Progressing Cavity Pump Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2021-2031

The Global Progressing Cavity Pump Market is projected to expand from USD 7.31 Billion in 2025 to USD 10.54 Billion by 2031, reflecting a compound annual growth rate of 6.29%. Functioning as a type of positive displacement pump, a progressing cavity pump utilizes a helical rotor rotating within a double-threaded stator to generate discrete cavities that consistently convey fluids through the unit. This market growth is chiefly underpinned by the urgent requirement for effective wastewater treatment systems and sustained demand from the oil and gas industry for machinery capable of processing viscous, abrasive, or shear-sensitive substances. Additionally, the mining sector plays a substantial role in this expansion, as these pumps are indispensable for moving high-solids slurries in harsh operational settings.

Despite these positive catalysts, the market confronts obstacles such as fluctuations in raw material costs and geopolitical tensions, which can suppress industrial capital expenditure. Indicative of these wider sector difficulties, VDMA reported that German pump exports amounted to 3.06 billion euros in 2024, representing a 4.9% decrease relative to the prior year. This contraction in a primary manufacturing center highlights the considerable difficulty of sustaining market momentum amidst unstable global demand, a factor that could hinder the continued growth of the progressing cavity pump industry.

Market Drivers

The expansion of global water and wastewater treatment infrastructure acts as the primary driver for the progressing cavity pump market, driven by the technology's effectiveness in managing thickened sludge and shear-sensitive flocculants. Both municipal and industrial entities are increasingly upgrading aging plants with these positive displacement pumps to handle high-viscosity waste streams that centrifugal options cannot adequately process. This modernization is especially prominent in rapidly industrializing areas where government expenditure is increasing to achieve urbanization goals; for example, the Ministry of Water Resources reported in December 2024 that China invested a record high of 1.35 trillion yuan in water conservancy facilities during the year, directly stimulating the need for dependable sludge handling machinery.

Furthermore, rising demand for artificial lift and enhanced oil recovery significantly strengthens market dynamics, as operators increasingly depend on progressing cavity pumps to move abrasive fluids and heavy crude containing suspended solids. These pumps are essential for maximizing production in mature fields with depleted natural reservoir pressure, providing a low-shear method that avoids emulsification during extraction. This intensification of production is vital as global energy needs rise; according to the International Energy Agency's "Oil Market Report - December 2024," global oil supply is expected to increase by 1.9 million barrels per day in 2025, creating a need for durable artificial lift systems. This sector-wide expansion is reflected in Sulzer’s 2024 performance, where order intake for its Flow division rose by 6.3% in the first half of the year, highlighting a robust environment for capital expenditure in fluid engineering technologies.

Market Challenges

Geopolitical instability and the volatility of raw material prices act as significant obstacles that suppress industrial investment, thereby severely limiting the expansion of the Global Progressing Cavity Pump Market. When global trade relationships become tense or unpredictable, capital-intensive industries such as mining, oil and gas, and chemical processing - which depend heavily on these pumps for moving viscous fluids - tend to adopt a more conservative approach. This uncertainty frequently results in the delay or termination of large-scale infrastructure initiatives and facility modernizations. Moreover, variable costs for key materials like steel and elastomers complicate manufacturers' ability to set competitive prices and hinder end-users from budgeting accurately, leading to a direct reduction in procurement activity.

This deceleration in industrial operations is corroborated by recent statistics from the wider machinery industry, which reflect the specific downturn in demand for pumps. According to the VDMA (Mechanical Engineering Industry Association), German machinery exports decreased by 6.0% in nominal terms in December 2024 compared to the same month in the preceding year. This drop underscores a continuing weakness in the global demand for capital goods, which directly affects the progressing cavity pump sector by lowering the quantity of new equipment being installed in critical industrial applications.

Market Trends

The integration of the Industrial Internet of Things (IIoT) and smart monitoring systems is fundamentally transforming the progressing cavity pump market by evolving maintenance approaches from reactive to predictive. Operators are increasingly installing sensors within pump housings to track vital metrics like stator temperature, vibration, and discharge pressure in real-time. This connectivity enables the early identification of dry-running situations or elastomer wear, substantially lowering unplanned downtime in continuous process sectors such as oil and gas. The commercial significance of this digital transition is clear in the financial results of major market players leveraging the demand for intelligent fluid management; for instance, Franklin Electric’s "Second Quarter 2025 Earnings Report" noted that sales in its Energy Systems segment rose by 6% to $77.5 million, a growth driven by increased market interest in smarter solutions and automation.

Additionally, the emergence of even-wall and spiral stator geometries aimed at higher efficiency is increasing in popularity as industries strive to optimize energy usage and manage higher pressures within smaller footprints. In contrast to traditional designs with variable elastomer thickness, even-wall stators utilize a uniform elastomer contour that guarantees consistent heat dissipation and minimizes swelling, thereby prolonging service life and enabling higher rotational speeds. This technological advancement is especially crucial in the water treatment industry, where maintaining exact flow rates for filtration and dosing is mandatory. Demonstrating the strong momentum for such efficient processing technologies, Wilo reported in its "Annual Report 2024" (July 2025) that its water purification solutions segment achieved above-average growth of 16%, indicating the quickening adoption of high-efficiency fluid handling systems in vital environmental applications.

Key Players Profiled in the Progressing Cavity Pump Market

• NOV Inc.
• NETZSCH Group
• SEEPEX
• CIRCOR International, Inc.
• Schlumberger
• PCM Group
• Sulzer Ltd.
• ChampionX Corporation
• Roto Pumps Ltd.
• Wilo SE

Report Scope

In this report, the Global Progressing Cavity Pump Market has been segmented into the following categories:

Progressing Cavity Pump Market, by Power Capacity:

• Up to 500 GPM
• 501 GPM - 1000 GPM
• Above 1000 GPM

Progressing Cavity Pump Market, by Application:

• Oil Gas
• Water Wastewater Management
• Food Beverages
• Chemicals Petrochemicals
• Others

Progressing Cavity Pump Market, by Power Rating:

• Below 50 HP
• 51 HP - 150 HP
• Above 150 HP

Progressing Cavity Pump Market, by Region:

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

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the Global Progressing Cavity Pump Market.

Available Customization

The analyst offers customization according to your specific needs. The following customization options are available for the report:

• Detailed analysis and profiling of additional market players (up to five).

This product will be delivered within 1-3 business days.