Elevate the precision of your analytical processes with the cutting-edge technology of a Parker Zero Air Generator. Offering dependable and high-quality gas solutions for a wide range of advanced laboratory applications, it’s your key to unlocking superior results and efficiency in your work.
Innovative Features of Parker Zero Air Generator
| Type of systems | High Capacity multiple stage adsorbents |
| Purity levels | Zero Air grade ideal for high sensitivity FID systems & TOC |
| Flow Rates | 0.5 LPM to 75 LPM depending upon the model selected |
| Pressure | 60 to 100 PSIG depending upon the model selected |
| Type Of Compressor | Oil free wobble free from Germany (Internally mounted) |
| Zero Air Storage Volume | 80 liters to 210 Liters depending upon the model selected |
| Size of the Systems | Compact table top models or under table systems with castors for easy maneuverability |
| Noise | 45 dB to 72 dB dependence upon the model selected |
| Channels | from 1 to 6 depending upon model selected |
| Start Up Time | 15 minutes |
| Power Supply | 230V AC, 50 Hz, Single/Three phase |
| Weight | 45 kgs to 215 Kgs depending upon the model selected |
In the ever-evolving landscape of laboratory and analytical applications, precision is paramount. Accurate and reliable gas sources are essential for maintaining the integrity of results. The Parker Zero Air Generator, equipped with advanced technologies like Pressure Swing Adsorption (PSA) and high-volume self-indicating desiccant purification, is at the forefront of delivering high-purity zero air gas. In this article, we delve into the world of the Parker Zero Air Generator, exploring its cutting-edge technologies, components, and the role it plays in achieving precision in laboratory settings.
Parker Zero Air Generator: An Introduction
The Parker Zero Air Generator is a sophisticated piece of equipment designed to produce zero air gas, a vital component in many laboratory and analytical applications. Zero air gas is characterized by its purity, containing no hydrocarbons, particulates, or moisture. This high level of purity is critical for ensuring precise and accurate results in various analytical processes.
Technologies in Zero Air Generation
The Parker Zero Air Generator incorporates two advanced technologies to produce high-purity zero air gas:
1. Pressure Swing Adsorption (PSA) Technology
Pressure Swing Adsorption (PSA) is a gas separation process that exploits the differences in adsorption characteristics of gases on solid adsorbents. In the context of zero air generation, PSA is used to remove impurities such as hydrocarbons, carbon dioxide, and moisture from the incoming air source. The process involves two adsorption towers filled with specific adsorbents that selectively capture these impurities while allowing the clean air to pass through. As one tower is in the adsorption phase, the other is in the desorption phase, ensuring a continuous supply of high-purity zero air gas.
2. High-Volume Self-Indicating Desiccant Purification Technology
Desiccants are substances that remove moisture from the air. The Parker Zero Air Generator uses a high-volume self-indicating desiccant purification system to ensure that the air source is completely free of moisture. This technology offers exceptional moisture removal capabilities, as well as the advantage of indicating when the desiccant material requires replacement. This self-indicating feature simplifies maintenance and ensures that the generator consistently produces dry zero air gas.
Components of a Zero Air Generator
A Parker Zero Air Generator is a complete system that comprises several key components, each playing a crucial role in the production of high-purity zero air gas:
1. Oil-Free Compressor
The oil-free compressor is responsible for delivering the incoming air source to the zero air generator. It plays a vital role in ensuring that the air remains free of hydrocarbons, which can contaminate the zero air gas.
2. Storage Pressure Vessel
The storage pressure vessel stores the compressed air before it enters the PSA and desiccant purification processes. It helps stabilize the flow of air, ensuring a consistent supply of zero air gas.
3. Purification System
The heart of the zero air generator, the purification system, comprises the PSA and desiccant purification technologies. It is responsible for removing impurities, hydrocarbons, carbon dioxide, and moisture, leaving behind high-purity zero air gas.
The Advantages of Parker Zero Air Generator
The Parker Zero Air Generator offers a multitude of advantages that make it an indispensable tool in laboratory and analytical applications:
1. Precision in Analysis
The high-purity zero air gas produced by the Parker Zero Air Generator ensures precise and accurate results in a wide range of analytical processes. Researchers and analysts can rely on the purity of the gas to obtain dependable and consistent results.
2. Elimination of Contaminants
The generator’s advanced technologies, including PSA and self-indicating desiccant purification, effectively remove impurities, hydrocarbons, carbon dioxide, and moisture from the incoming air source. This elimination of contaminants is vital for maintaining the integrity of analytical results.
3. Ease of Maintenance
The self-indicating desiccant purification system simplifies maintenance by clearly indicating when desiccant material replacement is necessary. This feature streamlines upkeep and ensures that the generator remains in optimal working condition.
4. Long-Term Performance
The Parker Zero Air Generator is engineered with highly reliable components that are built for long-term standard performance. It offers durability and consistency in gas generation, making it a cost-effective and reliable investment.
