Skip to main content
Article thumbnail
Location of Repository

Assessment of the relationship between the spilled LNAPL volume and its thickness in monitoring wells considering the water table fluctuation history

By Muhammad Saleem
Topics: Civil Engineering
Year: 2005
OAI identifier: oai:generic.eprints.org:10497/core450
Provided by: KFUPM ePrints

Suggested articles

Citations

  1. (1992). 148 Fiedler F.R. An investigation of the relationship between actual and apparent gasoline thickness in a uniform sand aquifer. doi
  2. (1980). A closed form equation for predicting the hydraulic conductivity of unsaturated soils.” doi
  3. (1990). A comparison of capillary pressure pressure-saturation relations for drainage in two-and three-fluid porous media. doi
  4. (1992). A comprehensive three-dimensional numerical model for predicting the fate of petroleum hydrocarbons in the subsurface. In:
  5. (1987). A model for hysteretic constitutive relations governing multiphase flow, 1. Saturation-pressure relations. doi
  6. A modelling and experimental study of light Nonaqueous phase liquid (LNAPL) accumulation in wells and LNAPL recovery from wells. doi
  7. (1985). A multiphase approach to the modelling of porous media contamination by organic compounds 2. Model development. doi
  8. (1985). A multiphase approach to the modelling of porous media contamination by organic compounds, 1: Equation development. doi
  9. (1988). A new tool to determine the actual thickness of free product in a shallow aquifer. In:
  10. (1990). A new tool to measure petroleum thickness in shallow aquifers.
  11. (1987). A parametric model for constitutive properties governing multiphase flow in porous media. doi
  12. (1972). A review of immiscible fluids in the subsurface: Properties models, characterization and remediation. doi
  13. (1997). A saemianalytical model to predict recovery of light Nonaqueous phase liquids from unconfined aquifers. doi
  14. (1989). An efficient finite element method for modelling multiphase flow in porous media. doi
  15. (1995). An investigation of saturation-capillary pressure relations in two-and three-fluid systems for several NAPLS in different porous media. doi
  16. (1988). Analysis of measured free product thickness in dynamic aquifers.
  17. (1999). Analytical and numerical analysis of LNAPL migration and LNAPL thickness estimation in unconfined aquifers.
  18. (1976). Application of ground water flow theory to a subsurface oil spill. doi
  19. (2003). Applied Research Project (AR-22-91), King Abdul Aziz City for Science and Technology,
  20. (1990). Assessing UST corrective action technologies: Site assessment and selection of unsaturated zone treatment technologies. EPA/600/2-90/011, U.S.EPA, Risk Red.
  21. (1998). Behaviour of light immiscible liquid contaminants in fractured aquifers. doi
  22. (1998). Behaviour of volatile organic liquid mixtures in the soil environment. Soil and Aquifer Pollution NonAqueous Phase Liquids Contamination and Reclamation, doi
  23. (1982). Belltown Sunoco gas spill., East Hampton, CT. Technical report submitted to Continental Insurance Company, Underwriters Adjusting Company (1982b). 151 Hoag G.E., Belltown Sunoco gasoline spill.,
  24. (1968). Calculation of imbibition relative permeability for two and three phase flow from rock properties.” doi
  25. Calculations and experimental investigations of the migration of oil products in natural soils. In: Int. Symp. On Ground Water Pollution by Oil Hydrocarbons,
  26. (1985). Consideration on water, oil, and air in porous media. Water Sci.
  27. (1998). Construction Procedures and Specifications for Embankments around the Water Transmission Pipeline"
  28. (1983). Containment and recovery of refined hydrocarbons from ground water. In:
  29. (1991). Contamination of soil and groundwater by automatic transmission fluid: Site description and problem assessment. doi
  30. (1976). Countermeasures to control oil spills in western Canada. doi
  31. (1991). Dense nonaqueous phase liquids, Ground Water Issue.,
  32. (1997). Detection Methods for Petroleum underground storage tanks and piping. www.leak.ust.pdf, doi
  33. Determination of a realistic estimate of the actual formation product thickness using monitoring wells: A field bailout test. In:
  34. (1984). Determination of hydrocarbon thickness in sediments using borehole data. In:
  35. (1992). Determination of subsurface fluid contents at a crude-oil spill site. doi
  36. (1988). Determining three phase permeability-saturation-pressure relations from two phase system measurements. Geoderma doi
  37. (1998). Discrete wellbore simulations of pump-and-treat stretegies for remediation of LNAPL-contaminated aquifers. doi
  38. (1984). Discrimination between real and apparent accumulation of immiscible hydrocarbons on the water table: A theoretical and empirical analysis.
