Product Description
Company Profile
ZheZheJiang nshine Industrial Technology Co., Ltd., as a professional overseas sales team and sales service team, is committed to providing customers with piston compressor and diaphragm compressor solutions. The company adheres to the concept of one-stop service and provides customers with a complete set of air compressor equipment solutions.
Product Description
Our products mainly include 2 series: piston compressors and diaphragm compressors, covering more than 30 types of products. These products are widely used in fields such as hydrogen energy, semiconductors, chemicals, petrochemicals, and natural gas transportation. We have over 3000 industrial enterprise users, covering all aspects of the hydrogen energy industry chain, including hydrogen production, filling, and hydrogen refueling station compressors, and providing a complete set of gas compression equipment solutions. As an efficient, energy-saving, environmentally friendly, and reliable compressor type, diaphragm compressors have also achieved great success and have been widely used in various fields.
Product Description:
Piston compressors are a type of positive displacement compressor that are commonly used in the chemical industry for a variety of applications. These compressors work by using a piston and cylinder to compress gas or air, which creates pressure and allows it to be transported through pipelines or used in other processes.
Diaphragm compressor :according to the needs of the user, choose the right type of compressor to meet the needs of the user. The diaphragm of the metal diaphragm compressor completely separates the gas from the hydraulic oil system to ensure the purity of the gas and no pollution to the gas. At the same time, advanced manufacturing technology and accurate membrane cavity design technology are adopted to ensure the service life of the diaphragm compressor diaphragm. No pollution: the metal diaphragm group completely separates the process gas from the hydraulic oil and lubricating oil parts to ensure the gas purity.Our compressors can compress ammonia, propylene, nitrogen, oxygen, helium, hydrogen, hydrogen chloride, argon, hydrogen chloride, hydrogen sulfide, hydrogen bromide, ethylene, acetylene, etc. (Nitrogen diaphragm compressor, bottle filling compressor, oxygen diaphragm compressor)and especially fit for all kinds of toxic radioactive corrosive compressor
In the chemical industry, piston compressors are used for a variety of functions, including:
Gas compression – Piston compressors are used to compress natural gas, hydrogen, and other gases used in chemical processes. product-list-1.html product-list-1.html
Pneumatic conveying – Piston compressors are used to transport materials in a powdered or granular form through pipelines.
Refrigeration – Piston compressors are used in refrigeration systems to compress refrigerant gases, which are then used to cool industrial processes and equipment.
Process air compression – Piston compressors are used to compress air for use in chemical processes, such as in pneumatic equipment and air-powered tools.
Piston compressors are popular in the chemical industry because they are reliable, efficient, and can handle specific types of gases and air with ease. Additionally, they require minimal maintenance and can operate at high pressures, making them suitable for many applications
When choosing a piston compressor for use in the chemical industry, it is important to consider factors such as:
Type of gas or air being compressed – Different types of gases and air require different types of compression.
Required flow rate and pressure – The capacity and pressure capabilities of the compressor must meet the requirements of the application.
Environmental conditions – Factors such as temperature, humidity, and altitude can affect the performance of the compressor.
Maintenance requirements – The frequency and complexity of maintenance and servicing should be considered when selecting a compressor.
Overall, piston compressors are an important tool in the chemical industry, providing reliable and efficient compression for a variety of applications. Choosing the right compressor for the specific application is critical to ensuring optimal performance and efficiency.
Piston compressor model:
1. Single-stage piston compressor
Single-stage piston compressor is the simplest compressor, mainly composed of cylinder, piston, crankshaft, connecting rod, valve and other components. It has the advantages of simple structure, easy maintenance and low price, so it is widely used in low-pressure air compression, nitrogen and oxygen production and other occasions. Parameters such as air output volume, air outlet pressure, and rotational speed need to be considered when selecting models.
Common models include: W-1.8/5, W-3.6/5, W-4/5, W-6/5, etc.
2. Two-stage piston compressor
A two-stage piston compressor consists of 2 compressors. The first-stage compressor compresses the gas to a higher intermediate pressure, and then is cooled by the cooler and sent to the second-stage compressor to compress it again to the final pressure. Compared with single-stage piston compressors, two-stage piston compressors have higher outlet pressure, higher efficiency, and wider application range.
