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压缩空气系统设置
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65 - 96 总共269张照片
Foundation and anchoring:
Provide a stable concrete foundation and anchor the compressor securely to avoid vibrations during operation.
Electrical requirements:
Ensure that you have the correct electrical supply and wiring needed for the compressor's power requirements. Compressors of this size typically require a 3-phase power supply.
Interconnect air piping:
Plan the layout of the interconnect air piping, which will connect the compressor to the rest of your air distribution system. Use appropriate piping materials suitable for compressed air (e.g., steel, copper, or aluminum) and consider the airflow and pressure requirements.
Compressed air filtration:
Install appropriate filters, dryers, and regulators to ensure clean, dry, and consistent compressed air supply.
Cooling system: If required, ensure proper cooling of the compressor. Some large compressors might need external cooling systems.
#airlectronsdnbhd
#kaishan
#aircompressorservices
#airpiping
#myhijau
'>
To install Air compressor KRSD 55-10 (75hp) c/w Myhijau cert (GITA)
Foundation and anchoring:
Provide a stable concrete foundation and anchor the compressor securely to avoid vibrations during operation.
Electrical requirements:
Ensure that you have the correct electrical supply and wiring needed for the compressor's power requirements. Compressors of this size typically require a 3-phase power supply.
Interconnect air piping:
Plan the layout of the interconnect air piping, which will connect the compressor to the rest of your air distribution system. Use appropriate piping materials suitable for compressed air (e.g., steel, copper, or aluminum) and consider the airflow and pressure requirements.
Compressed air filtration:
Install appropriate filters, dryers, and regulators to ensure clean, dry, and consistent compressed air supply.
Cooling system: If required, ensure proper cooling of the compressor. Some large compressors might need external cooling systems.
#airlectronsdnbhd
#kaishan
#aircompressorservices
#airpiping
#myhijau
'>
To install Air compressor KRSD 55-10 (75hp) c/w Myhijau cert (GITA)
Foundation and anchoring:
Provide a stable concrete foundation and anchor the compressor securely to avoid vibrations during operation.
Electrical requirements:
Ensure that you have the correct electrical supply and wiring needed for the compressor's power requirements. Compressors of this size typically require a 3-phase power supply.
Interconnect air piping:
Plan the layout of the interconnect air piping, which will connect the compressor to the rest of your air distribution system. Use appropriate piping materials suitable for compressed air (e.g., steel, copper, or aluminum) and consider the airflow and pressure requirements.
Compressed air filtration:
Install appropriate filters, dryers, and regulators to ensure clean, dry, and consistent compressed air supply.
Cooling system: If required, ensure proper cooling of the compressor. Some large compressors might need external cooling systems.
#airlectronsdnbhd
#kaishan
#aircompressorservices
#airpiping
#myhijau
'>
To install Air compressor KRSD 55-10 (75hp) c/w Myhijau cert (GITA)
The Air Compressor PMV 22 (30hp)with a variable speed drive is a suitable choice for production environments with both high and low usage.
The Air Compressor PMV 22 (30hp)with a variable speed drive is a suitable choice for production environments with both high and low usage.
The Air Compressor PMV 22 (30hp)with a variable speed drive is a suitable choice for production environments with both high and low usage.
Optimal operating range:
Determine the optimal operating range for the compressor. Each compressor model has a range where it operates most efficiently. Operating within this range ensures that the compressor is using energy efficiently while still meeting your air demand requirements.
Load profile analysis:
Conduct a load profile analysis to understand your facility's compressed air demand patterns. This analysis helps identify peak and off-peak periods and allows you to adjust the compressor's speed and output accordingly.
By aligning the compressor's operation with the actual demand, you can avoid unnecessary energy consumption during periods of low demand.
System leaks and pressure drops:
Regularly inspect and maintain your compressed air system to minimize leaks and pressure drops. Leaks waste compressed air and can put a strain on the compressor, leading to increased energy usage. By repairing leaks and optimizing the system's pressure levels, you can reduce energy waste and improve overall system efficiency.
