High-Low Pressure Fracturing Manifold Solutions_Jiangsu Jinshi Machinery Group Co., Ltd.

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Wellhead & Tree (Oil/Gas)

Integrated Wellhead Solutions

Ultra-High Pressure 175MPa/210MPa Wellhead and Tree (Gas) Solution

Intelligent / Unmanned Platform Wellhead and Tree (Oil and Gas) Solution

Integrated Injection-Production Wellhead Solution

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High-Low Pressure Fracturing Manifold Solutions

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Choke and Kill Manifold Solution

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Precision Pressure Control Manifold Solution

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Products & Services
Providing safe, reliable and efficient technical
solutions for the global energy sector
Wellhead & Tree (Oil/Gas) Fracturing Support Products Choke and Kill Manifolds Oilfield Site Services
High-Low Pressure Fracturing Manifold Solutions

High-Low Pressure Fracturing Manifold Solution

High-Low Pressure Fracturing Manifold Solution
Innovative high and low pressure integrated skid-mounted design integrates low-pressure distribution and high-pressure converging manifolds. Centered on optimized structural layout and precise pressure-bearing design, the modular architecture adapts to diverse fracturing media, saves wellsite space, realizes rapid equipment movement and installation, and improves fracturing operation efficiency and equipment turnover rate.
Product Advantages

Integrated Combined Structure: Integrates high and low pressure manifolds, reducing connection points, improving site utilization efficiency and system stability.

Excellent High-Pressure Bearing Capacity: The high-pressure section is designed with a pressure of up to 175MPa, adapting to extreme fracturing working conditions and ensuring safe operation of equipment.

Large-Bore Low-Pressure Distribution: 8"~15" large-bore design ensures efficient distribution of fracturing fluid to meet large-scale fracturing needs.

Enhanced Corrosion and Erosion Resistance: Critical parts are overlay welded with corrosion-resistant alloy and wear-resistant cemented carbide to extend equipment service life.

Convenient Modular Construction: Standardized modules facilitate quick assembly, disassembly, and movement, reducing operation preparation costs.

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Multi-Channel Fracturing Pressure Reduction Manifold Solution

Multi-Channel Fracturing Pressure Reduction Manifold Solution
Adopts a multi-channel parallel architecture, integrating multiple independent control choke valve channels. Through independent switching of throttling channels, stable step-by-step pressure reduction of high-pressure fluid is achieved. When a single channel fails, the backup channel can be quickly switched to ensure continuous blowout operations. High redundancy and wear resistance adapt to harsh working conditions of sand-containing fluids.
Product Advantages

Multi-Channel Redundancy Architecture: Backup channels can be switched immediately when the main channel fails, ensuring uninterrupted blowout operations after fracturing.

Multiple Throttling Methods: Can be configured with needle-type, cylindrical-type, manual, and hydraulic choke valves to accurately match different pressure reduction needs.

Multi-Stage Stable Pressure Reduction: Step-by-step pressure reduction design avoids pressure mutations and impact damage, protecting the safety of downstream equipment.

Strong Erosion-Resistant Structure: Critical flow channels are made of wear-resistant materials, adapting to high sand-containing working conditions and extending component service life.

Modular for Easy Maintenance: Supports quick installation, disassembly, and maintenance, reducing operation and maintenance difficulty and time costs.

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Blowdown Manifold Solution

Blowdown Manifold Solution
Specially designed for fracturing flowback operations, it adopts a dual-channel redundant structure and multi-stage throttling pressure reduction strategy, with strong sand wear resistance and erosion resistance. It supports remote hydraulic control, reducing on-site personnel operations and safety risks, ensuring safe discharge of fracturing flowback fluid and sand-containing fluid and orderly pressure management.
Product Advantages

Dual-Channel Redundancy: Two independent throttle channels are mutually backup, ensuring continuous flowback operations and improving operational efficiency.

Full Remote Control: Hydraulic system realizes safe remote opening and closing, reducing on-site personnel operations and safety risks.

Multi-Stage Throttling Structure: Progressive throttling structure reduces pressure step by step, protecting wellheads and downstream equipment from pressure impact.

High Wear-Resistant Flow Channels: Uses cemented carbide materials to significantly improve sand wear resistance and extend equipment service life.

Rapid Emergency Response: Hydraulic actuators have high-speed response capabilities to quickly respond to sudden situations and ensure safety.

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