  39. (1972). Discussion of estimation of free product hydrocarbon volume from fluid levels in monitoring wells.
  40. Effect of fluctuating water levels on biodegradation of NAPLS in soil.
  41. (2002). Effect of groundwater table fluctuation on LNAPL thickness in monitoring wells. doi
  42. (1996). Effect of subsurface heterogeneity on free-product recovery from unconfined aquifers. doi
  43. Effects of soil types on separate phase hydrocarbon recovery under fluctuating water table conditions. In:
  44. (1983). Energy Data Book: Edition 7. Report ORNL-6050, Prepared for the office of Vehicle and Engine Research and Development, Department of Energy
  45. (1997). Entrapment of non-aqueous-phase liquids in NAPLwater porous media: the residual-funicular NAPL saturation relation. CMR, Centre for Multiphase Research News,
  46. (1989). Estimating hysteresis in the soil water retention function. In:
  47. (1979). Estimating soil water retention characteristics from particle size distribution, organic matter percent, and bulk density. doi
  48. (1990). Estimation of free product hydrocarbon volume from fluid levels in monitoring wells. doi
  49. (1989). Estimation of Soil Hydraulic properties and their uncertainty from particle size distribution data. doi
  50. (1993). Estimation of soil properties and free product volume from bail-down tests. In Proc. Petroleum Hydrocarbons and Organic Chemical in Ground Water, National Water Well Association,
  51. (1973). Estimation of three phase relative permeability and residual oil data. doi
  52. (1992). Evaluation of groundwater extraction for remediation of petroleum contaminated aquifers. doi
  53. (1990). Evaluation of liquid and vapor monitoring devices for underground storage tank leak detection. In:
  54. (1992). Evaluation of visual methods to detect NAPL in soil and water. Ground Water Mon. doi
  55. (1989). Experimental determination of three-fluid saturation profiles in porous media. doi
  56. (1988). Experimental validation of the theory of extending twophase saturation-pressure relations to three-fluid phase systems for monotonic drainage paths. doi
  57. (1989). Free gasoline thickness in monitoring wells related to groundwater elevation change.
  58. (1991). Free petroleum hydrocarbon volume estimates from monitoring well data. doi
  59. (2000). Free-product recovery of petroleum hydrocarbon liquids. Ground Water Mon. doi
  60. (1971). Gasoline pollution of a groundwater reservoir – A case history. doi
  61. (1986). Gasoline residual saturation in unsaturated uniform aquifer material. doi
  62. (1981). Groundwater pollution from gasoline. Ground Water Mon. doi
  63. (1964). Hydraulic Properties of Porous Media.” doi
  64. (1974). Hydrocarbon dispersion in groundwater: Significance characteristics. doi
  65. (1984). Hydrocarbon retrieval and apparent hydrocarbon thickness: Interrelations to recharging/discharging conditions.
  66. (1990). Hydrocarbon thickness fluctuations in monitoring wells.” doi
  67. (1988). Hydrocarbon thickness on groundwater by dielectric well logging. In:
  68. (1992). Improved apparatus for measuring hydraulic conductivity at low water content. doi
  69. (1989). In:
  70. (1977). In: American Institute of Chemical Engineers Symposium on Improved Oil Recovery by surfactant and Polymer Flooding, doi
  71. (1987). Installation of hydrocarbon detection wells and volumetric calculations within a confined aquifer. In:
  72. (1938). Interfacial tension between water and oil under reservoir conditions.
