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SCI论文(2010-)
[澳门挂牌全篇之完整2023年:72753 次] [更新时间:2023-8-3]

[1] Wei S, Zhang K, Liu C, Cen YD, Xia JQ (2024). Effects of different vegetation components on soil erosion and response to rainfall intensity under simulated rainfall[J]. Catena, 235: 107652.
[2] Pan YW, Xia JQ, Yang KJ* (2023). A Method for Digital Terrain Reconstruction Using Longitudinal Control Lines and Sparse Measured Cross Sections [J]. Remote Sensing, 14(8), 1841.
[3] Zhou MR, Xia JQ*, Liu YC, Deng SS, Mao Y (2023). Evolution characteristics of mid-channel bars with a typical high/low bank structure in the Middle Yangtze River [J/OL]. Earth Surface Processes and Landforms.
[4] Cheng YF, Xia JQ*, Zhou MR, Deng SS, Wang ZH, Lu J (2023). Parameter sensitivity and uncertainty of a one-dimensional morphodynamic model in the Lower Yellow River [J]. Journal of Hydrology, 625, 130016.
[5] Wang ZH, Xia JQ*, Zhou MR, Cheng YF, Li T (2023). A semi-analytical model for predicting outflow concentration of vented turbidity currents with application in the Xiaolangdi reservoir [J]. Journal of Hydrology, 625, 130009.
[6] Zhou MR, Xia JQ*, Shi X, Deng SS, Zhang XN (2023). Hydrologic and geomorphic effects on the reduction of channel discharge capacity in the Middle Yangtze River [J]. Science of the Total Environment, 866, 161279.
[7] Pan YW, Xia JQ, Yang KJ* (2023). Statistical roughness properties of the gravel bed surfaces in a meandering channel [J]. Journal of Hydrology, 617, 128966.
[8] Liu CL, Zhang KD*, Wei SE, Wang PF, Cen YD, Xia JQ* (2023). Evaluation of the effects of grass and shrub cover on overland flow resistance and its attributes under simulated rainfall [J]. Journal of Hydrology, 626(Part B): 130285. 
[9] Yang ZY, Xia JQ*, Deng SS, Zhou MR, JI ZW, Yu X (2023). An information entropy-based methodology to construct the avulsion threshold in the tail reach of the estuarine alluvial plain [J]. China Ocean Engineering, 37: 794-806. 
[10] Zhou MR, Xia JQ*, Cheng YF, et al. (2023).Long-distance recovery of nonuniform suspended load in the Middle Yangtze River owing to upstream damming[J]. Journal of Hydrology, 626: 130263.
[11] Guo J, Gao L, Xu X, Xia JQ*(2023). Development of Reinforced Concrete Piles in the Lower Yellow River, China[J]. Sustainability, 15(19): 14500.
[12] Cheng YF, Xia JQ*, Zhou MR, Chen JG, Ge XY (2023). Variation in sediment delivery ratios of grouped sediment in a braided reach owing to channel adjustments[J]. Environmental Fluid Mechanics. 1-27.
[13] Zhou MR, Xia JQ*, Deng SS, Shen J, Mao Y (2023). Modelling of phosphorus and nonuniform sediment transport in the Middle Yangtze River with the effects of channel erosion, tributary confluence and anthropogenic emission [J]. Water Research. 243(1-4), 120304.
[14] Xia JQ*, Dong BL, Zhou MR, Li QJ, Zhang XL (2023). A unified discharge capacity formula of clogged grate inlets[J]. Urban Water Journal. 20(5), 564-574.
[15] Li, QJ, Xia JQ*, Dong BL, Liu Y, Wang XJ (2023). Risk assessment of individuals exposed to urban floods[J]. International Journal of Disaster Risk Reduction. 88, 103599.
[16] Li, LL, Xia JQ*, Zhou MR, Deng SS, Li ZW (2023). A new formula of recovery factor for non-equilibrium transport of graded suspended sediment in the Middle Yangtze River[J]. Journal of Mountain Science. 20(1), 87-100.
[17] Sun QH, Xia JQ, Deng SS, Zhou MR (2022). A bank erosion risk evaluation procedure based on the analytic hierarchy process and entropy weight method[J]. Arabian Journal of Geosciences, 15(24).