Common models include: W-1/3-2/3, W-2.5/5-2.5/5, W-3/6-3.6/6, etc.
3. High-pressure piston compressor
High-pressure piston compressors are mainly used to compress high-pressure gases, such as natural gas, hydrogen, helium, etc. It has a complex structure and needs to be equipped with auxiliary equipment such as gas coolers, gas inlet filters, pressure controllers, etc. It also has the advantages of high outlet pressure, low energy consumption, and smooth operation.
Common models include: W-3/20, W-6/30, W-9/30, etc.
Introduction to the meaning of the model number of diaphragm compressor:
For example: 1G3V-300/4-15 AND GV3-310/22-62
1G3V-300/4-15 each represents as follows:
“1” means double first-class product;
“G” indicates diaphragm compressor;
“3” indicates the 3rd series of the product manufacturer’s diaphragm compressor series, and does not indicate piston force; the larger the number, the greater the piston force.
“V” means V-shaped structure.
“3V” means there are main and auxiliary connecting rods, and the crankcase is split.
“300” indicates the amount of gas the compressor handles per hour under standard conditions;
“4” means the inlet pressure is 4kg/cm2 (ie 0.4MPa);
“15” means the exhaust pressure is 15kg/cm2 (ie 1.5MPa).
GV3-310/22-62 each represents as follows:
“G” indicates diaphragm compressor;
“V” means V-shaped structure.
“3” indicates the 3rd series of the product manufacturer’s diaphragm compressor series, and does not indicate piston force; the larger the number, the greater the piston force.
“V3” is another series, indicating a side-by-side structure of connecting rods and a one-piece crankcase.
Basic information:Piston compressor model parameters:
Piston compressor model parameters | |||||||||
Piston force | 800 | 500 | 320 | 250 | 160 | 100 | 65 | 45 | 30 |
Types of compressed gas | Hydrogen, nitrogen, natural gas, ethylene, propylene, coal gas, hydrogen chloride, hydrogen fluoride, carbon dioxide, methyl chloride, carbon monoxide, acetylene ammonia, hydrogen monochloride, difluoromethane, tetrafluoroethylene, pentafluoroethylene, hexafluoroethylene, etc. | ||||||||
discharge pressureMPa(G) | <=25 | <=30 | |||||||
Compression levels | 1-4levels | 2-6levels | 1-3levels | ||||||
Number of columns | 2–4 | 2–6 | 1–4 | ||||||
Layout form/Type/Model | M/D | M/D | M/D | M/D | M/D | M/D/P | M/D/P | M/D/P | L/P |
route(mm) | 280-360 | 240-320 | 180-240 | 200 | |||||
Rotating speed(rpm) | 300-375 | 333-450 | 375-585 | 420-485 | |||||
Maximum motor power(KW) | 5600 | 3600 | 3300 | 2700 | 1250 | 800 | 560 | 250 | 75 |
skid mounted | non-skid mounted | skid mounted/non -skid mounted | |||||||
Digital Analog Computing | yes | ||||||||
systolic algorithm | yes | ||||||||
test | According to the quality standard, chemical analysis, mechanical performance, flaw detection, hydrostatic test, airtight test and other inspections are carried out for each component | ||||||||
Factory inspection | According to the quality standard, carry out no-load mechanical operation test | ||||||||
Customer acceptance | Actual working conditions, 72-hour assessment and acceptance | ||||||||
Application | Hydrogen energy, silicon, fluorine chemical industry, petrochemical industry, metallurgy, medicine, aerospace, nuclear power |
Basic information:Diaphragm compressor model parameters
Piston force | 250 | 160 | 110 | 80 | 60 | 45 | 35 | 45 | 10 |
Types of compressed gas | Hydrogen, nitrogen, oxygen, helium, xenon, hydrogen chloride, hydrogen sulfide, nitrogen trifluoride, silicon tetrafluoride, silane | ||||||||
Discharge pressureMPa(G) | <=100 | ||||||||
Compression levels | 1-3levels | ||||||||
Layout form/Type/Model | M/D | D/L | D/L/Z | V/Z | L/Z | L/Z | |||
Route(mm) | 210 | 210/1/0 | 180 | 180 | 150 | 130 | 130 | 105 | 70 |
Rotating speed(rpm) | 260 | 360-420 | |||||||
Maximum motor power(KW) | 355 | 250 | 200 | 160 | 110 | 55 | 30 | 22 | 18.5 |
Skid mounted | skid mounted | ||||||||
Digital Analog Computing | yes | ||||||||
Systolic algorithm | According to demand | ||||||||
Test | According to the quality standard, chemical analysis, mechanical performance, flaw detection, hydrostatic test, airtight test and other inspections are carried out for each component | ||||||||