  73. (1999). Interpretation of LNAPL thickness measurements under unsteady conditions. doi
  74. (1990). Introduction to contaminant hydrology. Physical and chemical hydrology. 1 st edition, Singapore:
  75. (1988). Laboratory investigation of the relationship between actual and apparent product thickness in sands. In: doi
  76. (1995). Light Nonaqueous phase liquids. Ground Water Issue, U.S., Environmental Protection Agency,
  77. (1989). Limitations of monitoring wells for the detection and quantification of petroleum products in soils and aquifers. doi
  78. (1991). LNAPL distribution in a cohesion less soil: A field investigation and cryogenic sampler. doi
  79. (1993). LNAPL retention in sandy soil. doi
  80. (1996). LNAPL thickness in monitoring wells considering hysteresis and entrapment. doi
  81. (2000). LNAPL thickness interpretation based on bail-down test. doi
  82. (1998). LNAPL volume calculation: Parameter estimation by nonlinear regression of saturation profiles. doi
  83. Measurement and estimation of permeability-saturation-pressure relations in multiphase porous media systems.
  84. (1992). Measurement and modelling of three-phase saturation-pressure hysteresis. doi
  85. (1987). Measurement and prediction of saturation-pressure relations in three-phase porous media system. doi
  86. (2001). Measurement of fluid contents by light transmission in transient three-phase oil-water-air systems in sand. doi
  87. (1986). Mechanics of immiscible fluids in porous media. Water Resources Publishers,
  88. (1986). Mechanics of immiscible fluids in porous media.” Water Resources Publishers,
  89. (2000). Migration of non-aqueous phase liquids in subsurface.
  90. (1989). Modeling multiophase migration of organic chemicals in groundwater systems: A review and assessment. doi
  91. (1997). Modeling wells in variably saturated soil with well bore fluid gravity segregation. doi
  92. (2000). Modelling and remediation of non-aqueous phase liquids in unsaturated zones.
  93. (1994). Modelling free product migration and recovery at hydrocarbon spill sites. doi
  94. Modelling of the effects of cyclic water table fluctuation on fate of NAPL gan-glia. In:
  95. (1989). Modelling the hydraulic conductivity of unsaturated porous media. In: doi
  96. (1984). Monitoring petroleum spills with wells: Some problems and solutions. In:
  97. (1998). Moss loss from LNAPL pools under fluctuating water table conditions. doi
  98. (1997). Multiphase flow and transport modeling in heterogenous porous media: Challenges and approaches. doi
  99. (1992). Multiphase flow with simplified model for oil entrapment. doi
  100. (1994). Non-aqueous phase hydrocarbon in a finegrained sand stone: 1. Comparison between measured and predicted saturations and mobility. doi
  101. (1994). Non-aqueous phase hydrocarbon in a finegrained sandstone: 2. Effect of local sediment variability on the estimation of hydrocarbon volumes. doi
  102. (1993). Non-aqueous phase hydrocarbon saturations and mobility in fine-grained, poorly consolidated sand stone.
  103. (2003). Nonaqueous Phase Liquid Pool Dissolution as a Function of average pore water velocity. doi
  104. (1984). Nonsteady three-phase immiscible fluid distribution in porous media. doi
  105. (1993). Numerical analysis of a three phase system with fluctuating water table. In:
  106. (1998). Numerical simulations and long-column tests of LNAPL displacement and trapping by a fluctuating water table. doi
  107. (1996). On the movement of an LNAPL lens on the water table. doi
  108. (1998). Overview of NAPL contamination and the reclamation. Soil and Aquifer Pollution Non-Aqueous Phase Liquids Contamination and Reclamation, doi
  109. (1942). Permeability as a function of the size parameters of unconsolidated sand.
  110. (1971). Petroleum contamination of groundwater in doi
  111. (1980). Petroleum Institute)., The migration of petroleum products in the soil and groundwater, Principles and countermeasures. API Publication no.
  112. (1979). Petroleum reservoir simulation.” Applied Science Publishers, London.
  113. (1994). Physical and mathematical modelling of diesel fuel liquid and vapour movement in porous media. doi
  114. (1974). Physics of flow through porous media.” Univ. of Toronto Press,
  115. (1980). Physics of oil entrapment in water-wet rock. doi
  116. (1986). Predicting the water retention curve from particle size distribution: Sandy soils without organic matter. doi
  117. (1970). Probability models for estimating three phase relative permeability, doi
  118. (1998). Protecting your groundwater through farmstead assessment.
  119. (1979). Protection of groundwater from oil pollution.
