The science of separation, gas chromatography is an important technique used for drug, arson, toxicology and other organic compound analysis. It is carried out in laboratories across a range of areas, including quality control, R&D, pharmaceuticals and forensics.
In order to obtain accurate and meaningful results, Parker understand that your gas management system has to deliver a consistent and high-purity gas stream - from your source to your instrumentation - without risk of introducing contaminants.
Soman Associates has become known as a rapidly expanding group focused in marketing a wide range of products like Compressed Air Generation & Applications, packages / Precision Machined components.
We are the Dealers and Distributors of Laboratory Gas Generator in Maharashtra, Goa and Gujrat
A Laboratory Gas Generator is a device used to produce specific gases required for laboratory experiments or industrial processes. These generators are designed to replace traditional gas cylinders by providing an on-demand, continuous supply of high-purity gases. They are used in various applications, including analytical chemistry, chemical synthesis, materials testing, and life sciences.
Benefits of Laboratory Gas Generators:
Investing in laboratory gas generators can improve operational efficiency, safety, and sustainability while reducing costs and logistical complexities. They are particularly advantageous in research, industrial, and pharmaceutical settings.
Laboratory gas generators offer a range of advantages over traditional methods of gas supply (e.g., gas cylinders or bulk gas delivery systems).
- Safety : Avoids the hazards of handling and storing high-pressure cylinders. No Leaks or Spills: Gas is produced as required, minimizing the risk of leaks or accidents. Meets safety standards more easily compared to cylinder handling.
- Cost Efficiency : Reduces expenses associated with purchasing, transporting, and storing gas cylinders. Eliminates recurring costs such as cylinder rental or maintenance charges. Modern generators are designed to optimize energy consumption.
- Convenience : No need for manual cylinder replacements or waiting for deliveries. Gas generators require minimal space compared to storing large cylinder racks. Compact designs are easier to move and integrate into existing setups.
- High Purity and Consistency : Produces gas of consistent purity, which is critical for analytical and experimental accuracy. Tailored to specific laboratory needs for gases such as nitrogen, hydrogen, or zero air.
- Environmental Benefits : Reduced Carbon Footprint by eliminating the environmental impact of cylinder transportation and production. Many generators utilize eco-friendly technologies and materials.
- Flexibility and Scalability : Can be used in various applications like gas chromatography, mass spectrometry, or glove boxes. Many systems allow for upgrades or increased output to match growing laboratory demands.
Types of Laboratory Gas Generators :
Laboratory gas generators are specialized systems designed to produce high-purity gases on demand for laboratory applications. They provide a convenient, safe, and cost-effective alternative to gas cylinders.
- Hydrogen Gas Generators : Hydrogen gas generators typically use electrolysis to split water into hydrogen and oxygen. Proton exchange membrane (PEM) technology is commonly used for high-purity output (up to 99.999%). Eliminate the need for high-pressure hydrogen cylinders. Used in Gas chromatography (GC) as a carrier gas or flame ionization detector (FID) fuel.
- Nitrogen Gas Generators : Used in Gas chromatography (GC), mass spectrometry, and inert environments for experiments. Uses adsorbent materials to separate nitrogen from compressed air. Pressure swing adsorption (PSA), membrane separation, or cryogenic methods. Used for sample preparation, such as evaporation and purging.
- Oxygen Gas Generators : Used in Combustion studies, medical applications, or any processes needing oxygen. Similar to nitrogen generators, PSA technology is used to separate oxygen from atmospheric air. High purity for specialized applications.
- Zero Air Generators : Used as Baseline calibration for gas detectors or chromatography. Zero air generators purify compressed air by removing hydrocarbons, carbon dioxide, and water vapor using filters and catalysts. Provides ultra-pure air with minimal hydrocarbons. Reduces noise compared to traditional air compressors.
- CO₂ Generators : These generators often use chemical reactions or direct extraction from compressed air to supply carbon dioxide. Combustion or reaction of acids with carbonates. They are used in Biological incubators, Plant growth chambers, Calibration of CO₂ analyzers.
- Mixed Gas Generators : Mixed gas generators combine two or more gases in precise ratios, often controlled via mass flow controllers. They have Flexible gas compositions for specific needs. High accuracy and repeatability. They are used for Calibration of gas analyzers. Simulation of environmental conditions. Specialized research applications.