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A platform for research: civil engineering, architecture and urbanism
Assessment of Resource Potential of Heavy Petroleum Residues by Data Envelopment Analysis
Abstract The resource potential of heavy petroleum residues for obtaining high-quality road asphalt has been estimated using data envelopment analysis (DEA), an effective method for processing large data arrays. The approach used has made it possible to determine the frontier of the resource potential of heavy petroleum residues, that is, to predict the quality of asphalt for any combination of the composition of residual petroleum feedstock and obtain information about the necessity of adjusting the component composition of mixtures for manufacturing the product with desired properties. Using a sample of 99 experiments, it has been shown that the highest efficiency in achieving the normative characteristics of asphalt is achieved by introducing heavy vacuum gas oil and atmospheric residue into a highly viscous vacuum residue. The feasibility has been shown of using effectively deasphalted asphalt and slop as modifying components, the optimum concentrations of which in the vacuum residue are 20 and 40 wt %, respectively.
Assessment of Resource Potential of Heavy Petroleum Residues by Data Envelopment Analysis
Abstract The resource potential of heavy petroleum residues for obtaining high-quality road asphalt has been estimated using data envelopment analysis (DEA), an effective method for processing large data arrays. The approach used has made it possible to determine the frontier of the resource potential of heavy petroleum residues, that is, to predict the quality of asphalt for any combination of the composition of residual petroleum feedstock and obtain information about the necessity of adjusting the component composition of mixtures for manufacturing the product with desired properties. Using a sample of 99 experiments, it has been shown that the highest efficiency in achieving the normative characteristics of asphalt is achieved by introducing heavy vacuum gas oil and atmospheric residue into a highly viscous vacuum residue. The feasibility has been shown of using effectively deasphalted asphalt and slop as modifying components, the optimum concentrations of which in the vacuum residue are 20 and 40 wt %, respectively.
Assessment of Resource Potential of Heavy Petroleum Residues by Data Envelopment Analysis
Tyukilina, P. M. (author) / Krasnikov, P. E. (author) / Derevyanov, M. Yu. (author) / Pimenov, A. A. (author) / Pleshivtseva, Yu. E. (author)
Petroleum Chemistry ; 59 ; 1207-1212
2019-11-01
6 pages
Article (Journal)
Electronic Resource
English
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