Maintenance and servicing:
Adhere to the manufacturer's recommended maintenance schedule and practices. Regular maintenance ensures that the compressor operates at peak performance and efficiency. This includes cleaning or replacing air filters, lubricating moving parts, and checking for any signs of wear or damage. A well-maintained compressor will consume less energy and have a longer lifespan.
Monitoring and control systems:
Consider using advanced monitoring and control systems for your compressed air system. These systems provide real-time data on energy consumption, air demand, and system performance. With this information, you can identify areas of improvement, optimize settings, and make informed decisions to further enhance energy savings.
Employee awareness and training:
Educate employees about the importance of energy savings and their role in achieving it. Encourage them to adopt energy-efficient practices such as shutting off air-powered equipment when not in use, minimizing unnecessary air usage, and promptly reporting any leaks or issues they observe.
By implementing these energy-saving measures, you can significantly reduce the energy consumption of your variable speed air compressor and optimize the overall efficiency of your compressed air system.
#airlectronsdnbhd
#kaishan
#compressorservices
#Myhijau
#energysavings
'>
To replace and installation variable speed drive air compressor PMVFQ37QA (50hp) for existing fix speed air compressor
Optimal operating range:
Determine the optimal operating range for the compressor. Each compressor model has a range where it operates most efficiently. Operating within this range ensures that the compressor is using energy efficiently while still meeting your air demand requirements.
Load profile analysis:
Conduct a load profile analysis to understand your facility's compressed air demand patterns. This analysis helps identify peak and off-peak periods and allows you to adjust the compressor's speed and output accordingly.
By aligning the compressor's operation with the actual demand, you can avoid unnecessary energy consumption during periods of low demand.
System leaks and pressure drops:
Regularly inspect and maintain your compressed air system to minimize leaks and pressure drops. Leaks waste compressed air and can put a strain on the compressor, leading to increased energy usage. By repairing leaks and optimizing the system's pressure levels, you can reduce energy waste and improve overall system efficiency.
Maintenance and servicing:
Adhere to the manufacturer's recommended maintenance schedule and practices. Regular maintenance ensures that the compressor operates at peak performance and efficiency. This includes cleaning or replacing air filters, lubricating moving parts, and checking for any signs of wear or damage. A well-maintained compressor will consume less energy and have a longer lifespan.
Monitoring and control systems:
Consider using advanced monitoring and control systems for your compressed air system. These systems provide real-time data on energy consumption, air demand, and system performance. With this information, you can identify areas of improvement, optimize settings, and make informed decisions to further enhance energy savings.
Employee awareness and training:
Educate employees about the importance of energy savings and their role in achieving it. Encourage them to adopt energy-efficient practices such as shutting off air-powered equipment when not in use, minimizing unnecessary air usage, and promptly reporting any leaks or issues they observe.
By implementing these energy-saving measures, you can significantly reduce the energy consumption of your variable speed air compressor and optimize the overall efficiency of your compressed air system.
#airlectronsdnbhd
#kaishan
#compressorservices
#Myhijau
#energysavings
'>
To replace and installation variable speed drive air compressor PMVFQ37QA (50hp) for existing fix speed air compressor
Reduced motor speed:
Compressors often run continuously at full speed, even when the demand for compressed air is lower. By using a VSD, the motor speed can be adjusted to match the required air output, reducing energy waste during periods of lower demand. The motor consumes less electricity when running at lower speeds.
Elimination of unloaded running:
In conventional compressors, there is a practice called "unloaded running" where the compressor continues to run at full speed with the discharge air being vented or bypassed. This wastes a significant amount of energy. With a VSD, the compressor can be completely shut off when the demand drops, resulting in substantial energy savings.
Avoidance of start-up surges:
Compressors consume a large amount of electricity during start-up due to the initial surge of power needed to overcome inertia. VSDs allow for controlled ramp-up of motor speed, reducing the peak power demand and associated costs.
Improved motor efficiency:
Compressor motors operating at reduced speeds through VSDs can achieve higher overall motor efficiency. Motors often exhibit higher efficiencies at lower speeds, resulting in energy savings compared to operating at fixed speeds.