5. Easy Installation
These generators are designed for easy installation, allowing laboratories to quickly integrate them into their analytical processes without significant downtime or complex setup procedures.
Applications of Parker Zero Air Generator
The Parker Zero Air Generator is a versatile tool with applications in various laboratory and analytical settings. Some of the key applications include:
- Gas Chromatography: Used for carrier and detector gas in gas chromatography applications, ensuring precise separation and detection of analytes.
- Environmental Analysis: Supports environmental analysis by providing high-purity zero air gas for instruments used in monitoring air quality, emissions, and pollutants.
- Chemical Analysis: Enables accurate chemical analysis by providing a contamination-free zero air source for elemental analysis and other chemical tests.
- Calibration and Instrumentation: Vital for calibration of analytical instruments, ensuring the instruments’ accuracy and reliability in analytical measurements.
- Quality Control: Plays a crucial role in quality control procedures, especially in industries where product quality depends on precise measurements and tests.
Who are We?
| Manufacturer |
| supplier |
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Where do we have clients and supply our Parker Zero Air Generator ?
| India | United Arab Emirates | Uganda |
| Nepal | Israel | Tanzania |
| Vietnam | Egypt | Angola |
| Philippines | Yemen | Kambia |
| Indonesia | Turkey | Malawi |
| Malaysia | Sudan | Botswana |
| South Korea | Algeria | South Africa |
| Oman | Monaco | Zimbabwe |
| Iran | Nigeria | Cambodia |
| Saudi Arabia | Ethiopia | Australia |
| Namibia | Greece | USA |
Advantages of Parker Zero Air Generator
The Parker Zero Air Generator is a testament to innovation and precision in the world of laboratory and analytical applications. This state-of-the-art device, driven by advanced technologies like Pressure Swing Adsorption (PSA) and self-indicating desiccant purification, offers a multitude of advantages that set it apart as an indispensable tool for researchers, analysts, and industries. In this article, we delve into the distinct advantages of the Parker Zero Air Generator, with a focus on how it elevates analytical excellence.
1. Unparalleled Precision
One of the primary advantages of the Parker Zero Air Generator is its ability to deliver unparalleled precision. The high-purity zero air gas it produces is free of impurities, hydrocarbons, carbon dioxide, and moisture. This exceptional purity ensures that analytical results are consistent and trustworthy, setting the stage for excellence in research and analysis.
2. Contaminant Elimination
The Parker Zero Air Generator is equipped with advanced technologies that effectively eliminate contaminants. The Pressure Swing Adsorption (PSA) process and the self-indicating desiccant purification system ensure that impurities are captured and removed, leaving behind a pure and contaminant-free zero air source. This elimination of contaminants is vital for maintaining the integrity of analytical results.
3. Moisture Control
In addition to eliminating impurities, the high-volume self-indicating desiccant purification system excels in moisture control. Moisture can adversely affect analytical instruments and processes. By effectively removing moisture from the incoming air source, the generator contributes to maintaining the accuracy and reliability of analytical results.
4. Ease of Maintenance
The self-indicating desiccant purification system simplifies maintenance by providing clear indicators of when desiccant material replacement is required. This user-friendly feature streamlines upkeep and ensures that the generator consistently produces dry and pure zero air gas without complex maintenance procedures.
5. Long-Term Performance
The Parker Zero Air Generator is engineered with highly reliable components designed for long-term standard performance. Its durability and consistency make it a cost-effective and reliable investment for laboratories and analytical facilities. This long-term performance ensures that the generator continues to deliver precise results over time.
6. Easy Installation
These generators are designed for easy installation, allowing laboratories to quickly integrate them into their analytical processes. This ease of installation minimizes downtime and simplifies the setup process, ensuring a swift and efficient transition.
7. Versatile Applications
The versatility of the Parker Zero Air Generator is a notable advantage. It finds applications in a wide range of laboratory and analytical settings, including gas chromatography, environmental analysis, chemical analysis, calibration, quality control, and more. Its ability to adapt to diverse applications makes it a versatile and valuable asset.
8. Consistency in Gas Supply
The Parker Zero Air Generator ensures a consistent supply of high-purity zero air gas. This consistency is vital for maintaining the accuracy and reliability of analytical instruments and processes. Researchers and analysts can rely on a steady and dependable gas source for precise and consistent results.
9. Environmental Friendliness
The production of high-purity zero air gas by the generator aligns with environmental goals. It eliminates the need for gas cylinders, which can be environmentally burdensome, and reduces waste. This environmentally friendly approach supports sustainability in laboratory practices.
10. Cost-Efficiency
The long-term performance, ease of maintenance, and elimination of the need for gas cylinders contribute to the cost-efficiency of the Parker Zero Air Generator. It provides cost savings over time, making it a cost-effective investment for laboratories and analytical facilities.