Title Ensuring measurement integrity in petroleum logistics: applying standardized methods, protocols, and corrections
Authors Meškuotienė, Asta ; Kaškonas, Paulius ; Urbonavičius, Benas Gabrielis ; Dobilienė, Justina ; Raudienė, Edita
DOI 10.3390/app15126886
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Is Part of Applied sciences.. Basel : MDPI. 2025, vol. 15, iss. 12, art. no. 6886, p. 1-22.. ISSN 2076-3417
Keywords [eng] buoyancy ; commercial transactions ; liquefied petroleum products ; mass in air ; measurement losses ; temperature correction factor ; volumetric and geometric measurement method
Abstract [eng] This report analyzes the different standard methods of quantity measurement, which, when applied in the processes of receiving and transferring fuel quantities, lead to discrepancies and accounting losses. Three main factors contribute to these discrepancies: unavoidable errors of measuring devices (calibration uncertainty ranging from 0.1 to 0.5% at best), systematic errors due to non-applied corrections during transactions, and systematic errors due to different regulations, which result in inconsistent conversion rules applied throughout the entire purchase-production-sales chain. Modeling of air buoyancy effects showed that neglecting buoyancy correction can lead to measurable and economically significant discrepancies, especially in large-scale operations. The mass of light petroleum products can be underestimated by up to 0.15%, potentially resulting in approximately $3 million in annual financial losses for a medium-sized refinery processing 10,000 tonnes per day. These findings underscore the necessity of applying buoyancy corrections for conventional weighing, especially for liquid petroleum products (LPP) measured in open systems. Conversely, for LPG weighed in closed, pressurized containers, a constant correction factor (0.99985) applies, but its economic impact is negligible. Therefore, the study recommends omitting this LPG correction unless contractually required, to streamline processes and reduce complexity. Achieving result comparability throughout the entire petroleum supply chain requires implementing uniform quantity calculation provisions using calibrated instruments and standardized methods under different conditions. This necessitates that all measurement results are traceable to reference conditions (mass in vacuum, volume at +15 °C). The proposed algorithms for oil mass and volume measurement and recalculation highlight the need for unified international regulations and a robust system.
Published Basel : MDPI
Type Journal article
Language English
Publication date 2025
CC license CC license description