Zero-Air Gas Generator Features

Zero-Air Generator may be defined as filtered ambient air which contains total hydrocarbons as less than 0.1 parts per million or PPM. Here hydrocarbon content actually means methane gas (CH4). There are various air generators in the market producing zero air gas which produces zero air out of compressed air after passing through catalytic oxidation. This zero air gas is required to fulfil so many purposes in industrial applications.

ZA series zero air generators produce zero air gas which is equivalent to UHP air cylinders. UHP gas means instrument grade pure gas which is used for calibration gas applications. These generators may be available with or without air compressor internally. The incoming air after getting compressed internally, air is heated at 400 degrees Celsius and is made to pass through the catalyst chamber where platinum is used as a catalyst. Whatever free carbons available in the air are made to oxidize to create carbon dioxide and free hydrogen atoms are combined with oxygen to form water. In this way by oxidation the free carbon particles and the free hydrogen atoms are eliminated from the air supply.

The purified air is passed through the cooling system and cooled down at the temperature for external uses. The zero generators in Z series hold unique features. The generator is producing purified zero air gas and the generator is compact in design. It provides the supply of pure zero air gas in consistent mode. You can install the generator in an easy way. No difficulties will arise in installing the system. The generators require low maintenance and this is very much cost effective. This type of generators increases the productivity.  

The zero air gas is used to GC-FIDs as an oxidant supply and for the process of analytical instruments. As the zero air gas contains a minimum number of hydrocarbons, it can create a very good baseline in compared to the fuel-air which are used as conventional sources of air. Zero air gas may be used in environmental equipment for calibration purpose. The zero gas is also in chromatography in flame ionization detectors. The huge areas of applications enhance the necessity of the production of zero air gas.

Zero-air gas generators are also used for total hydrocarbon analyzers. Composition of zero gas is 20.5 % of oxygen with 77% of nitrogen. Hydrocarbons are in traces as 0.05 parts per million or PPM. The zero gas is used in wide commercial applications. Pressure of the gas is kept near about at 13700 K Pa. Properties of the zero gas is odourless, colourless with nontoxic effect. Type of gas is specialty gas. The zero gas is actually gas in compressed mode with purified air. The zero gas also supports combustion.

So, from the above discussion, it is clear that the zero air gas is widely acceptable to industries due to its wide applications in the market. That is why the requirement of the generation of zero air gas is enhanced. It is utilized in various fields due to low content of hydrocarbons as pure air gas not just enough to establish all the required performances.

Source: http://www.articleslash.net/News/Science/704019__Zero-Air-Gas-Generators-and-its-Product-Feature.html

Laboratory Gas Generators- Designed with Safety and Convenience in Mind

Nitrogen generators are available in various shapes for the purpose of accommodating business needs on an individual basis. If you think that your business can easily benefit from producing nitrogen onsite, then it is strongly recommended to look for nitrogen generators as they are awfully efficient and reasonable.

Nitrogen Generator – Benefitting All Types of Business

Among all, the Membrane Nitrogen Generator is one that will definitely benefit all types of business.  Membrane generators are among great addition to any business as they can easily produce a continuous supply of onsite gaseous nitrogen. Such compact systems are ideally suited for low-flow functions that take into usage high-pressure gas cylinder or dewars of nitrogen.

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With the help of such generators, the annoyance of gas cylinders and liquid dewars get eliminated. Nitrogen is generated onsite in a continuous and reliable manner that requires only a supply of compressed air. 

Applications that are best suited for membrane nitrogen generators include the following:         

•       Chemical blanketing
•           Coffee packaging
•           Food packaging
•           Modified atmospheric packaging
•           Pharmaceuticals
•           Plasma cutting systems
•           LCMS and many more.

Specific Features in Association with Nitrogen Gas Generators

Specific features of membrane nitrogen gas generators include the fact that the capital cost is low relative to the purity produced by the unit. In case your business requires purity of 99.8% or lower, then membrane generators are the right solution for you.  Your generator will be readily available to be put to task.

It will be operating at its optimum level from a cold start within 30 seconds. Operating pressures for these units hold maximum delivery of 325 psig without post compression and are better suited for higher temperatures. Highest operating temperature falls between 70 and 120 degree Fahrenheit. 

Functionality in Association

Membrane technology generators can function in a consistent manner for about 15 years as proper maintenance of units are sustained. Also, maintenance is quite simple! Maintenance on filters and oxygen sensors each and every year is required for proper functioning. There will be hardly any moving part with your membrane generator.

There are chances that demand of additional nitrogen may appear in the long run. One of the greatest things about membrane generators is that with the help of modular design embedded, the supply of gas can be simple and highly cost effective. You may also add membrane modules if required to an existing system

Generators Get Delivered in a Pre-tested Manner

Generally, membrane generators get shipped directly to your desired location in a pre-tested manner. They are meant in such a manner that they get ready for installation. There are some specific models that do not demand supply of electricity which is extremely beneficial for explosion proof applications. 

Materials Safety Data Sheet is duly required for nitrogen. Also, a small amount of training may also be required in terms of operating the unit. You may expect the fact that employees remain safe in and around the units as these units operate at very low noise levels. If you think that a membrane generator is a right choice for your business and you can easily benefit from producing on-site nitrogen, then you may get one installed by a professional.

Article Source: https://medium.com/@chrisnguyenn8/lab-equippments-gas-generators-are-designed-with-safety-and-convenience-in-mind-901dafcbd7a6

The Role of Autosamplers in Chromatography

Chromatography refers to the scientific process that consists of several lab based techniques used to separate a mixture. This mixture is firstly dissolved in gas or fluid and then carried to some other material to create stationary phase. Facilitating the speed of travel, the process helps to separate the compounds present within the mixture. It might be used as purifying process for feature analyte proportions of mixture. The idea is to make at least one part of the mixture to be stationary or immobile and the other to be mobile.

Gas Chromatography refers to the process of analysis of compounds using gas chromatograph- a machine that perform the analysis of compounds after being separated from the sample and has been vaporized. A column inlet, also known as injector helps to remove the compounds from the sample.

An autosampler is equipment that is used in the process of chromatography to ensure the accuracy during testing or inserting the portions. The instrument inserts the sample parts into the inlets of apparatus during the test with an increased efficiency and results. Now the autosamplers have become a common method of completing different types of chromatography techniques.

Instruments involved with the separation lab techniques

Gas chromatography is one of the common process for sampling the analytical instruments. It is usually used to test compounds that are capable of vaporizing without decomposing. GC can help the laboratories test and separate the mixture and its substances, identify the compounds present and create pure version of the liquid. Helim or any other nonreactive gases act as the carrier in such processes during mobile phase whereas a liquid is present inside the column for the stationary phase.

 

The various gas compounds react with the stationary phase elements causing the compounds to elute the different retention times. A liquid volume is inserted into the column either automatically or manually with special equipments. Motions are created by molecule absorption which determines the molecule progression rate. Progression is affected by absorption strength, molecule types and stationary phase material. 

An autosampler is a kind of tool that is used to achieve insertion into the columns through automatic methods. The insertion point if referred to as an inlet and comes in the form of split less, split, on column, purge and trap, PTV injectors or gas switching value. Manual insertion leaves much room for errors that can compromise and affect the test results and are also time consuming. 

Samplers are classified depending upon the sample capacity, type of technology, analytical purposes or other. They are also used for a variety of separation process that includes the measurement of volatile organic compounds. Automatic sampling has greatly improved the process and gas chromatography process as well as other separation processes.