論文

[1] Huang Z Q*, Wang Z X, Hu H F, et al. Dynamic interwell connectivity analysis of multi-layer waterflooding reservoirs based on an improved graph neural network[J]. Petroleum Science, 2024, 21(2): 1062-1080.(SCI)
[2] Guo W, Huang Z Q*, Li A, et al. Visual experiments of bottom water and multi-well water and gas injection flooding for fault-controlled fractured-vuggy reservoirs[J]. Physics of Fluids, 2023, 35(8). (SCI)
[3] Huang Z Q*, Liu Z, Yao J, et al. Hydromechanical behavior analysis of fractured vuggy carbonate rocks based on homogenization theory[J]. Physics of Fluids, 2023, 35(11). (SCI)
[4] Li J, Yao J, Huang Z Q*, et al. An efficient numerical simulation of coupled thermo-hydro-mechanical processes in deep shale gas reservoirs[J]. Physics of Fluids, 2023, 35(12). (SCI)
[5] Huang Z Q*, Wang H, Su X, et al. A two-scale fractal permeability model for vuggy porous media[J]. Physics of Fluids, 2023, 35(2). (SCI)
[6] Su X, Ren B, Huang Z Q*. Permeability analysis of fractured-vuggy carbonate reservoirs based on fractal theory[J]. Fractals, 2022, 30(07): 2250144. (SCI)
[7] Zhang X, Huang Z Q#, Lei Q, et al. Connectivity, permeability and flow channelization in fractured karst reservoirs: A numerical investigation based on a two-dimensional discrete fracture-cave network model[J]. Advances in Water Resources, 2022, 161: 104142. (SCI)
[8] Huang Z Q*, Su X, Li Y, et al. Stress sensitivity analysis of fractal porous media based on the elasto-plastic thick-walled cylinder model[J]. Fractals, 2021, 29(03): 2150162. (SCI)
[9] Liu L, Huang Z Q#, Yao J, et al. Simulating two-phase flow and geomechanical deformation in fractured karst reservoirs based on a coupled hydro-mechanical model[J]. International Journal of Rock Mechanics and Mining Sciences, 2021, 137: 104543. (SCI)
[10] Zhou X, Zhang Q, Xing H, Huang Z Q*, et al. Numerical Study of Reactive Flow in Fractured Carbonate Rock[J]. Frontiers in Earth Science, 2021, 9: 765139. (SCI)
[11] Zhang X, Huang Z Q#, Lei Q, et al. Impact of fracture shear dilation on long-term heat extraction in Enhanced Geothermal Systems: Insights from a fully-coupled thermo-hydro-mechanical simulation[J]. Geothermics, 2021, 96: 102216. (SCI)
[12] 黃朝琴*, 年凱, 王斌, 等. 一種考慮物理過程信息的油氣滲流深度學習新模型[J]. 中國石油大學學報(自然科學版), 2020, 44(04):47-56. (EI)
[13] 黃朝琴*, 周旭, 劉禮軍, 等. 縫洞型碳酸鹽岩油藏流固耦合數值模擬[J]. 中國石油大學學報(自然科學版), 2020, 44(01):96-105. (EI)
[14] Liu L, Huang Z Q*, Yao J, et al. An efficient hybrid model for 3D complex fractured vuggy reservoir simulation[J]. SPE Journal, 2020, 25(02): 907-924. (SCI)
[15] Huang Z Q*, Xing H, Zhou X, et al. Numerical study of vug effects on acid-rock reactive flow in carbonate reservoirs[J]. Advances in Geo-Energy Research, 2020, 4(4).
[16] Zhang X, Huang Z Q*, Yao J, et al. Numerical modeling of heat extraction in hot fractured vuggy reservoir with thermal hydraulic mechanical coupling method based on discrete fracture-vug model[C]//ARMA US Rock Mechanics/Geomechanics Symposium. ARMA, 2020: ARMA-2020-1806.
[17] Wang C, Huang Z Q*, Wu Y S. Coupled numerical approach combining X-FEM and the embedded discrete fracture method for the fluid-driven fracture propagation process in porous media[J]. International Journal of Rock Mechanics and Mining Sciences, 2020, 130: 104315. (SCI)
[18] Liu L, Huang Z Q*, Yao J, et al. An Efficient Coupled Hydro-Mechanical Modeling of Two-Phase Flow in Fractured Vuggy Porous Media[C]//ARMA US Rock Mechanics/Geomechanics Symposium. ARMA, 2020: ARMA-2020-1150.
