asia Pacific • Middle East & Africa • South America

Subsea Pumps Market Key Players

• Flowserve Corporation • Leistritz Pumpen Gmbh • Framo as • Kerui Group Co., Ltd • General Electric Company • Onesubsea • Sulzer AG • SPX Corporation • Aker Solutions • Baker Hughes Incorporated • FMC Technologies, Inc. • RongSheng Machinery Manufacture LTD. • ITT Bornemann • Hayward Tyler Group Plc. • National Oilwell Varco • Oceaneering International • TechnipFMC plc. • Schlumberger Limited • Oceaneering International Inc • Halliburton Company Frequently Asked Questions: 1. Which region has the largest share in Global Subsea Pumps Market? Ans: North America region holds the highest share in 2021. 2. What is the growth rate of Global Subsea Pumps Market? Ans: The Global Subsea Pumps Market is growing at a CAGR of 11.5% during forecasting period 2022-2029. 3. What is scope of the Global Subsea Pumps market report? Ans: Global Subsea Pumps Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period. 4. Who are the key players in Global Subsea Pumps market? Ans: The important key players in the Global Subsea Pumps Market are – Flowserve Corporation, Leistritz Pumpen Gmbh, Framo as, Kerui Group Co., Ltd, General Electric Company, Onesubsea, Sulzer AG, SPX Corporation, Aker Solutions, Baker Hughes Incorporated, FMC Technologies, Inc., RongSheng Machinery Manufacture LTD., ITT Bornemann, Hayward Tyler Group Plc., National Oilwell Varco, Oceaneering International, TechnipFMC plc., Schlumberger Limited, Oceaneering International Inc, and Halliburton Company. 5. What is the study period of this market? Ans: The Global Subsea Pumps Market is studied from 2021 to 2029.
1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary: Global Subsea Pumps Market Size, by Market Value (US$ Mn) and Volume (Units) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7Industry Trends in Global Subsea Pumps Market 4.8. Patent Registration 4.9. Global Subsea Pumps Market Competitive Landscape 5. Supply Side and Demand Side Indicators 6. Global Subsea Pumps Market Analysis and Forecast 6.1. Global Subsea Pumps Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Subsea Pumps Market Analysis and Forecast, by Type 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Subsea Pumps Market Value Share Analysis, by Type 7.4. Global Subsea Pumps Market Size (US$ Mn) Forecast, by Type 7.5. Global Subsea Pumps Market Analysis, by Type 7.6. Global Subsea Pumps Market Attractiveness Analysis, by Type 8. Global Subsea Pumps Market Analysis and Forecast, by Application 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Subsea Pumps Market Value Share Analysis, by Application 8.4. Global Subsea Pumps Market Size (US$ Mn) Forecast, by Application 8.5. Global Subsea Pumps Market Analysis, by Application 8.6. Global Subsea Pumps Market Attractiveness Analysis, by Application 9. Global Subsea Pumps Market Analysis, by Region 9.1. Global Subsea Pumps Market Value Share Analysis, by Region 9.2. Global Subsea Pumps Market Size (US$ Mn) Forecast, by Region 9.3. Global Subsea Pumps Market Attractiveness Analysis, by Region 10. North America Subsea Pumps Market Analysis 10.1. Key Findings 10.2. North America Subsea Pumps Market Overview 10.3. North America Subsea Pumps Market Value