[18] Zhou MR, Xia JQ*, Shi X, Deng SS, Zhang XN (2022). Hydrologic and geomorphic effects on the reduction of channel discharge capacity in the Middle Yangtze River[J]. The Science of The Total Environment, 886(4), 161279.
[19] Deng SS, Xia JQ*, Zhou MR, Zhou YY, Liu X, Li ZW (2022). Riparian groundwater level variation and its impacts on bank erosion in the Middle Yangtze River[J]. Water Resources Research, 58(7), e2022WR032354.
[20] Cheng YF, Xia JQ*, Zhou MR*, Deng SS, Li DY, Li ZW, Wan ZW (2022). Recent variation in channel erosion efficiency of the Lower Yellow River with different channel patterns[J]. Journal of Hydrology, 610, 127962.
[21] Wang YZ, Xia JQ*, Deng SS*, Zhou MR, Wang ZW (2022). Numerical simulation of bank erosion and accretion in a braided reach of the Lower Yellow River[J]. CATENA, 217, 106456.
[22] Deng SS, Xia JQ*, Liu X, Zhou MR, Mao Y, Xu QX (2022). Contributions of different sources to sediment transport in the Middle Yangtze River under intensive channel degradation[J]. CATENA, 217, 106511.
[23] Pan YW, Xia JQ*, Yang KJ (2022). A Method for Digital Terrain Reconstruction Using Longitudinal Control Lines and Sparse Measured Cross Sections[J]. Remote Sensing, 14(8), 1841.
[24] Dong BL, Xia JQ*, Zhou MR, Li QJ, Ahmadian R, Falconer RA (2022). Integrated modeling of 2D urban surface and 1D sewer hydrodynamic processes and flood risk assessment of people and vehicles[J]. Science of the Total Environment, 827, 154098.
[25] Xia JQ, Dong BL, Zhou MR*, Deng SS, Ahmadian R, Falconer RA, Zhang XL (2022). A Unified Formula for Discharge Capacity of Street Inlets for Urban Flood Management[J]. Journal of Hydrology, 609, 127667.
[26] Zhou MR, Xia JQ*, Deng SS, Li ZW (2022). Sediment transport capacity of low sediment-laden flows[J]. Journal of Hydraulic Research, 60(6), 996-1008.
[27] Wang ZH, Xia JQ*, Li T, Zhou MR, Deng SS (2022). Prediction of flow and sediment transport rates into closed-end channels for turbidity current intrusion[J]. Journal of Hydrology, 612, 128281.
[28] Dong BL, Xia JQ*, Li QJ, Zhou MR (2022). Risk assessment for people and vehicles in an extreme urban flood: Case study of the “7.20” flood event in Zhengzhou, China[J]. International journal of disaster risk reduction, 80, 103205.
[29] Li QJ, Xia JQ*, Dong BL, Zhou MR (2022). Near-field flow dynamics of grate inlets during urban floods[J]. Physics of Fluids, 34(8).
[30] Wang XJ, Xia JQ*, Zhou MR, Deng SS, Li QJ (2022). Assessment of the joint impact of rainfall and river water level on urban flooding in Wuhan City, China[J]. Journal of Hydrology, 613, 128419.
[31] Zhou MR, Xia JQ*, Deng SS, Li ZW (2022). Two-dimensional modelling of channel evolution considering the spatial distribution of bed materials and river regulation works[J]. International Journal of Sediment Research, 37(4), 424-434.
[32] Li QJ, Xia JQ*, Zhou MR, Deng SS, Zhang H, Xie ZH (2022). Physical Modelling of Energy Losses at Surcharged Three-way Junction Manholes in Drainage System[J]. Water Science and Technology, 85(4), 1011-1026.
[33] Musolino Giovanni, Ahmadian Reza, Xia JQ (2022). Enhancing Pedestrian Evacuation Routes During Flood Events[J]. Natural Hazards, 112(3), 1941-1965.
[34] Liu X, Xia JQ*, Zhou MR, Deng SS, Li ZW (2022). A new formula for predicting movable bed roughness coefficient in the Middle Yangtze River [J], Progress in Physical Geography, 46(3), 441-457.
