China Standard Zw-3.7/0.05-3 Mixed Gas Recovery Gas Compressor Compressed Natural Gas, Nitrogen, Ammonia, Hydrogen, Bog, Alkanes and Other Gases with High Quality

Product Description

The China Standard Zw-3.7/0.05-3 Mixed Gas Recovery Gas Compressor is a highly advanced piston compressor unit manufactured using the product technology of Mannes Mandermarg Company in Germany. It is designed for the pressurized transmission of various gases, including compressed natural gas, nitrogen, ammonia, hydrogen, bog, alkanes, and more.

The compressor is primarily used in the natural gas industry for pressurized transmission into the pipeline network, such as natural pipeline gas extraction and combustible gas recovery tank filling. However, it also finds applications in other industries, such as pharmaceutical and brewing for stirring, chemical industry for pressurized gas transportation, food industry for blow molding bottle making, and machine manufacturing industry for parts dust removal.

Product Features

• Low noise and low vibration
• Compact structure and smooth operation
• Safety and reliability
• High automation level
• Possible configuration with a data-driven remote display and control system
• Equipped with alarm and shutdown functions for enhanced reliability

Structure Introduction

The unit consists of a compressor host, electric motor, coupling, flywheel, pipeline system, cooling system, electrical equipment, and auxiliary equipment.

Reference Technical Parameters and Specifications

All content of this page is from the Internet

Performance Characteristics of Bog Compressor

1. Efficient Energy Conversion

Bog compressors are known for their ability to convert energy efficiently. They utilize advanced technology to minimize energy loss during compression, resulting in optimal performance and reduced energy consumption.

2. Precise Pressure Control

One of the key features of Bog compressors is their ability to maintain precise pressure control. This ensures that the gas is compressed to the desired level, meeting specific requirements for various applications.

3. Robust and Reliable

Bog compressors are designed to be durable and reliable, capable of withstanding harsh operating conditions. They are built with high-quality materials and undergo rigorous testing to ensure long-term performance and minimal downtime.

Types and Characteristics of Bog Compressor

1. Reciprocating Compressors

Reciprocating Bog compressors are known for their high efficiency and compact design. They are suitable for applications requiring low to moderate compression ratios and are ideal for small to medium-sized operations.

2. Centrifugal Compressors

Centrifugal Bog compressors are preferred for high-pressure applications. They offer excellent reliability and are capable of handling large volumes of gas efficiently. Their design allows for smooth operations and minimal maintenance requirements.

Advantages of Bog Compressor Materials

1. Stainless Steel

Bog compressors made of stainless steel offer excellent corrosion resistance and durability. They are ideal for applications where the compressor comes into contact with corrosive substances.

2. Aluminum

Aluminum Bog compressors are lightweight and have good heat dissipation properties. They are suitable for applications where weight and thermal management are crucial factors.

Application of Bog Compressor

Bog compressors find extensive use in various fields, including:

1. Gas Dehydration and Processing

Bog compressors play a vital role in removing moisture from gas and processing it for further use.

2. Gas Compression and Boosting

They are used for compressing and boosting gas to meet specific pressure requirements in different processes.

3. Gas Lift Operations

Bog compressors are utilized in gas lift operations to enhance oil production by injecting gas into the wellbore.

4. Flare Gas Recovery

Bog compressors aid in capturing and compressing flare gas, reducing wastage and environmental impact.

5. Wellhead Compression

They are employed for compressing gas at the wellhead to optimize production and maintain pressure levels.

Future Development Trends and Opportunities

As the demand for efficient gas compression solutions continues to grow, there are several future trends and opportunities for Bog compressor products:

1. Advancements in Technology

Ongoing technological advancements will lead to more innovative and efficient Bog compressor designs, resulting in improved performance and reduced energy consumption.

2. Increased Focus on Sustainability

There is a growing emphasis on sustainable practices in the industry, driving the development of eco-friendly Bog compressor solutions that minimize environmental impact.

3. Integration of IoT and Automation

The integration of Internet of Things (IoT) and automation technologies will enable enhanced monitoring, control, and predictive maintenance of Bog compressors, increasing efficiency and reducing downtime.

Choosing a Suitable Bog Compressor

When selecting a Bog compressor, consider the following aspects:

1. Clear Requirements

Define your specific compression needs, including pressure and flow rate requirements, to choose a compressor that meets your exact specifications.

2. Material Selection

Based on the operating conditions and gas composition, select a compressor made of a suitable material to ensure longevity and reliability.

3. Design Optimization

Look for compressors with optimized designs that enhance efficiency, minimize energy consumption, and reduce maintenance requirements.

4. Suppliers and After-Sales Service

Choose a reputable supplier who can provide reliable products and comprehensive after-sales service to ensure long-term support and assistance.

5. Cost-Effectiveness

Consider the overall cost-effectiveness of the compressor, including initial investment, operational costs, and potential energy savings.

6. Quality Control

Ensure that the compressor undergoes stringent quality control measures to guarantee its performance, reliability, and adherence to industry standards.

Author: Dream

NO.	MODEL	Compressed Medium	Flow Rate (Nm³/h)	Inlet Pressure (MPa)	Outlet Pressure (MPa)	Rotating Speed (r/min)	Motor Power (KW)	Cooling Mode	Overall Dimension (mm)	Weight (Kg)
1	DW-14/(0-0.2)-25	Raw Gas	800	0-0.02	2.5	740	160	Water Cooled	4800*3200*1915	~10000
2	VW-8/18	Vinylidene Fluoride Gas	418	Atmospheric Pressure	1.8	980	75	Water Cooled	3700*2000*1700	~4500
3	VWD-3.2/(0-0.2)-40	Biogas	230	0-0.2	4.0