Share Analysis, by Type 10.4. North America Subsea Pumps Market Forecast, by Type 10.4.1. Helico-axial 10.4.2. Centrifugal 10.4.3. Hybrid Pump 10.4.4. Co-axial 10.4.5. Twin Screw 10.4.6. Electrical Submersible Pump 10.5. North America Subsea Pumps Market Value Share Analysis, by Application 10.6. North America Subsea Pumps Market Forecast, by Application 10.6.1. Subsea Separation 10.6.2. Subsea Injection 10.6.3. Subsea Boosting 10.6.4. Subsea Compression 10.7. North America Subsea Pumps Market Value Share Analysis, by Country 10.8. North America Subsea Pumps Market Forecast, by Country 10.8.1. U.S. 10.8.2. Canada 10.9. North America Subsea Pumps Market Analysis, by Country 10.10. U.S. Subsea Pumps Market Forecast, by Type 10.10.1. Helico-axial 10.10.2. Centrifugal 10.10.3. Hybrid Pump 10.10.4. Co-axial 10.10.5. Twin Screw 10.10.6. Electrical Submersible Pump 10.11. U.S. Subsea Pumps Market Forecast, by Application 10.11.1. Subsea Separation 10.11.2. Subsea Injection 10.11.3. Subsea Boosting 10.11.4. Subsea Compression 10.12. Canada Subsea Pumps Market Forecast, by Type 10.12.1. Helico-axial 10.12.2. Centrifugal 10.12.3. Hybrid Pump 10.12.4. Co-axial 10.12.5. Twin Screw 10.12.6. Electrical Submersible Pump 10.13. Canada Subsea Pumps Market Forecast, by Application 10.13.1. Subsea Separation 10.13.2. Subsea Injection 10.13.3. Subsea Boosting 10.13.4. Subsea Compression 10.14. North America Subsea Pumps Market Attractiveness Analysis 10.14.1. By Type 10.14.2. By Application 10.15. PEST Analysis 10.16. Key Trends 10.17. Key Development 11. Europe Subsea Pumps Market Analysis 11.1. Key Findings 11.2. Europe Subsea Pumps Market Overview 11.3. Europe Subsea Pumps Market Value Share Analysis, by Type 11.4. Europe Subsea Pumps Market Forecast, by Type 11.4.1. Helico-axial 11.4.2. Centrifugal 11.4.3. Hybrid Pump 11.4.4. Co-axial 11.4.5. Twin Screw 11.4.6. Electrical Submersible Pump 11.5. Europe Subsea Pumps Market Value Share Analysis, by Application 11.6. Europe Subsea Pumps Market Forecast, by Application 11.6.1. Subsea Separation 11.6.2. Subsea Injection 11.6.3. Subsea Boosting 11.6.4. Subsea Compression 11.7. Europe Subsea Pumps Market Value Share Analysis, by Country 11.8. Europe Subsea Pumps Market Forecast, by Country 11.8.1. Germany 11.8.2. U.K. 11.8.3. France 11.8.4. Italy 11.8.5. Spain 11.8.6. Rest of Europe 11.9. Europe Subsea Pumps Market Analysis, by Country 11.10. Germany Subsea Pumps Market Forecast, by Type 11.10.1. Helico-axial 11.10.2. Centrifugal 11.10.3. Hybrid Pump 11.10.4. Co-axial 11.10.5. Twin Screw 11.10.6. Electrical Submersible Pump 11.11. Germany Subsea Pumps Market Forecast, by Application 11.11.1. Subsea Separation 11.11.2. Subsea Injection 11.11.3. Subsea Boosting 11.11.4. Subsea Compression 11.12. U.K. Subsea Pumps Market Forecast, by Type 11.12.1. Helico-axial 11.12.2. Centrifugal 11.12.3. Hybrid Pump 11.12.4. Co-axial 11.12.5. Twin Screw 11.12.6. Electrical Submersible Pump 11.13. U.K. Subsea Pumps Market Forecast, by Application 11.13.1. Subsea Separation 11.13.2. Subsea Injection 11.13.3. Subsea Boosting 11.13.4. Subsea Compression 11.14. France Subsea Pumps Market Forecast, by Type 11.14.1. Helico-axial 11.14.2. Centrifugal 11.14.3. Hybrid Pump 11.14.4. Co-axial 11.14.5. Twin Screw 