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Green valves emerge as a new growth driver, while low-carbon technologies propel industrial upgrades.

Driven by the "Dual Carbon" strategy, green and low-carbon practices have become the core direction for innovation and development in the valve industry. Energy-efficient, low-emission valve products are rapidly gaining traction, with the related market expected to surpass 30 billion yuan by 2025—representing a robust 27% year-on-year growth and emerging as the industry's new engine for expansion.

Release date:

2021-11-12

 Driven by the "Dual Carbon" strategy, green and low-carbon practices have become the core direction for innovation and development in the valve industry. Energy-efficient, low-emission valve products are rapidly gaining traction, with the related market expected to surpass 30 billion yuan by 2025—representing a robust 27% year-on-year growth and emerging as the industry's new engine for expansion. ​

 Material innovation is the core enabler driving the development of green valves: The application of rare-earth magnesium alloy spheroidizing technology has boosted valve body strength by 30% while simultaneously reducing carbon emissions. Meanwhile, low-carbon stainless steel materials, optimized through tailored alloy compositions, have slashed their carbon footprint by 40% compared to conventional materials—and are now widely used in municipal heating networks.  

Structural optimization delivers remarkable energy-saving benefits: For instance, quick-disconnect shut-off valves featuring a snap-fit flange design enhance maintenance efficiency by 70%, significantly cutting down equipment downtime and associated losses. Additionally, smart flow-control valves leverage AI algorithms to dynamically adjust network pressure, leading to a 30% reduction in energy consumption for water utility systems.  

On the production front, companies are steadily establishing robust green supply chain systems. Many have achieved ISO 14001 environmental certification and are adopting clean energy solutions along with advanced recycling technologies, enabling them to cut production-related energy consumption by more than 25%.  

As applications continue to expand, green valves are increasingly integrated into national-level green projects—such as offshore wind farms, hydrogen energy initiatives, and ecological water-replenishment systems. Meanwhile, export markets are also growing rapidly, with low-carbon valve products now accounting for 15% of total exports.  

Industry analysts predict that, as environmental regulations tighten and green energy sectors accelerate, valve manufacturers equipped with cutting-edge low-carbon technologies will gain a significant competitive edge in the market.

The pneumatic pressure regulating valve is a pressure-balanced type, featuring cage-guided operation and a dual-seal design. It is equipped with a multi-spring pneumatic diaphragm actuator, which boasts a compact height, lightweight construction, and easy installation.

2020-04-28

Causes and Prevention of Flashing and Cavitation in Control Valves

Flash vaporization occurs when a non-compressible fluid, after being throttled through a control valve, experiences a drop in static pressure—from the vena contracta section all the way to the valve outlet—until the pressure equals or falls below the fluid’s saturation vapor pressure at the valve inlet temperature. This causes partial liquid evaporation, resulting in a two-phase mixture of gas and liquid downstream of the valve. The onset of flash vaporization leads to a point where the liquid flow no longer increases with further pressure drops, triggering choked flow conditions. Additionally, flash vaporization generates a gas-liquid two-phase flow, with both gas and liquid simultaneously flowing through the valve trim and downstream piping, causing erosion. A distinctive feature of this phenomenon is that the valve trim develops a smooth, polished appearance.

2020-04-28

Design and Selection of Low-Noise Control Valves

Most noise in control valves occurs with compressible fluids, as some of the energy is converted into sound during the throttling process. A common rule of thumb for estimation is this: if the product of the Cv value and the inlet pressure exceeds 1,000, the control valve will generate significant noise under critical pressure drop conditions.

2020-04-28

China's valve industry has become an essential component in the production processes of numerous industries.

In recent years, China's valve industry has entered a period of rapid growth, with the barriers to entry in the sector steadily rising. Today, it has become one of Asia's largest valve manufacturing hubs.

2022-07-28

Energy-saving control valve: A Path Toward Lower Energy Consumption

Employing control valves with a low pressure-drop ratio helps reduce the proportion of the valve's pressure drop relative to the system’s total pressure loss, thereby lowering energy consumption. As a result, designing control valves with a low pressure-drop ratio has become one of the key development directions—while another promising avenue is the adoption of low-impedance control valves, such as butterfly valves or eccentric rotary valves. Additionally, self-operated control valves are gaining traction; for instance, directly utilizing the downstream medium’s pressure to create a self-regulating control system, leveraging the controlled medium’s own energy to maintain precise pressure regulation downstream.

2022-01-10

Green valves emerge as a new growth driver, while low-carbon technologies propel industrial upgrades.

2021-11-12

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