#airlectronsdnbhd
#kaishancompressor
#myhijau
#aircompressorservices
'>
Installation Krsd 75 (100hp) VSD Air compressor with MyHijau cert (GITA)
Reduced motor speed:
Compressors often run continuously at full speed, even when the demand for compressed air is lower. By using a VSD, the motor speed can be adjusted to match the required air output, reducing energy waste during periods of lower demand. The motor consumes less electricity when running at lower speeds.
Elimination of unloaded running:
In conventional compressors, there is a practice called "unloaded running" where the compressor continues to run at full speed with the discharge air being vented or bypassed. This wastes a significant amount of energy. With a VSD, the compressor can be completely shut off when the demand drops, resulting in substantial energy savings.
Avoidance of start-up surges:
Compressors consume a large amount of electricity during start-up due to the initial surge of power needed to overcome inertia. VSDs allow for controlled ramp-up of motor speed, reducing the peak power demand and associated costs.
Improved motor efficiency:
Compressor motors operating at reduced speeds through VSDs can achieve higher overall motor efficiency. Motors often exhibit higher efficiencies at lower speeds, resulting in energy savings compared to operating at fixed speeds.
#airlectronsdnbhd
#kaishancompressor
#myhijau
#aircompressorservices
'>
Installation Krsd 75 (100hp) VSD Air compressor with MyHijau cert (GITA)
Equipment Selection: Choose an inverter screw air compressor, air dryer, and receiver tank that meet your specific requirements in terms of compressed air capacity, pressure, and quality.
Location: Select a suitable location for the installation that provides adequate space, ventilation, and accessibility for maintenance. Ensure the area is clean, dry, and free from excessive heat, dust, or other contaminants.
Foundation Preparation: Depending on the size and weight of the equipment, you may need to prepare a concrete foundation or reinforced pad to provide a stable base for the compressor, dryer, and tank. Consult the manufacturer's guidelines for specific foundation requirements.
Electrical Connections: Hire a licensed electrician to install the necessary power supply and connections for the inverter screw compressor, dryer, and any other associated equipment. Follow local electrical codes and safety regulations.
Piping System: Install a properly sized compressed air piping system to connect the compressor, dryer, and receiver tank. Consider the distance, pressure drop, and any necessary filtration or moisture removal components.
Compressor Installation: Follow the manufacturer's instructions to mount the inverter screw compressor securely on the foundation. Ensure that all connections, including electrical, air intake, and discharge, are properly installed and tightened.
Air Dryer Installation: Position the air dryer in proximity to the compressor and connect it to the compressed air piping system. Follow the manufacturer's instructions to install and connect the dryer, including any necessary filtration or condensate management components.
Receiver Tank Installation: Mount the receiver tank near the compressor and connect it to the compressed air system. Ensure proper support, alignment, and secure connections to avoid any leaks or excessive vibration.
System Testing: Before operation, conduct a thorough inspection of all connections, piping, and electrical components. Perform necessary tests, such as pressure testing, leak detection, and functionality checks, to ensure the system operates safely and efficiently.
Operational Considerations: Familiarize yourself with the inverter screw compressor's operation and maintenance manual. Ensure regular inspection, maintenance, and servicing of the equipment, including scheduled filter replacements, oil changes, and system monitoring.
It's important to note that this is a general overview, and specific installation requirements may vary depending on the equipment manufacturer and local regulations. Consult the product manuals, manufacturer guidelines, and consider seeking professional assistance to ensure a successful and compliant installation.
#airlectronsdnbhd
#aircompressorservices
#myjijau
#airrecievertankservices
#airdryerservices
#airpiping
'>
Kaishan Pmv 22, Belair Bd40 & 500L Air Receiver Tank
Equipment Selection: Choose an inverter screw air compressor, air dryer, and receiver tank that meet your specific requirements in terms of compressed air capacity, pressure, and quality.
