Final published version
Research output: Contribution to Journal/Magazine › Journal article › peer-review
Research output: Contribution to Journal/Magazine › Journal article › peer-review
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TY - JOUR
T1 - Reconstruction of the evolution of deep fluids in light oil reservoirs in the Central Tarim Basin by using PVT simulation and basin modeling
AU - Chen, C.
AU - Wang, Y.
AU - Beagle, J.R.
AU - Liao, L.
AU - Shi, S.
AU - Deng, R.
PY - 2019/9/1
Y1 - 2019/9/1
N2 - To better understand the fluid phase state and its evolution in a deep environment, an integrated PVT simulation and basin modeling method for two light oil reservoirs in the Central Tarim Basin was proposed and applied. The fluid phase models were built using PVT simulation technology after successfully recovering the fluid compositions. The envelopes of fluid from either the Awatage Formation (Є 2 a) for Well ZS1 or the Wusongar Formation (Є 1 w) for Well ZS5 show the order from cricondenbar (P m ), critical point (C p ) to cricondentherm (T m ), suggesting a single liquid phase for the present fluids in the Cambrian subsalt dolomite reservoirs. The result of this study indicates that the two reservoirs did not experience phase changes, phase differentiation, or oil cracking and maintained a universal state of the liquid phase over time by combining the evolutionary history of temperature and pressure derived from basin modeling. The fluid density and viscosity experienced relatively complicated fluctuation processes, and the fluctuations of fluid viscosity over geologic history are much more apparent than the variations in fluid density. The density and viscosity of the Awatage Formation (Є 2 a) for Well ZS1 are found to be lower than those of the Wusongar Formation (Є 1 w) for Well ZS5. The results reveal that factors, such as good trap conditions, a stable tectonic background, a low paleo-geothermal gradient (1.6–2.8 °C/100 m), and the weak effect of thermal sulfate reduction (TSR) altogether act on the early-accumulated light oil and gas that has been preserved as a single liquid phase over time. These results are significant for future explorations of large-scale liquid petroleum in Cambrian subsalt dolomite reservoirs of the Central Tarim Basin.
AB - To better understand the fluid phase state and its evolution in a deep environment, an integrated PVT simulation and basin modeling method for two light oil reservoirs in the Central Tarim Basin was proposed and applied. The fluid phase models were built using PVT simulation technology after successfully recovering the fluid compositions. The envelopes of fluid from either the Awatage Formation (Є 2 a) for Well ZS1 or the Wusongar Formation (Є 1 w) for Well ZS5 show the order from cricondenbar (P m ), critical point (C p ) to cricondentherm (T m ), suggesting a single liquid phase for the present fluids in the Cambrian subsalt dolomite reservoirs. The result of this study indicates that the two reservoirs did not experience phase changes, phase differentiation, or oil cracking and maintained a universal state of the liquid phase over time by combining the evolutionary history of temperature and pressure derived from basin modeling. The fluid density and viscosity experienced relatively complicated fluctuation processes, and the fluctuations of fluid viscosity over geologic history are much more apparent than the variations in fluid density. The density and viscosity of the Awatage Formation (Є 2 a) for Well ZS1 are found to be lower than those of the Wusongar Formation (Є 1 w) for Well ZS5. The results reveal that factors, such as good trap conditions, a stable tectonic background, a low paleo-geothermal gradient (1.6–2.8 °C/100 m), and the weak effect of thermal sulfate reduction (TSR) altogether act on the early-accumulated light oil and gas that has been preserved as a single liquid phase over time. These results are significant for future explorations of large-scale liquid petroleum in Cambrian subsalt dolomite reservoirs of the Central Tarim Basin.
KW - Basin modeling
KW - Fluid composition
KW - Light oil reservoirs
KW - PVT simulation
KW - Tarim Basin
KW - Liquids
KW - Petroleum reservoir engineering
KW - Petroleum reservoirs
KW - Sulfur compounds
KW - Viscosity
KW - Subsalt strata
U2 - 10.1016/j.marpetgeo.2019.05.009
DO - 10.1016/j.marpetgeo.2019.05.009
M3 - Journal article
VL - 107
SP - 116
EP - 126
JO - Marine and Petroleum Geology
JF - Marine and Petroleum Geology
SN - 0264-8172
ER -