Factory inspection | Carry out nitrogen or air full-load mechanical operation test according to quality requirements | ||||||||
Customer acceptance | Actual working conditions, 72-hour assessment and acceptance | ||||||||
Application | Hydrogen energy, silicon, fluorine chemical industry, petrochemical industry, metallurgy, medicine, aerospace, nuclear power |
Basic information:hydrogen compressor model parameters
Hydrogen gas production compressor | |||||
parameter industry | hydrogen from natural gas | Hydrogen from coke oven gas | Chemical tail gas recovery | Fluorine alkali tail gas recovery | other |
Suction pressure MPa(G) | 0-0.5 | 0-0.2 | 0-1.0 | 0-0.1 | |
Discharge pressureMPa(G) | 1.0-3.0 | 0.8-2.3 | 1.5-3.0 | 0.8-2.5 | |
Capacity Nm3/min | 5-50 | 10-200 | 10-200 | 8-100 | |
Compression levels | 1-3 | 1-4 | 1-6 | 1-5 | 1-6 |
Motor power(KW) | 30-2000 | ||||
Skid mounted | skid mounted | ||||
Digital Analog Computing | yes | ||||
Systolic algorithm | yes | ||||
Service Guarantee | Professional service team, 7X24 hours all day service | ||||
Hydrogen filling compressor + hydrogen refueling station compressor | |||||
parameter industry | 45Mpahydrogen refueling station | 90Mpa hydrogen refueling station | Hydrogen tank truck | Hydrogen flushed into the bottle | High pressure hydrogen delivery |
Suction pressure MPa(G) | 3-20 | 10-30 | 0.8-3.0 | 0.1-30 | 0.8-3.0 |
Discharge pressureMPa(G) | 45 | 90 | 20.0-22.20 | 15.0-20.0 | 5.2-20.0 |
Capacity Nm3/min | 200-2000 | 100-1000 | 300-2000 | 10-800 | 100-1500 |
Compression levels | 1-2 | 1-2 | 1-3 | 1-2 | 1-2 |
Motor power(KW) | 30-200 | 30-185 | 75-315 | 3-160 | 22-200 |
Skid mounted | skid mounted | ||||
Digital Analog Computing | yes | ||||
Finite Element Analysis | yes | ||||
Service Guarantee | Professional service team, 7X24 hours all day service | ||||
Detailed Photos
After Sales Service
We have an independent service operation and maintenance team, providing customers with various support and services, including technical support, debugging services, spare parts supply, renovation and upgrading, and major maintenance. We always adhere to the principle of customer-centrism, ensuring the safe and stable operation of customer equipment. Our service team is committed to providing reliable support for customers’ operations 24/7.
Training plan
1)Company training
Before the unit is delivered, that is during the unit assembly period, users will be provided with a one-week on-site training by the company. Provide local accommodation and transportation facilities, and provide free venues, teaching materials, equipment, tools, etc. required for training. The company training content is as follows:
The working principle, structure and technical performance of the unit.
Unit assembly and adjustment, unit testing.
Operation of the unit, remote/local operation, manual/automatic operation, daily operation and management, familiar with the structure of each system of the unit.
Routine maintenance and upkeep of the unit, and precautions for operation and maintenance.
Analysis and troubleshooting of common faults, and emergency handling methods.
2) On-site training
During the installation and trial operation of the unit, on-site training will be conducted to teach the principles, structure, operation, maintenance, troubleshooting of common faults and other knowledge of the unit, so as to further become familiar with the various systems of the unit, so that the purchaser can independently and correctly operate the unit. Operation, maintenance and management.
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After-sales Service: | 12 Month |
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Warranty: | 12 Month |
Lubrication Style: | Lubricated |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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Payment Method: |
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Initial Payment Full Payment |
Currency: | US$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How Do You Maintain a Gas Air Compressor?