11.14.6. Electrical Submersible Pump 11.15. France Subsea Pumps Market Forecast, by Application 11.15.1. Subsea Separation 11.15.2. Subsea Injection 11.15.3. Subsea Boosting 11.15.4. Subsea Compression 11.16. Italy Subsea Pumps Market Forecast, by Type 11.16.1. Helico-axial 11.16.2. Centrifugal 11.16.3. Hybrid Pump 11.16.4. Co-axial 11.16.5. Twin Screw 11.16.6. Electrical Submersible Pump 11.17. Italy Subsea Pumps Market Forecast, by Application 11.17.1. Subsea Separation 11.17.2. Subsea Injection 11.17.3. Subsea Boosting 11.17.4. Subsea Compression 11.18. Spain Subsea Pumps Market Forecast, by Type 11.18.1. Helico-axial 11.18.2. Centrifugal 11.18.3. Hybrid Pump 11.18.4. Co-axial 11.18.5. Twin Screw 11.18.6. Electrical Submersible Pump 11.19. Spain Subsea Pumps Market Forecast, by Application 11.19.1. Subsea Separation 11.19.2. Subsea Injection 11.19.3. Subsea Boosting 11.19.4. Subsea Compression 11.20. Rest of Europe Subsea Pumps Market Forecast, by Type 11.20.1. Helico-axial 11.20.2. Centrifugal 11.20.3. Hybrid Pump 11.20.4. Co-axial 11.20.5. Twin Screw 11.20.6. Electrical Submersible Pump 11.21. Rest of Europe Subsea Pumps Market Forecast, by Application 11.21.1. Subsea Separation 11.21.2. Subsea Injection 11.21.3. Subsea Boosting 11.21.4. Subsea Compression 11.22. Europe Subsea Pumps Market Attractiveness Analysis 11.22.1. By Type 11.22.2. By Application 11.23. PEST Analysis 11.24. Key Trend 11.25. Key Development 12. Asia Pacific Subsea Pumps Market Analysis 12.1. Key Findings 12.2. Asia Pacific Subsea Pumps Market Overview 12.3. Asia Pacific Subsea Pumps Market Value Share Analysis, by Type 12.4. Asia Pacific Subsea Pumps Market Forecast, by Type 12.4.1. Helico-axial 12.4.2. Centrifugal 12.4.3. Hybrid Pump 12.4.4. Co-axial 12.4.5. Twin Screw 12.4.6. Electrical Submersible Pump 12.5. Asia Pacific Subsea Pumps Market Value Share Analysis, by Application 12.6. Asia Pacific Subsea Pumps Market Forecast, by Application 12.6.1. Subsea Separation 12.6.2. Subsea Injection 12.6.3. Subsea Boosting 12.6.4. Subsea Compression 12.7. Asia Pacific Subsea Pumps Market Value Share Analysis, by Country 12.8. Asia Pacific Subsea Pumps Market Forecast, by Country 12.8.1. China 12.8.2. India 12.8.3. Japan 12.8.4. ASEAN 12.8.5. Rest of Asia Pacific 12.9. Asia Pacific Subsea Pumps Market Analysis, by Country 12.10. China Subsea Pumps Market Forecast, by Type 12.10.1. Helico-axial 12.10.2. Centrifugal 12.10.3. Hybrid Pump 12.10.4. Co-axial 12.10.5. Twin Screw 12.10.6. Electrical Submersible Pump 12.11. China Subsea Pumps Market Forecast, by Application 12.11.1. Subsea Separation 12.11.2. Subsea Injection 12.11.3. Subsea Boosting 12.11.4. Subsea Compression 12.12. India Subsea Pumps Market Forecast, by Type 12.12.1. Helico-axial 12.12.2. Centrifugal 12.12.3. Hybrid Pump 12.12.4. Co-axial 12.12.5. Twin Screw 12.12.6. Electrical Submersible Pump 12.13. India Subsea Pumps Market Forecast, by Application 12.13.1. Subsea Separation 12.13.2. Subsea Injection 12.13.3. Subsea Boosting 12.13.4. Subsea Compression 12.14. Japan Subsea Pumps Market Forecast, by Type 12.14.1. Helico-axial 12.14.2. Centrifugal 12.14.3. Hybrid Pump 12.14.4. Co-axial 12.14.5. Twin Screw 12.14.6. Electrical Submersible Pump 12.15. Japan Subsea Pumps Market Forecast, by