A Literature Review On Cold Cracking Of Petroleum Crude Oil

It is obvious from the literature review and private discussions with experts that application of radiation cracking of larger molecules found in crude oils to make (refine) higher value lighter petroleum products is not new. Radiation in different forms (neutrons, electrons, X-rays, Gamma-rays, etc.) can be delivered to petroleum crude oil with energy that is many orders of magnitude in excess of that required to break large hydrocarbon molecules. Some specific observations from the literature include the following: Radiation research applied to petroleum has been pursued by major oil companies, academia and National Laboratories since the 1950's. A wide variety of radiation sources have been explored as high energy sources: emitting neutrons, electrons, gammaray, beta particles and fission products. There are a few energy company U.S. patents that provide detailed results comparing yields from radiation processing of crude oil with conventional refined product yields. None of the patents proved commercial because the energy balance was uncertain. Interest in radiation processing of petroleum languished for about 30 years. Most energy companies and refiners disbanded their nuclear divisions by 1983. Government and academic research on nuclear and hydrocarbons (bond breaking and molecular rearrangement) continued but was limited to model hydrocarbon compounds - clean, well-defined multi-component systems. However, discussion of the use of excess heat from nuclear reactors continued to be of interest to both energy companies and academia. Renewed interest in application of radiation to petroleum processing was generated after the collapse of the former Soviet Union, when many Russian nuclear scientists became idle. Since the 1990's, international efforts, through the International Atomic Energy Agency (IAEA) led to funding a series of proposals from the nuclear scientists in the Republic of Kazakhstan. The use of high energy electrons, generated by a linear electron accelerator, resulted in a series of publications for the Kazakh scientists. Some studies indicate improved efficiency, and highlighted some of the limitations of using high flux electrons to process different types of crude oils found in central Russia and Kazakhstan. This recent Kazakh work has generated renewed interest from a number of U.S. companies that hope to patent the technology and further define the viability of using electron beams as a way of refining crude oil to produce higher value liquid fuels.

• | Author: United States United States Department of Energy, Penny Hill Press Inc
• | Publisher: CreateSpace Independent Publishing Platform
• | Publication Date: Jan 14, 2016
• | Number of Pages: 28 pages
• | Language: English
• | Binding: Paperback
• | ISBN-10: 152338932X
• | ISBN-13: 9781523389322