Analysis of Losses in High-Purity Neon Production Technology. Part 2.* Processing of a Ne–He Mixture to Obtain Pure Products

Autor:	V. L. Bondarenko, I. A. Losyakov, O. V. D’yachenko, T. V. D’yachenko
Rok vydání:	2019
Předmět:	Materials science 020209 energy General Chemical Engineering Extraction (chemistry) 0211 other engineering and technologies Analytical chemistry Energy Engineering and Power Technology chemistry.chemical_element 02 engineering and technology Liquid nitrogen Coolant law.invention Neon Fuel Technology Adsorption chemistry Operating temperature Geochemistry and Petrology Impurity law 021105 building & construction 0202 electrical engineering electronic engineering information engineering Vacuum pump
Zdroj:	Chemical and Petroleum Engineering. 54:735-745
ISSN:	1573-8329 0009-2355
DOI:	10.1007/s10556-019-00542-8
Popis:	Inert gases are valuable products that are widely used in industry. Their processing scheme includes several enrichment, purification, and separation stages of a Ne–He mixture (NHM). Primary enrichment of the NHM occurs in air-separation plants. Secondary enrichment uses a reflux condenser at liquid N2 temperature (~78 K). The impurity concentration at the reflux condenser outlet can be decreased by reducing the operating temperature. However, the specific energy consumption increases whereas the extraction coefficient is practically not affected if a vacuum pump is applied. A promising trend for reducing the cooling temperature is to use non-machine cold sources. The Ne extraction coefficient during rectification depends on the impurity (He) content in the waste gases. The main method for increasing the efficiency of Ne production installations is to use additional non-machine cooling of the rectification input stream. The adsorption installation for recycling Ne from He concentrate can be chilled using two coolants, i.e., Ne and liquid N2. The research showed that the specific energy consumption of the separation is 5–7 times greater to reach Ne temperature (28 K) than liquid N2 temperature (78 K).
Databáze:	OpenAIRE
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