  120. (1990). Quantitative analysis for the cleanup of hydrocarbon contaminated soils by in-situ soil venting. doi
  121. (2002). Regulating underground fuel storage tanks (USTS), benefits and challenges.
  122. (1987). Relation between water infiltration and oil spill migration in sandy soils. doi
  123. Remedial programs for groundwater supplies contaminated by gasoline.
  124. (1998). Report Centrum voor Wiskunde en Informatica, doi
  125. (1977). Scaling field-measured soil hydraulic properties using similar media concept. doi
  126. (2002). Sensitivity Analysis,
  127. (2001). Sharp interface modelling of LNAPL spreading and migration on the water table. doi
  128. (1993). Simulation of fluid distributions observed at a crude-oil spill site incorporating hysteresis, oil entrapment, and spatial variability of hydraulic properties. doi
  129. (1989). Simulation of three dimensional flow of immiscible fluids within and below the unsaturated zone. doi
  130. (1987). States Environmental Protection Agency)., Underground storage tank corrective action technologies.
  131. (1941). Steady flow of gas-oil-water mixtures through unconsolidated sands.
  132. (1983). Subsurface gasoline contamination in Whitman, MA. A report of the State of Massachusetts, Department of Environmental Quality Engineering
  133. (1990). Testing of monitoring devices for JP-4 in subsurface.
  134. (2004). The Economics of Groundwater remediation and Protection: A Tool for Decision Making.
  135. (1995). The effect of capillary forces on immiscible two-phase flow in strongly heterogeneous porous media. doi
  136. (1996). The effect of interfacial tension on hydrocarbon entrapment and mobilization near a dynamic water table. doi
  137. (1993). The effect of soil particle size on hydrocarbon entrapment near a dynamic water table. doi
  138. (1956). The flow of three immiscible fluids in porous media. doi
  139. (1994). The hydrocarbon spill screening model (HSSM) Volume 1:
  140. (1997). The importance of fluid entrapment, saturation hysteresis and residual saturations on the distribution of a lighter-than-water non-aqueous phase liquid in a variability saturated sand medium. doi
  141. (1992). The influence of porous media characteristics and measurement scale on pore-scale distributions of residual nonaqueous phase liquids. doi
  142. The migration of hydrocarbons in a water bearing stratum.
  143. (1988). The occurrence of hydrocarbon on an unconfined aquifer and implications for liquid recovery. In:
  144. (1988). The pore level spatial distribution and saturation of organic liquids in porous media. In:
  145. (1996). The regulation of Underground Storage Tanks. Water quality & Waste Management,
  146. (1995). The relation ship between monitoring wells and aquifer solute concentration.
  147. (1988). The soil chemistry of hazardous materials. Hazardous Material Control Research Institute Publications, Silver Springs,
  148. (1992). Thesis, San Diego State Univ.
  149. (1995). Three phase flow and gravity drainage in porous media. doi
  150. (1997). Three-fluid retention in porous media involving water, doi
  151. (1956). Three-phase relative permeability. doi
  152. (1985). Transport of immiscible fluids within and below the unsaturated zone: AS numerical model. doi
  153. (1971). Transport of mineral oil components to groundwater. doi
  154. (1988). Two techniques for determining the true hydrocarbon thickness in an unconfined aquifer.
  155. (1986). Underground storage tanks monitoring: Observation well based system.
  156. (1990). Use of pervaporation for the removal of organic contaminants from water. doi
  157. (1997). Use of surrogate compounds to monitor non-aqueous phase liquid removal during a cosolvent flood. MS Thesis.
  158. Utilization of optoelectronic sensing to determine hydrocarbon thickness within confined aquifers. In:
  159. (1997). Vertical immiscible displacement and entrapment of an LNAPL by a fluctuating water table. A field, laboratory and numerical study.
  160. (1989). Vertical integration of three phase flow equations for analysis of light hydrocarbon plume movement. doi
  161. (1989). Volume determination and recoverability of free hydrocarbon. doi
  162. (1990). Volume estimate of light nonaqueous phase liquids in porous media. doi
  163. (1980). Water retention measurement for soils.”
  164. (1990). What can wells tell us about the location of immiscible fluids in aquifers?
  165. (1987). Why are residual saturation of organic liquids different above and below the water table. Presented at the Petroleum Hydrocarbons

To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.