We offer a complete range of specialty high-purity gases!Īs we have worked with gases for multiple decades, we know that each gas comes with a purpose. High-purity hydrogen and helium are used in gas chromatographs, while high-purity argon is used as the carrier gas for microelectronics and gas chromatographs. High-purity nitrogen is popularly used in casting heat treatment, food packaging, secondary steel refining, lamp industries and optical fibres. They work with the lowest level of impurities available, and general applications consist of the calibration of research, material testing and instrument. High-purity gases are commonly used in analytical activities as they provide reliable and consistent results. Manufacturing companies also work with high-purity gases, which help research, laser technology, clinical diagnosis and chemical synthesis. They further aid in the production of UHP gases. We ecologically monitor the highly toxic and explosive substances in the atmosphere while maintaining an inert, protective and reducing atmosphere. We manufacture and package our high-quality gases by checking raw material quality with analytical methods such as atomic emission spectrometry, chromatography atomic absorption and more. High-purity gases include argon, air, carbon dioxide, helium, hydrogen, oxygen, nitrogen, hydrocarbons, rare gases, customised gas mixtures and EPA protocol gases.
We select a suitable specialty gas, proper gas packaging and delivery system, and optimise the process with our high-purity gas specialists to review the operations and deliver products manufactured and approved by qualified laboratory technicians who use advanced analytical technology to meet the customer specifications. High-purity gases manufactured by top-notch companies include high-purity calibration gas mixtures, liquid gases, cylinder gases, mixtures for medical tools sterilisation and laser mixtures. Also, they satisfy most requirements related to diffusive resistance, hermiticity and reactivity. Specialty or high-purity gases (mixtures) are products that have met all the requirements of component purity and impurity content, are manufactured as per specific technology, and are used in tiny amounts for scientific, technological and analytical (metrological) purposes. The many expenses required to run an air separation plant and transport liquid nitrogen are what present such a costly per unit price to the end user.We produce and supply specialty gases, which are extensively used in laboratory analysis and industrial applications.
Most often, the liquid nitrogen is evaporated back to its gaseous state for process use. Once the nitrogen has been separated, it is transported to the end user’s facility where it is stored.
Fractional distillation requires multiple stages of cooling, separation and filtration to produce and store liquid nitrogen below -196☌. After a half billion dollar air separation plant has been erected, the air gases are separated using an electrically intensive and costly process called fractional distillation. Due to the abundance of nitrogen found in air, it is often more cost effective for users to generate their own supply of nitrogen, rather than purchasing it from a bulk gas supplier.īulk gas suppliers require tremendous infrastructure and expense to produce and deliver nitrogen gas to their customers. Nitrogen accounts for 78% of the air we breath, making it the most plentiful segment of all air gases. On-site nitrogen gas generation is being adopted at a rapid rate globally, particularly in the manufacturing industry where margins are thin and companies are seeking new technologies to reduce overhead costs.
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