03661oam 2200577I 450 991078756970332120170816143443.00-429-16830-61-4665-9310-510.1201/b16092 (CKB)2670000000394812(EBL)1418403(SSID)ssj0001041219(PQKBManifestationID)11579670(PQKBTitleCode)TC0001041219(PQKBWorkID)11009374(PQKB)10775819(MiAaPQ)EBC1418403(OCoLC)862745949(CaSebORM)9781466593107(EXLCZ)99267000000039481220180331h20142014 uy 0engur|n|---|||||txtccrPetroleum radiation processing /Yuriiy Zaikin, Raissa Zaikina1st editionBoca Raton :CRC Press,[2014]©20141 online resource (370 p.)Description based upon print version of record.1-4665-9311-3 Includes bibliographical references.Front Cover; Contents; Authors; Introduction; Chapter 1: Theory of Radiation-Induced Cracking Reactions in Hydrocarbons; Chapter 2: Experimental Studies of Radiation-Thermal Cracking in Hydrocarbons; Chapter 3: Methods for Petroleum Processing Based on Radiation-Thermal Cracking; Chapter 4: Complex Radiation-Thermal Treatment and Radiation Ozonolysis of Petroleum Feedstock; Chapter 5: High Dose-Rate Radiation Processing of Petroleum Feedstock in a Wide Temperature Range; References; Back CoverIntroduction: Radiation methods for petroleum processing have attracted the attention of researchers since the early 1960s when the discovery of the phenomenon of radiation-thermal cracking presented an opportunity of using ionizing irradiation for high-rate deep oil processing. New technologies for high-viscous and heavy oil processing were developed with technical advances in the 1990s. These technologies are now ready to be scaled up for industrial applications. Radiation-thermal cracking of oil feedstock represents a solution to overcoming many acute problems of the oil industry. However, processes based on radiation-thermal cracking require heightened temperatures that are usually about 40% lower than those characteristic for thermocatalytic cracking. This is acceptable for many refinery operations; however, other applications, such as oil upgrading near the sites of its extraction, require radical reduction of the process temperature. Observation of radiation-induced chain cracking reactions in hydrocarbons at lowered temperatures initiated the development of improved technological approaches, combining the advantages of radiation-thermal cracking and low-temperature feedstock processing. Progress in radiation technologies for oil processing demanded more detailed elaboration of the theory of thermally and radiation-induced self-sustaining cracking reactions. Researchers still face serious difficulties in the practical application of the theory to experimental data interpretation--Provided by publisher.Cracking processRadiation chemistryCracking process.Radiation chemistry.665.5/33SCI013060SCI055000TEC009010bisacshZaikin Yuriiy1548405Zaikina RaissaFlBoTFGFlBoTFGBOOK9910787569703321Petroleum radiation processing3805403UNINA