Construction of oil and gas product storage facilities is one of the oil and gas activities in the downstream sector. A common impact on the environment from oil and gas activities is in the form of pollution of land, water, or air, it is necessary to identify the level of vulnerability to pollution early, areas that are sensitive to pollution are the main concern. The results of the initial identification of the level of vulnerability to pollution are shown in the map of the level of vulnerability to pollution processed using a geographic information system using the method of interpolation, weighting, and overlapping. The results of the initial identification of the level of vulnerability to pollution at the location of the oil and gas product storage facilities are divided into 3 (three) classes of vulnerability levels, low, medium, and high. The study area is in a relatively medium to high level of vulnerability with a high level of vulnerability being near the sea, so it needs high attention in its management.

geographic information system; level of vulnerability to pollution; pollution

K.N. Sheth, “Envirovision For Valuation Of Contaminated Assets”, Indian Surveyor, pp. 102 -105, 2003.

Envirovision Inc., “Phase I Envirovision (Report)”, 2018

Yun Xie, Binggeng Xie, Ziwei Wang, R. K. Gupta, M. Baz, dan M. A. Al Zain, “Geological Resource Planning and Environmental Impact Assessments Based on GIS”, Sustainability, Vol. 906, pp. 1 – 12, 2022

Mirzaei, R. dan Sakizadeh, M., “Comparison of interpolation methods for the estimation of groundwater contamination in Andimeshk-Shush Plain, Southwest of Iran”, Environmental Science and Pollution Research, vol. 23, pp. 2758–2769, 2016.

G.S. Bhunia, P. K. Shit, dan R. Maiti, “Comparison of GIS-based interpolation methods for spatial distribution of soil organic carbon (SOC)”, Journal of the Saudi Society of Agricultural Sciences, Vol. 17, pp. 114 – 126, 2018

ESRI, “What is empirical Bayesian kriging?”, https://pro.arcgis.com/en/pro-app/2.7/help/analysis/geostatistical-analyst/what-is-empirical-bayesian-kriging-.htm

H.A.Hussain, S.A. Abdullah1, dan A.A. Al Maliki, “Using Spatial Analysis Methods to Evaluate the Soil Contamination of Baghdad City, Iraq”, Journal of Physics: Conference Series, Vol. 2114, pp. 1 – 8, 2021

S. Drobne and A. Lisec, “Multi-attribute Decision Analysis in GIS: Weighted Linear Combination and Ordered Weighted Averaging”, Informatica, Vol. 33, pp. 459–474, 2009.

D.M. Sihotang, “Metode Skoring dan Metode Fuzzy dalam Penentuan Zona Resiko Malaria di Pulau Flores”, JNTETI, Vol. 5, pp. 302 – 308, (2016).

ESRI,” Weighted Overlay (Spatial Analyst)”, https://pro.arcgis.com/en/pro-app/2.8/tool-reference/spatial-analyst/weighted-overlay.htm