Maintaining a gas air compressor is essential to ensure its optimal performance, longevity, and safe operation. Regular maintenance helps prevent breakdowns, extends the compressor’s lifespan, and promotes efficient operation. Here are some key maintenance steps for a gas air compressor:
1. Read the Manual:
Before performing any maintenance tasks, thoroughly read the manufacturer’s manual specific to your gas air compressor model. The manual provides important instructions and guidelines for maintenance procedures, including recommended intervals and specific maintenance requirements.
2. Check and Change the Oil:
Gas air compressors typically require regular oil changes to maintain proper lubrication and prevent excessive wear. Check the oil level regularly and change it according to the manufacturer’s recommendations. Use the recommended grade of oil suitable for your compressor model.
3. Inspect and Replace Air Filters:
Inspect the air filters regularly and clean or replace them as needed. Air filters prevent dust, debris, and contaminants from entering the compressor’s internal components. Clogged or dirty filters can restrict airflow and reduce performance. Follow the manufacturer’s guidelines for filter cleaning or replacement.
4. Drain Moisture from the Tank:
Gas air compressors accumulate moisture in the compressed air, which can lead to corrosion and damage to the tank and internal components. Drain the moisture from the tank regularly to prevent excessive moisture buildup. Refer to the manual for instructions on how to properly drain the moisture.
5. Check and Tighten Connections:
Regularly inspect all connections, fittings, and hoses for any signs of leaks or loose connections. Tighten any loose fittings and repair or replace damaged hoses or connectors. Leaks can lead to reduced performance and inefficiency.
6. Inspect Belts and Pulleys:
If your gas air compressor has belts and pulleys, inspect them for wear, tension, and proper alignment. Replace any worn or damaged belts and ensure proper tension to maintain optimal performance.
7. Clean the Exterior and Cooling Fins:
Keep the exterior of the gas air compressor clean from dirt, dust, and debris. Use a soft cloth or brush to clean the surfaces. Additionally, clean the cooling fins regularly to remove any accumulated debris that can impede airflow and cause overheating.
8. Schedule Professional Servicing:
While regular maintenance can be performed by the user, it is also important to schedule professional servicing at recommended intervals. Professional technicians can perform thorough inspections, conduct more complex maintenance tasks, and identify any potential issues that may require attention.
9. Follow Safety Precautions:
When performing maintenance tasks on a gas air compressor, always follow safety precautions outlined in the manual. This may include wearing protective gear, disconnecting the power source, and ensuring proper ventilation in confined spaces.
By following these maintenance steps and adhering to the manufacturer’s guidelines, you can keep your gas air compressor in optimal condition, prolong its lifespan, and ensure safe and efficient operation.
How Do Gas Air Compressors Contribute to Energy Savings?
Gas air compressors can contribute to energy savings in several ways. Here’s a detailed explanation:
1. Efficient Power Source:
Gas air compressors are often powered by gasoline or diesel engines. Compared to electric compressors, gas-powered compressors can provide higher power output for a given size, resulting in more efficient compression of air. This efficiency can lead to energy savings, especially in applications where a significant amount of compressed air is required.
2. Reduced Electricity Consumption:
Gas air compressors, as standalone units that don’t rely on electrical power, can help reduce electricity consumption. In situations where the availability of electricity is limited or expensive, using gas air compressors can be a cost-effective alternative. By utilizing fuel-based power sources, gas air compressors can operate independently from the electrical grid and reduce dependence on electricity.
3. Demand-Sensitive Operation:
Gas air compressors can be designed to operate on demand, meaning they start and stop automatically based on the air requirements. This feature helps prevent unnecessary energy consumption during periods of low or no compressed air demand. By avoiding continuous operation, gas air compressors can optimize energy usage and contribute to energy savings.
4. Energy Recovery:
Some gas air compressors are equipped with energy recovery systems. These systems capture and utilize the heat generated during the compression process, which would otherwise be wasted. The recovered heat can be redirected and used for various purposes, such as space heating, water heating, or preheating compressed air. This energy recovery capability improves overall energy efficiency and reduces energy waste.