[19] 姚軍 ; 黃濤; 黃朝琴*; 謝昊君; 劉均榮; 張建光. 磁場-滲流場耦合作用下的鐵磁流體多孔介質流動 數值模擬, 科學通報, 2017.02.17, 62(8): 836~846(EI)
[20] 嚴俠, 黃朝琴*, 李陽,等. 基於離散縫洞網絡模型的縫洞型油藏混合模型[J]. 中南大學學報(自然科學版), 2017, 48(9):2474-2483. (EI)
[21] 黃濤, 姚軍, 黃朝琴*, et al. 鐵磁流體驅油試驗[J]. 中國石油大學學報:自然科學版, 2018. (EI)
[22] 張慶福, 黃朝琴*, 姚軍, et al. 基於多尺度混合有限元的離散裂縫兩相滲流數值模擬[J]. 科學通報, 2017(13):85-94. (EI)
[23] 姚軍, 黃濤, 黃朝琴*, et al. 磁場-滲流場耦合作用下的鐵磁流體多孔介質流動數值模擬[J]. 科學通報, 2017(08):100-110. (EI)
[24] Zhang Q , Huang Z Q* , Yao J , et al. An efficient multiscale mixed finite element method for modeling flow in discrete fractured reservoirs[J]. Journal of Computational and Applied Mathematics, 2017, 323:95-110. (SCI)
[25] Zhang Q , Huang Z Q* , Yao J , et al. Multiscale mimetic method for two-phase flow in fractured media using embedded discrete fracture model[J]. Advances in Water Resources, 2017, 107:180-190. (SCI)
[26] Tao Huang; Jun Yao ; Zhaoqin Huang*; Xiaolong Yin; Haojun Xie; Jianguang Zhang, Numerical simulation on ferrofluid flow in fractured porous media based on discrete-fracture model, OpenPhys, 2017.01.20, 15(1): 370~378(SCI)
[27] Haojun Xie; Aifen Li; Zhaoqin Huang* ; Bo Gao; Ruigang Peng, Coupling of two-phase flow in fractured-vuggy reservoir with filling medium, Open Physics, 2017, 15(1): 12~17(SCI)
[28] Zhaoqin Huang; Xiaoyu Zhang; Jun Yao ; Yu-Shu Wu, Non-Darcydisplacement by a non-Newtonian fluid in porous media according to the Barree-Conway model, Adv. Geo-energ. Res., 2017, 1(2): 74~85
[29] Zhaoqin Huang*; Qingdong Zeng; Xia Yan; Jun Yao, Chapter 5: Hydraulic Fracturing Modeling and Its Extension to Reservoir Simulation Based on Extended Finite-Element Method (XFEM) , Elsevier: Gulf Professional Publishing, 10380, 2018
[30] 姚軍, 黃朝琴*, 劉文政, et al. 深層油氣藏開發中的關鍵力學問題[J]. 中國科學:物理學 力學 天文學, 2018(4).
[31] 張慶福, 黃朝琴*, 姚軍, 等. 縫洞型介質流動模擬的多尺度分解法[J]. 物理學報, 2019, 68(6): 64701-064701. (SCI)
[32] Yang Q, Yao J, Huang Z Q*, et al. A comprehensive SPH model for three-dimensional multiphase interface simulation[J]. Computers & Fluids, 2019, 187: 98-106.(SCI)
專利

授權國家發明專利:
[1] 黃朝琴, 孫圖南, 張旭, 等. 一種離散縫洞網絡模型連通性參數確定方法及係統[P]. 2024, ZL202111578692.4
[2] 黃朝琴, 周旭, 姚軍, 等. 一種深層油氣藏熱流固化耦合開采實驗裝置及模擬係統[P]. 2024, ZL202410718995.9.
[3] 黃朝琴, 周恒, 姚軍, 等. 一種多尺度裂縫性氣藏滲流機理物理實驗係統[P]. 2024, ZL202410666359.6.
[4] 黃朝琴, 黃龍, 姚軍, 等. 基於諧波注入係統的縫洞型介質連通性評估方法及係統[P]. 2024, ZL202010158140.7.
[5] 黃朝琴, 幸洪川, 張旭, 等. 一種深層斷溶體裂縫閉合機理實驗裝置.發明專利[P]. 2023, ZL202111552802.X.
[6] 黃朝琴, 姚軍, 賈存奇, 等. 一種碳酸鹽岩儲層酸化值確定方法及係統[P]. 2022, ZL202010053381.5.
[7] 黃朝琴, 梁永星, 年凱, 等. 一種基於圖神經網絡的井間動態連通性識別方法及係統[P]. 2022, ZL202010157632.4.
[8] 黃朝琴, 梁永星, 姚軍, 等. 一種基於改進的時空圖卷積網絡產油量預測方法及係統[P]. 2022, ZL202110197198.7
[9] 黃朝琴, 張曉宇, 姚軍, 等. 一種縫洞型油藏數值模擬的方法及係統[P]. 2019, ZL201710173347.X
[10] 黃朝琴, 張慶福, 姚軍, 等. 一種複雜裂縫性油藏流動模擬的方法[P]. 2019, ZL201710285522.4
[11] 黃朝琴, 張慶福, 姚軍, 等. 一種彈性介質的流固耦合多尺度流動模擬方法[P]. 2019, ZL201710285521.X.
[12] 黃朝琴, 梁夢吟, 姚軍, 等. 一種油藏數值模擬方法及係統[P]. 2019, ZL201710321462.7.
[13] 黃朝琴, 劉禮軍, 姚軍, 等. 一種考慮油藏機理的頁岩油氣組分模擬方法及係統[P]. 2019, ZL201710341557.5.
[14] 黃朝琴, 梁夢吟, 姚軍, 等. 一種分段壓裂水平井的粗網格模擬方法及係統[P]. 2019, ZL201710432128.9.
[15] 黃朝琴, 黃濤, 高博, 等. 測量滲流-自由流界麵流體速度滑移係數的裝置及方法[P]. 2018, ZL201610045053.4.
[16] 黃朝琴, 姚軍, 黃濤, 等. 基於納米磁流體的地下油水界麵檢測係統及檢測方法[P]. 2018, ZL201510363600.9.
申請軟件著作權:
[1] 黃朝琴; 姚軍, 油水兩相離散裂縫網絡有限元數值模擬軟件, 2010SR050787
[2] 黃朝琴; 嚴俠; 姚軍; 張慶福; 曾慧; 樊冬豔, 裂縫性油藏等效數值模擬軟件, 2013SR141301
[3] 黃朝琴; 曾青冬; 姚軍; 嚴俠, 水力壓裂裂縫擴展模擬軟件軟件, 2013SR141232
[4] 黃朝琴,張慶福,姚軍,裂縫性油藏多尺度有限元數值模擬軟件,2017SR158456
[5] 黃朝琴,姚軍,張慶福,非均質油藏多尺度數值模擬軟件,2017SR158385