Energy efficient
Running smoothly
Easy to install and maintain
Energy efficient
Running smoothly
Easy to install and maintain
Product features: It is widely used in the field of circulating water in steel mills, circulating water in power plants and blast furnace water supply.
◇High efficiency and energy saving: Because the specific speed is located in the high-efficiency area of the centrifugal pump, it is more efficient than the single-suction pump.
◇Stable operation: Because of the double suction structure and special volute, the axial radial force is automatically eliminated, making the operation stable.
◇Easy installation and maintenance: The horizontal inlet and outlet and the structure with coupling make installation and maintenance convenient and easy to operate.
Flow range: 64.4~11600m3/h Head range: ≤180m Working pressure: ≤2.5MPa (different materials are required) Medium temperature: -20℃~+120℃ (a cooling device is required for higher than 100℃) Speed: 2950r/min, 1480r/min, 980r/min, 730r/min, 600r/min, 495r/min
Capacity |
65--11600m3/h |
Head |
7--200m |
Medium temperature |
-20℃--105℃ |
Maximum pressure |
≤25bar |
BPO(L) series single-stage double-suction centrifugal pumps are designed to meet the liquid transfer needs in a variety of industrial and commercial applications. Due to the double-suction structure, the pump can effectively absorb liquids in natural suction or lower pressure inlet pipes, which makes the BPO (L) series centrifugal pumps particularly suitable for applications that require liquids to be sucked from deep wells or long distances. The single-stage double-suction design helps reduce the axial force of the pump, thereby reducing vibration and noise during operation. This series of pumps can be used to transport various corrosive liquids, such as acids, alkali and other highly corrosive media. Its high-quality materials and corrosion-resistant design ensure the long-term stable operation of the pump. BPO(L) series centrifugal pumps can be used for the transmission of liquid media such as crude oil and refined oil. Its efficient and stable performance can ensure the continuity and safety of the oil production process.
Shanghai Bangpu Industrial Group Co., Ltd. is a large group enterprise specializing in R & D and manufacturing all kinds of fluid transmission equipment in China. Since its establishment, the group has implemented diversified operation, with pumps, valves, energy-saving motors and complete sets of water supply and drainage equipment as its basic business, and the production, sales, import and export business of sewage treatment, environmental protection equipment and related accessories as its extension.
Shanghai Bangpu as China Custom Double Centrifugal Pump Suppliers and OEM/ODM BPO(L) series single-stage double-suction centrifugal pump Company, it produces a variety of products with complete specifications. Its main products include frequency conversion and constant pressure water supply equipment, pipe network laminated water supply equipment, box-type laminated water supply equipment, remote monitoring system, water pumps and various electrical control equipment.
Since its establishment, through continuous competition with other complete sets of secondary water supply equipment manufacturers and continuous self-accumulation, the company has won the height of end users in terms of core technology, differentiated design customization, quality consistency assurance, and continuous and stable recognized.
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Read moreOptimize hydraulic design:
Improved impeller design: Optimize the shape, angle and number of impeller blades through computer-aided fluid dynamics (CFD) analysis to reduce fluid loss and increase pump efficiency.
Optimized pump casing design: Design a pump casing shape that is more in line with fluid dynamics to improve the flow of fluid in the pump and reduce vortex and turbulence.
Using new materials:
Choose high-performance materials: such as stainless steel, alloy steel or composite materials to increase the strength and wear resistance of the pump and extend its service life.
Lightweight design: Use lightweight materials to reduce the weight of the pump while maintaining sufficient strength and rigidity to improve the efficiency of pump transportation and installation.
Innovative sealing technology:
Improved mechanical seal design: Use a more advanced mechanical seal structure to improve sealing performance and reduce the risk of leakage.
Introducing a leak-free design: By optimizing the structure and materials, a leak-free design of the pump body is achieved to improve the safety and reliability of the pump.
Intelligent control system:
Introducing frequency conversion control technology: adjusting the pump speed through the frequency converter to achieve precise flow control and energy-saving operation.
Integrated intelligent monitoring system: real-time monitoring of pump operating status, temperature, pressure and other parameters to achieve fault diagnosis and early warning functions.
Energy saving technology:
Improve pump efficiency: Reduce pump energy consumption and improve energy utilization efficiency by optimizing design and material selection.
Introduce energy-saving mode: Design multiple operating modes to adapt to energy-saving needs under different working conditions.
Modular design:
Adopt modular design: Each component of the pump is designed into a detachable and replaceable module, which facilitates repair and replacement of components and reduces maintenance costs.
Standardized design: Through standardized design, the versatility and interchangeability of parts can be achieved, production efficiency can be improved and costs can be reduced.
Experimental verification and continuous improvement:
Establish an experimental verification platform: By building an experimental platform, the performance of the pump is actually tested to verify the design effect and optimize it.
Continuous improvement: Based on test results and customer needs, continue to improve product design and technical solutions to improve pump performance and reliability.
These technical means and innovations can help BPO (L) series single-stage double-suction centrifugal pump manufacturers improve the fluid dynamic performance of the pump, meet the diverse needs of customers, and enhance market competitiveness.
Efficient hydraulic design:
Through fluid mechanics simulation analysis, the internal flow channel design of the pump body is optimized to reduce the energy loss of the fluid in the pump.
Precisely matched impeller and pump casing for optimal hydrodynamic performance.
material selection:
Choose lightweight, high-strength materials to make the pump body to reduce the weight of the pump, thereby reducing energy consumption during startup and operation.
Use corrosion-resistant and wear-resistant materials to extend the service life of the pump and reduce the frequency of repairs and replacements.
Motor efficiency optimization:
Choose a high-efficiency and energy-saving motor, such as a motor with IE3 or higher energy efficiency rating.
The motor and pump are accurately matched to avoid the phenomenon of ""big horse and small cart"" and ensure that the motor operates at the optimal efficiency point.
Intelligent control system:
Introduce intelligent control equipment such as frequency converters to adjust the pump speed and flow rate according to actual needs to avoid unnecessary energy consumption.
Integrated energy consumption monitoring and data analysis system can monitor the energy consumption of the pump in real time and provide data support for optimized operation.
Manufacturing process optimization:
Advanced manufacturing techniques and processing equipment are used to ensure the processing accuracy and assembly quality of the pump and reduce energy consumption losses caused by manufacturing errors.
Quality control standards are strictly implemented to ensure that each pump meets the design requirements of high efficiency and low energy consumption.
Operation and Maintenance:
Provide regular maintenance and upkeep services to ensure that the pump maintains good performance during operation.
Train users to use and maintain the pump correctly to avoid increased energy consumption due to improper operation.
innovating:
Continuously invest resources in research and development, explore new energy-saving technologies and materials, and continue to improve pump performance and efficiency.
Cooperate with universities, research institutions, etc. to jointly promote technological progress in energy conservation and emission reduction in the pump industry.
Green supply chain management:
Promote the concept of green procurement and green production in the supply chain to ensure that energy consumption and carbon emissions in each link of the supply chain are effectively controlled.
Establish long-term and stable cooperative relationships with suppliers to jointly promote the realization of energy conservation and emission reduction goals.