Application 12.15.1. Subsea Separation 12.15.2. Subsea Injection 12.15.3. Subsea Boosting 12.15.4. Subsea Compression 12.16. ASEAN Subsea Pumps Market Forecast, by Type 12.16.1. Helico-axial 12.16.2. Centrifugal 12.16.3. Hybrid Pump 12.16.4. Co-axial 12.16.5. Twin Screw 12.16.6. Electrical Submersible Pump 12.17. ASEAN Subsea Pumps Market Forecast, by Application 12.17.1. Subsea Separation 12.17.2. Subsea Injection 12.17.3. Subsea Boosting 12.17.4. Subsea Compression 12.18. Rest of Asia Pacific Subsea Pumps Market Forecast, by Type 12.18.1. Helico-axial 12.18.2. Centrifugal 12.18.3. Hybrid Pump 12.18.4. Co-axial 12.18.5. Twin Screw 12.18.6. Electrical Submersible Pump 12.19. Rest of Asia Pacific Subsea Pumps Market Forecast, by Application 12.19.1. Unitized 12.19.2. Stick 12.20. Asia Pacific Subsea Pumps Market Attractiveness Analysis 12.20.1. By Type 12.20.2. By Application 12.21. PEST Analysis 12.22. Key Trend 12.23. Key Development 13. Middle East & Africa Subsea Pumps Market Analysis 13.1. Key Findings 13.2. Middle East & Africa Subsea Pumps Market Overview 13.3. Middle East & Africa Subsea Pumps Market Value Share Analysis, by Type 13.4. Middle East & Africa Subsea Pumps Market Forecast, by Type 13.4.1. Helico-axial 13.4.2. Centrifugal 13.4.3. Hybrid Pump 13.4.4. Co-axial 13.4.5. Twin Screw 13.4.6. Electrical Submersible Pump 13.5. Middle East & Africa Subsea Pumps Market Value Share Analysis, by Application 13.6. Middle East & Africa Subsea Pumps Market Forecast, by Application 13.6.1. Subsea Separation 13.6.2. Subsea Injection 13.6.3. Subsea Boosting 13.6.4. Subsea Compression 13.7. Middle East & Africa Subsea Pumps Market Value Share Analysis, by Country 13.8. Middle East & Africa Subsea Pumps Market Forecast, by Country 13.8.1. GCC 13.8.2. South Africa 13.8.3. Rest of Middle East & Africa 13.9. Middle East & Africa Subsea Pumps Market Analysis, by Country 13.10. GCC Subsea Pumps Market Forecast, by Type 13.10.1. Helico-axial 13.10.2. Centrifugal 13.10.3. Hybrid Pump 13.10.4. Co-axial 13.10.5. Twin Screw 13.10.6. Electrical Submersible Pump 13.11. GCC Subsea Pumps Market Forecast, by Application 13.11.1. Subsea Separation 13.11.2. Subsea Injection 13.11.3. Subsea Boosting 13.11.4. Subsea Compression 13.12. South Africa Subsea Pumps Market Forecast, by Type 13.12.1. Helico-axial 13.12.2. Centrifugal 13.12.3. Hybrid Pump 13.12.4. Co-axial 13.12.5. Twin Screw 13.12.6. Electrical Submersible Pump 13.13. South Africa Subsea Pumps Market Forecast, by Application 13.13.1. Subsea Separation 13.13.2. Subsea Injection 13.13.3. Subsea Boosting 13.13.4. Subsea Compression 13.14. Rest of Middle East & Africa Subsea Pumps Market Forecast, by Type 13.14.1. Helico-axial 13.14.2. Centrifugal 13.14.3. Hybrid Pump 13.14.4. Co-axial 13.14.5. Twin Screw 13.14.6. Electrical Submersible Pump 13.15. Rest of Middle East & Africa Subsea Pumps Market Forecast, by Application 13.15.1. Subsea Separation 13.15.2. Subsea Injection 13.15.3. Subsea Boosting 13.15.4. Subsea Compression 13.16. Middle East & Africa Subsea Pumps Market Attractiveness Analysis 13.16.1. By Type 13.16.2. By Application 13.17. PEST Analysis 13.18. Key Trend 13.19. Key Development 14. South America Subsea Pumps Market Analysis 14.1. Key Findings 14.2. South America