The aim of this study was to geochemically and mineralogically assess materials from two already closed pits. Total testing and leachate testing (Equilibrium Leach Test and Sequential Leach Test) of topsoil, waste stabilized with lime and underlying rock was performed on composite samples. An analysis of underground water from underlying rock was also accomplished. Major pollutants in stabilized waste from investigated locations differ. High total values of some heavy metals in stabilized waste from one of the investigated locations can probably be attributed to high barite content (mercury, zinc and cadmium) and pipe dope (lead). Mercury, zinc and cadmium are enriched in the organic-sulfide fraction that might indicate they are tied up as sulfide impurities in barite. In distilled water lecheate of stabilized waste from this location higher concentrations of Pb, Hg and TOC were observed. In the stabilized waste from the second location high total values of total oils and mineral oils, PAH and BTEX were detected, while distilled water lecheate is enriched with Hg, total oils and mineral oils, AOX and TOC. This investigation shows that stabilization with lime is not always a suitable method for treatment of wastes from the petroleum industry, particularly those that are contaminated with both organic and inorganic contaminants. Proper characterization of the waste material to be processed is needed in order to select the most appropriate method of treatment. Our ongoing research study uses different pretreatment techniques and different absorbents (organophilic clay, calcined siliceous earth, etc.) to preferentially absorb organic contaminants that can be used before stabilization/solidification.

Issue Section:
Technical Papers
Keywords:
waste management, industrial waste, petroleum industry, geochemistry, calcium compounds, zinc, lead, cadmium, mercury (metal), sulphur compounds, absorption, soil pollution, environmental degradation, Petroleum Industry, Lime Stabilized Waste, Leaching Tests, Environment Protection, Croatia
Topics:
Petroleum, Petroleum industry, Rocks, Water, Mineral oil, Pollution, Leachates
1.
Gaurina-Medi¯murec⁠, N., 2000, “The Environmental Impact of Drilling and Production Operations,” The 4th International Symposium Power and Process Plants, Dubrovnik, May 24–26.
2.
Wojtanowicz, A. K., 1996, “Environmental Control Technology in Petroleum Drilling and Production,” Part III of Environmental Technology in the Oil Industry, Edited by S. T. Orszulik, Blackie Academic & Professional, London.
3.
Waste Law, 1995, (Official Bulletin No. 34/95), Zagreb, Croatia.
4.
Regulation on the Waste Types, 1996, (Official Bulletin No. 27/96.), Zagreb, Croatia.
5.
Regulation on the Waste Management Conditions, 1997, (Official Bulletin No. 123/97.), Zagreb, Croatia.
6.
Regulation on the Hazardous Waste Management Conditions, 1998, (Official Bulletin No. 32/98.), Zagreb, Croatia.
7.
Gaurina-Medi¯murec⁠, N., Krisˇtafor, Z., and Matanovic´, D., 2000, “Subsurface Injection of DrillingFluid Waste,” The 3rd International Symposium Power and Process Plants, Dubrovnik, June 24–26.
8.
Gaurina-Medi¯murec⁠, N., Krisˇtafor, Z., Matanovic´, D., Kulenovic´, I., and Gospic´-Miocˇev, D., 1999, “Subsurface Disposal of Technological Waste–Present and Future in Croatia,” Nafta 50 (9), Zagreb.
9.
Gaurina-Medi¯murec⁠, N., et al., 1998, “Study on Environment Impacts of Plant for Treatment of Technological Waste from Oil & Gas Production Process on Field Molve and Injection of Liquid Waste in the Mol-8 Well,” Faculty for Mining, Geology and Petroleum Engineering, University of Zagreb, Zagreb.
10.
The Main Standard Mining Project, “Elimination of Mud Pits in Ina-Naftaplin,” Zagreb, 1990.
11.
Durn, G., Gaurina-Medi¯murec⁠, N., et al., 2001, “Study on Environment Impacts of Central Oilfield Pit Solidification on Field Lipovljani,” Faculty of Mining, Geology and Petroleum Engineering, University of Zagreb, Zagreb.
12.
Gaurina-Medi¯murec⁠, N., Durn, G., et al., 2001, “Study on Environment Impacts of Drilling Reserve Pit Solidification on Field Molve,” Faculty of Mining, Geology and Petroleum Engineering, University of Zagreb, Zagreb.
13.
Brown, G., 1961, “The X-ray Identification and Crystal Structures of Clay Minerals,” Miner. Soc., London, pp. 544.
14.
Brindley, G. W., and Brown, G., 1980, “Crystal Structures of Clay Minerals and their X-ray Identification,” Miner. Soc., London, pp. 495.
15.
Moore, D. M., and Reynolds, R. C., 1989, “X-ray Diffraction and the Identification and Analysis of Clay Minerals,” Oxford University Press, Oxford, pp. 326.
16.
S´rodon´
,
J.
,
1984
, “
X-ray Powder Diffraction Identification of Illitic Materials
,”
Clays Clay Miner.
,
32
,
337
349
.
17.
S´rodon´, J., and Eberl, D. D., 1984, “Illite.” In: S. W. Bailey (Editor), Micas.-Rev. Miner. 13, Miner. Soc. America, pp. 495–544.
18.
Tessier
,
A.
,
Campbell
,
P. G. C.
, and
Bisson
,
M.
,
1979
, “
Sequential Extraction Procedure for the Speciation of Particulate Trace Metals
,”
Anal. Chem.
,
51
, pp.
844
851
.
19.
Hall, G. E. M., Vaive, J. M., Beer, R., and Hoashi, M., 1996, “Phase Selective Leaches for Use in Exploration Geochemistry,” In: Bonham-Carter, G. F., Galley, A. G., Hall, G. E. M. (Eds.) A Multidisciplinary Approach to Massive Sulphide Research in the Rusty Lake-Snow Lake Greenstone Belts, Manitoba. Geological Survey of Canada, Bulletin 426, pp. 169–200.
20.
LaGrega, M. D., Buckingham, P. L., and Evans, J. C., 1994, Hazardous Waste Management, McGraw-Hill, Inc., Singapore.
21.
Regulation on the Agriculture Land Protection from Pollutants Contamination, 1992, (Official Bulletin No. 15/92.), Zagreb, Croatia.
22.
Regulation on the Water Classification, 1998, (Official Bulletin No. 77/98.), Zagreb, Croatia.
23.
Smith, A. S., 1998, “Stabilization/solidification Processes,” In: NATO/CCMS Pilot Study, Evaluation of Demonstrated and Emerging Technologies for the Treatment and Clean Up of Contaminated Land and Groundwater, Phase II, Final Report, No. 219, pp 8-1 to 8-11.
24.
Montgomery
,
D. M.
,
Sollars
,
C. J.
,
Perry
,
R.
,
Tarling
,
E.
,
Barnes
,
O.
, and
Handerson
,
E.
,
1991
, “
Treatment of Organic-contaminated Industrial Wastes Using Cement-Based Stabilization/Solidification–I. Microstructural Analysis of Cement-organic Interactions.
Waste Manage. Res.
,
9
, pp.
103
-
111
.
25.
Jones, L. W., 1990, “Interference Mechanisms in Waste Stabilization/Solidification Processes.” EPA/600/2-89/067, U.S. Environmental Protection Agency, Cincinnati, Ohio.
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