5. Proper Sizing and System Design:
Selecting the appropriate size and capacity of a gas air compressor is crucial for energy savings. Over-sizing a compressor can lead to excessive energy consumption, while under-sizing can result in inefficient operation and increased energy usage. Properly sizing the compressor based on the specific air demands ensures optimal efficiency and energy savings.
6. Regular Maintenance:
Maintaining gas air compressors in good working condition is essential for energy efficiency. Regular maintenance, including cleaning or replacing air filters, checking and repairing leaks, and ensuring proper lubrication, helps optimize compressor performance. Well-maintained compressors operate more efficiently, consume less energy, and contribute to energy savings.
7. System Optimization:
For larger compressed air systems that involve multiple compressors, implementing system optimization strategies can further enhance energy savings. This may include employing advanced control systems, such as variable speed drives or sequencers, to match compressed air supply with demand, minimizing unnecessary energy usage.
In summary, gas air compressors contribute to energy savings through their efficient power sources, reduced electricity consumption, demand-sensitive operation, energy recovery systems, proper sizing and system design, regular maintenance, and system optimization measures. By utilizing gas-powered compressors and implementing energy-efficient practices, businesses and industries can achieve significant energy savings in their compressed air systems.
What Are the Primary Applications of Gas Air Compressors?
Gas air compressors have a wide range of applications across various industries and activities. These compressors, powered by gas engines, provide a portable and versatile source of compressed air. Here’s a detailed explanation of the primary applications of gas air compressors:
1. Construction Industry:
Gas air compressors are extensively used in the construction industry. They power a variety of pneumatic tools and equipment, such as jackhammers, nail guns, impact wrenches, and concrete breakers. The portable nature of gas air compressors makes them ideal for construction sites where electricity may not be readily available or practical to use.
2. Agriculture and Farming:
Gas air compressors find applications in the agricultural sector. They are used to operate air-powered machinery and tools, including pneumatic seeders, sprayers, and agricultural pumps. Gas air compressors provide the necessary power to carry out tasks such as crop seeding, irrigation, and pest control in agricultural settings.
3. Recreational Activities:
Gas air compressors are commonly utilized in recreational activities. They are used to inflate tires, sports balls, inflatable structures, and recreational equipment such as air mattresses, rafts, and inflatable toys. Gas air compressors provide a convenient and portable solution for inflating various recreational items in outdoor settings.
4. Mobile Service Operations:
Gas air compressors are employed in mobile service operations, such as mobile mechanics, tire service providers, and mobile equipment repair services. These compressors power air tools and equipment required for on-site repairs, maintenance, and servicing of vehicles, machinery, and equipment. The mobility of gas air compressors allows service providers to bring their tools and compressed air source directly to the location of the service requirement.
5. Remote Job Sites:
Gas air compressors are well-suited for remote job sites or locations without access to electricity. They are commonly used in industries such as mining, oil and gas exploration, and remote construction projects. Gas air compressors power pneumatic tools, machinery, and drilling equipment in these environments, providing a reliable source of compressed air for operational needs.
6. Emergency and Backup Power:
In emergency situations or during power outages, gas air compressors can serve as a backup power source. They can power essential equipment and systems that rely on compressed air, such as emergency lighting, communication devices, medical equipment, and backup generators. Gas air compressors provide a reliable alternative power solution when electrical power is unavailable or unreliable.
7. Sandblasting and Surface Preparation:
Gas air compressors are used in sandblasting and surface preparation applications. They provide the high-pressure air necessary for propelling abrasive media, such as sand or grit, to remove paint, rust, or other coatings from surfaces. Gas air compressors offer the power and portability required for sandblasting operations in various industries, including automotive, metal fabrication, and industrial maintenance.
8. Off-Road and Outdoor Equipment:
Gas air compressors are commonly integrated into off-road and outdoor equipment, such as off-road vehicles, utility trucks, and recreational vehicles. They power air-operated systems, including air suspension systems, air brakes, air lockers, and air horns. Gas air compressors provide the necessary compressed air for reliable and efficient operation of these systems in rugged and outdoor environments.
Overall, gas air compressors have diverse applications in construction, agriculture, recreational activities, mobile service operations, remote job sites, emergency power backup, sandblasting, and various off-road and outdoor equipment. Their portability, versatility, and reliable power supply make them indispensable tools in numerous industries and activities.
editor by CX 2024-02-19