Subsea Pumps Market Overview 14.3. South America Subsea Pumps Market Value Share Analysis, by Type 14.4. South America Subsea Pumps Market Forecast, by Type 14.4.1. Helico-axial 14.4.2. Centrifugal 14.4.3. Hybrid Pump 14.4.4. Co-axial 14.4.5. Twin Screw 14.4.6. Electrical Submersible Pump 14.5. Subsea Compression South America Subsea Pumps Market Value Share Analysis, by Application 14.6. South America Subsea Pumps Market Forecast, by Application 14.6.1. Subsea Separation 14.6.2. Subsea Injection 14.6.3. Subsea Boosting 14.6.4. Subsea Compression 14.7. South America Subsea Pumps Market Value Share Analysis, by Country 14.8. South America Subsea Pumps Market Forecast, by Country 14.8.1. Brazil 14.8.2. Mexico 14.8.3. Rest of South America 14.9. Brazil Subsea Pumps Market Forecast, by Type 14.9.1. Helico-axial 14.9.2. Centrifugal 14.9.3. Hybrid Pump 14.9.4. Co-axial 14.9.5. Twin Screw 14.9.6. Electrical Submersible Pump 14.10. Brazil Subsea Pumps Market Forecast, by Application 14.10.1. Subsea Separation 14.10.2. Subsea Injection 14.10.3. Subsea Boosting 14.10.4. Subsea Compression 14.11. Mexico Subsea Pumps Market Forecast, by Type 14.11.1. Helico-axial 14.11.2. Centrifugal 14.11.3. Hybrid Pump 14.11.4. Co-axial 14.11.5. Twin Screw 14.11.6. Electrical Submersible Pump 14.12. Mexico Subsea Pumps Market Forecast, by Application 14.12.1. Subsea Separation 14.12.2. Subsea Injection 14.12.3. Subsea Boosting 14.12.4. Subsea Compression 14.13. Rest of South America Subsea Pumps Market Forecast, by Type 14.13.1. Helico-axial 14.13.2. Centrifugal 14.13.3. Hybrid Pump 14.13.4. Co-axial 14.13.5. Twin Screw 14.13.6. Electrical Submersible Pump 14.14. Rest of South America Subsea Pumps Market Forecast, by Application 14.14.1. Subsea Separation 14.14.2. Subsea Injection 14.14.3. Subsea Boosting 14.14.4. Subsea Compression 14.15. South America Subsea Pumps Market Attractiveness Analysis 14.15.1. By Type 14.15.2. By Application 14.16. PEST Analysis 14.17. Key Trend 14.18. Key Development 15. Company Profiles 15.1. Market Share Analysis, by Company 15.2. Competition Matrix 15.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 15.2.2. New Product Launches and Product Enhancements 15.2.3. Market Consolidation 15.2.3.1. M&A by Regions, Investment and Applications 15.2.3.2. M&A Key Players, Forward Integration and Backward Integration 15.3. Company Profiles: Key Players 15.3.1. Flowserve Corporation 15.3.1.1. Company Overview 15.3.1.2. Financial Overview 15.3.1.3. Product Portfolio 15.3.1.4. Business Strategy 15.3.1.5. Recent Developments 15.3.1.6. Company Footprint 15.3.2. Leistritz Pumpen Gmbh 15.3.3. Framo as 15.3.4. Kerui Group Co., Ltd 15.3.5. General Electric Company 15.3.6. Onesubsea 15.3.7. Sulzer AG 15.3.8. SPX Corporation 15.3.9. Aker Solutions 15.3.10. Baker Hughes Incorporated 15.3.11. FMC Technologies, Inc. 15.3.12. RongSheng Machinery Manufacture LTD. 15.3.13. ITT Bornemann 15.3.14. Hayward Tyler Group Plc. 15.3.15. National Oilwell Varco 15.3.16. Oceaneering International 15.3.17. TechnipFMC plc. 15.3.18.Schlumberger Limited 15.3.19.Oceaneering International Inc 15.3.20.Halliburton Company 16. Primary Key Insights

About This Report

Report ID 31883
Category Energy & Power
Published Date Sept 2022
Updated Date
Contact Us