Browse > Article
http://dx.doi.org/10.12925/jkocs.2017.34.4.1112

Study on the Density and Volume Change Property of Petroleum Products according to Temperature Variation  

Hwang, In-ha (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
Doe, Jin-woo (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
Kang, Hyung-kyu (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
Sung, Sang-rae (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
Ha, Jong-han (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
Na, Byung-ki (Department of Chemical Engineering, Chungbuk National University)
Publication Information
Journal of the Korean Applied Science and Technology / v.34, no.4, 2017 , pp. 1112-1120 More about this Journal
Abstract
Petroleum products are composed of various types of hydrocarbon compounds. Like other types of liquids, they presented the variation of density and volume according to temperature change. The method of measuring the density of petroleum products in a liquid phase is based on experimental data obtained mainly for each fractionally distilled petroleum product. In this study, the density and volume changes of kerosene and automotive diesel according to temperature change were measured and the property of change were analyzed. The conversion values were calculated using the density volume conversion table proposed by international standard ASTM. In addition, we analyzed the differences between the reference values and the measured values for the temperature changes specified in the domestic metering law.
Keywords
Kerosene; Automotive diesel; Density; Volume; Conversion;
Citations & Related Records
연도 인용수 순위
  • Reference
1 E. R. Robinson, "Density Prediction and Mass Measurement for High Vapour Pressure Crude Oils", in Papers Presented to the International Conference on the Use of Micros Fluid Engineering, pp. 65, (1983)
2 L. P. Filippov, Izv. Vyssh. Uchebn. Zaved. Neft' Gaz, No.5, pp. 54, (1981).
3 KS M ISO 12185, "Crude Petroleum and Petroleum products - Determination of Density -Oscillating U-tube method", Korea, (2013),
4 ASTM D 1250-08, "Standard Guide for Use of the Petroleum Measurement Tables", (2013)
5 Measures Act, Ministry of Trade, Industry and Energy, US, (2017).
6 Enforcement Decree of the Measures Act, Ministry of Trade, Industry and Energy, (2014).
7 M. R. Riazi, Characterization and Properties of Petroleum Fractions, pp. 87-149, ASTM International, (2005)
8 O. Alomair, M. Jumaa, A. Alkoriem, M. Hamed, "Heavy Oil Viscosity and Density Prediction at Normal and Elevated Temperatures", J. Petrol. Explor. Prod. Technol.. Vol.6, pp. 253-263, (2016).   DOI
9 M. Sattarin, H. Modarresi, M. Bayat, M. Teymori, "New Viscosity Correlations for Dead Crude Oils", Pet Coal, Vol.49, pp. 33-39, (2007).
10 F. Ahrabi, S. J. Ashcroft, R. B. Shearn, "High Pressure Volumetric Phase Composition and Viscosity Data for a North Sea Crude Oil and NGL Mixtures", Chem. Eng, Res. Vol.67, pp. 329-334, (1987).
11 C. Collins. Implementing Phytoremediation of Petroleum Hydrocarbon, Methods in Biotechnology, p.99-108, Humana Press, (2007)
12 Petroleum and Alternative Fuel Business Act, Ministry of Trade, Industry and Energy, (2017).
13 B. A. Grigor'ev, N. A. Ovchinnikovh, "The Density of Petroleum Products in Wide Range of Parameters of State", High Temperature, Vol.48, No.1 pp. 47-51, (2010).   DOI
14 B. A. Grigor'ev, Yu. L. Rastorguev, E. V. Koval'skii, N. V. Shevchenko, Plotnost' (udel'nyi ob"em) zhidkikh neftei i nefteproduktov. RMR-8, GSSSD metodika (The Density (Specific Volume) of Liquid Oils and Petroleum Products. RMR-8, Procedures of the State Service of Standard and Reference Data), Moscow, (1982).
15 J. R. Salvatore, Significance of Tests for Petroleum Products, pp. 3-106, ASTM International, (2010)