Location: Select a suitable location for the installation that provides adequate space, ventilation, and accessibility for maintenance. Ensure the area is clean, dry, and free from excessive heat, dust, or other contaminants.
Foundation Preparation: Depending on the size and weight of the equipment, you may need to prepare a concrete foundation or reinforced pad to provide a stable base for the compressor, dryer, and tank. Consult the manufacturer's guidelines for specific foundation requirements.
Electrical Connections: Hire a licensed electrician to install the necessary power supply and connections for the inverter screw compressor, dryer, and any other associated equipment. Follow local electrical codes and safety regulations.
Piping System: Install a properly sized compressed air piping system to connect the compressor, dryer, and receiver tank. Consider the distance, pressure drop, and any necessary filtration or moisture removal components.
Compressor Installation: Follow the manufacturer's instructions to mount the inverter screw compressor securely on the foundation. Ensure that all connections, including electrical, air intake, and discharge, are properly installed and tightened.
Air Dryer Installation: Position the air dryer in proximity to the compressor and connect it to the compressed air piping system. Follow the manufacturer's instructions to install and connect the dryer, including any necessary filtration or condensate management components.
Receiver Tank Installation: Mount the receiver tank near the compressor and connect it to the compressed air system. Ensure proper support, alignment, and secure connections to avoid any leaks or excessive vibration.
System Testing: Before operation, conduct a thorough inspection of all connections, piping, and electrical components. Perform necessary tests, such as pressure testing, leak detection, and functionality checks, to ensure the system operates safely and efficiently.
Operational Considerations: Familiarize yourself with the inverter screw compressor's operation and maintenance manual. Ensure regular inspection, maintenance, and servicing of the equipment, including scheduled filter replacements, oil changes, and system monitoring.
It's important to note that this is a general overview, and specific installation requirements may vary depending on the equipment manufacturer and local regulations. Consult the product manuals, manufacturer guidelines, and consider seeking professional assistance to ensure a successful and compliant installation.
#airlectronsdnbhd
#aircompressorservices
#myjijau
#airrecievertankservices
#airdryerservices
#airpiping
'>
Kaishan Pmv 22, Belair Bd40 & 500L Air Receiver Tank
SPA 7.5G direct driven Air Compressor c/w dryer filters and reciever tank
SPA 7.5G direct driven Air Compressor c/w dryer filters and reciever tank
SPA 7.5G direct driven Air Compressor c/w dryer filters and reciever tank
SPA 7.5G direct driven Air Compressor c/w dryer filters and reciever tank
KAISHAN PMVFQ-37(50HP) PM Inverter screw type Air Compressor c/w Belair Dryer BD60HT set up
KAISHAN PMVFQ-37(50HP) PM Inverter screw type Air Compressor c/w Belair Dryer BD60HT set up
KAISHAN PMVFQ-37(50HP) PM Inverter screw type Air Compressor c/w Belair Dryer BD60HT set up
KAISHAN KRSD 75 SERIES (100HP) fix speed type screw air compressor c/w (MyHIJAU certificate)
KAISHAN KRSD 75 SERIES (100HP) fix speed type screw air compressor c/w (MyHIJAU certificate)
Sp 22 30hp Air Compressor & Belair Bd40ht Air Dryer
Sp 22 30hp Air Compressor & Belair Bd40ht Air Dryer
Sp 22 30hp Air Compressor & Belair Bd40ht Air Dryer
Sp 22 30hp Air Compressor & Belair Bd40ht Air Dryer
SP 22 Air Compressor ,Belair Bd40ht Air Dryer
SP 22 Air Compressor ,Belair Bd40ht Air Dryer
SP 22 Air Compressor ,Belair Bd40ht Air Dryer
SP 22 Air Compressor ,Belair Bd40ht Air Dryer
SP 22 Air Compressor ,Belair Bd40ht Air Dryer
*KAISHAN PMVFQ-37(50HP) PM Inverter screw type Air Compressor c/w Belair Dryer BD60HT
*KAISHAN PMVFQ-37(50HP) PM Inverter screw type Air Compressor c/w Belair Dryer BD60HT
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