INTERNATIONAL SEMINAR ON THE PROBLEMS OF PRODUCTION AND USE OF CNG AND LNG
DOI:
https://doi.org/10.18198/j.ind.gases.2014.0735Keywords:
Natural gas, Motor fuel, Motor vehicle gas filling compressor station (MVGFCS), Compressor, Compressed natural gas (CNG), Liquefied natural gas (LNG), Cryogenic tank, LNG installation, Biogas, Cryogenic armature, SecurityAbstract
The fifth International Seminar on the topical problem of technical and technological support for the use of natural gas as an efficient energy source was held in Odessa on 20-23 May, 2014. The seminar on this topical problem was held due to the fact that the inter-industry structure of development, manufacturing and use of the systems for CNG and LNG production needs informational and technical support. The seminar was attended by around 40 professionals representing more than 30 companies, firms and research institutes of different industries from 4 countries. To the participants 20 reports related to this problem were presented; to all the participants the certificates of professional development were given. By the results of seminar work a resolution was adopted. It reflected the conclusions and recommendations on the issues discussed at the seminar. The seminar was held successfully and with a high activity of its participants.
References
Lavrenchenko G.K. (2014). International seminar on the problems of production and use of СNG and LNG// Тekhnicheskie Gazy. [Industrial Gases]. — № 4. — P. 2-19. (Rus.).
Lavrenchenko G.K., Kopyitin A.V. (2005). The energotechnological plants on natural gas with cogeneration and power-turbine systems for manufacture of the electric energy, liquid carbon dioxide and gaseose nitrogen// Тekhnicheskie Gazy. [Industrial Gases]. — № 2. — P. 11-21. (Rus.).
Lavrenchenko G.K., Kopyitin A.V. (2005). Thermochemical heat recovery to ensure efficient use of methane in steam turbine units// Кhimicheskaya tehnika. [Chemical engineering].— № 1. — P. 19-27. (Rus.).
Lavrenchenko G.K., Kopyitin A.V. (2006). Use of natural gas and oxygen for increase of efficiency of powerful of stream-turbine plants// Тekhnicheskie Gazy. [Industrial Gases]. — № 6. — P. 38-46. (Rus.).
Lavrenchenko G.K. (2014). Liquefied natural gas: prospects of production and use// Тekhnicheskie Gazy. [Industrial Gases]. — № 3. — P. 3-10. (Rus.).
Movchan E.P., Rogalskiy E.I., Cherepanov A.P. (2006). Prospects of gas-engine fuel application in motor transport of Russia// Тekhnicheskie Gazy. [Industrial Gases]. — № 5. — P. 52-57. (Rus.).
[Electron resource]: USA: Gas Vehicle Attack// www. house.gov/emanuel.
Lapushkin N.A. (2008). Technology using natural gas engines of motor vehicles and power plants// Transport na Аlternativnom Toplive. [Alternative Fuel Transport].— № 2. — P. 47-50. (Rus.).
Grechko A.G., Novikov A.I. (2009). The world market for LNG// Kholodilnaya Тehnika.[Refrigeration Engineering]. — № 9. — P. 52-55; № 10. — P. 45-48. (Rus.).
Ryazantsev G.B., Lavrenchenko G.K., (2014). A modern look at «zero» in D.I. Mendeleev’s periodic table of elements// Тekhnicheskie Gazy. [Industrial Gases]. — № 1. — P. 3-10. (Rus.).
Ryazantsev G.B., Mnatsakanyan V.G., Haskov M.A. (2012). Biomethane efficiency of bottom azov sea sludge// Тekhnicheskie Gazy. [Industrial Gases].— № 3. — P. 49-53. (Rus.).
Zhuk G.V., Pyatnichko A.I., Bannov V.E. (2012). System of biogas collection and utilization of landfill solid domestic wastes// Тekhnicheskie Gazy. [Industrial Gases]. — № 3. — P. 65-69. (Rus.).
Zhuk G.V., Pyatnichko A.I., Krushnevich V.T., Fedorenko D.S. (2014). Methane hydrates: situation analysis, the study of the properties, extraction and transportation problems// Тekhnicheskie Gazy. [Industrial Gases]. — № 2. — P. 3-10.
Smirnov A.V., Fesenko V.N., Naychuk V.V. et al. (2014). Construction of a high-speed reciprocating compressor installation based on 4GM10A for compressing the associated petroleum gas// Тekhnicheskie Gazy. [Industrial Gases]. — № 2. — P. 65-70. (Rus.).
Lavrenchenko G.K., Kopyitin A.V. (2010). Cryogenic complexes of LNG production and uploading, its acceptance, storage and regasification in the international trade system// Тekhnicheskie Gazy. [Industrial Gases]. — № 3. — P. 2-19. (Rus.).
Vasserman A.A., Slyinko A.G. (2014). Method of maritime tranportation of liquefied gases without recondensation// Тekhnicheskie Gazy. [Industrial Gases]. — № 1. — P. 48-51. (Rus.).
Vasserman A.A., Lavrenchenko G.K. (2014). Analysis of methods of gases maritime tranportation// Тekhnicheskie Gazy. [Industrial Gases]. — № 2. —P. 57-64. (Rus.).
Chepalis I.V., Kozminyih N.A. (2014). The analysis of consequences and criticality of gas reliquefaction installations failures of methane carrier ships// Тekhnicheskie Gazy. [Industrial Gases]. — № 3. — P. 38-42. (Rus.).
Parafeynik V.P. Prilipko S.A. (2014). The performance evaluation of the turbocompressor installation with a gas-turbine drive for petroleum gas compression// Тekhnicheskie Gazy. [Industrial Gases]. — № 3. — P. 48-58. (Rus.).
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