[35] Wang XJ, Xia JQ*, Dong BL, Hou JM, Li QJ (2022). Simulation of urban flood using the SWMM with the hierarchical catchment partition method[J]. Advances in Water Science, 33(2), 196-207.
[36] Xia JQ*, Jiang QR, Deng SS, Zhou MR, Cheng YF, Li ZW, Wang ZH (2022). Morphological characteristics and evolution processes of sharp bends in the Lower Yellow River[J]. CATENA, 210, 105936.
[37] Zhou MR, Xia JQ*, Deng SS, Li ZW (2022). Two-dimensional modeling of channel evolution under the influence of large-scale river regulation works[J]. International Journal of Sediment Research, 37(4), 424-434.
[38] Li QJ, Xia JQ*, Xie ZH, Zhou MR, Deng SS (2022). Hazard and vulnerability in urban inundated underground space: Hydrodynamic analysis of human instability for stairway evacuation[J]. International Journal of Disaster Risk Reduction 70, 102754.
[39] Liu X, Xia JQ*, Deng SS (2022). Analysis of evolution processes and mechanisms of sharp bends in the Lower Jingjiang Reach (in Chinese)[J]. Chin Sci Bull, 67, 2672–2683.
[40] Cheng YF, Xia JQ*, Zhou MR, Deng SS, Li ZW (2021). Adjustment of flood discharge capacity with varying boundary conditions in a braided reach of the Lower Yellow River[J]. Journal of Geographical Sciences, 31(11), 1615-1632.
[41] Deng SS, Xia JQ*, Zhou MR, Li ZW, Duan GL, Shen J, Blanckaert K (2021). Secondary Flow and Flow Redistribution in Two Sharp Bends on the Middle Yangtze River[J]. Water Resources Research, 57(10).
[42] Wang XJ, Xia JQ*, Dong BL, Zhou MR, Deng SS (2021). Spatiotemporal distribution of flood disasters in Asia and influencing factors in 1980–2019[J]. Natural Hazards, 1-18.
[43] Zhou MR, Xia JQ*, Deng SS, Li ZW (2021). Adjustments in low-water channel geometry caused by upstream damming: an example from the Jingjiang Reach, China[J]. Arabian Journal of Geosciences, 14(16), 1-12.
[44] Yang ZY, Xia JQ*, Zhou MR, Deng SS, Wang ZH, Li ZW (2021). Variation in reach-averaged bankfull discharge in the Yellow River Estuary in recent years[J]. Frontiers of Earth Science, 1-14.
[45] Xia JQ*, Wang YZ, Zhou MR, Deng SS, Li ZW, Wang ZH (2021). Variations in Channel Centerline Migration Rate and Intensity of a Braided Reach in the Lower Yellow River[J]. Remote Sensing, 13(9), 1680.
[46] Li ZW, Yang HY, Xia JQ*, Zhou MR, Deng SS, Wang YZ (2021). Channel morphologic processes of a highly sinuous bend approaching neck cutoff by bank erosion in the middle Yangtze River[J]. International Journal of Sediment Research, 36(4), 457-467.
[47] Wang ZH, Xia JQ*, Zhou MR, Deng SS, Li T (2021). One-dimensional morphodynamic model for retrogressive erosion based on a sediment entrainment theory at high flow velocity[J]. International Journal of Sediment Research, 36(2), 306-316.
[48] Yang ZY, Xia JQ*, Zhou MR, Deng SS, Wan ZW (2021). One-dimensional morphodynamic model for a tail reach of the Yellow River Estuary[J]. Proceedings of the Institution of Civil Engineers - Water Management, 1-44.
[49] Li J*, Xia JQ, Ji QF (2021). Rapid and long-distance channel incision in the Lower Yellow River owing to upstream damming[J]. Catena, 196.
[50] Li J, Xia JQ* (2020). Modelling of hyperconcentrated flood routing and channel evolution in the lower Weihe River[J]. Arabian Journal of Geosciences, 13(20).
[51] Wang ZH, Xia JQ*, Zhou MR, Deng SS (2020), Li T. Modelling hyperconcentrated floods in the Middle Yellow River using an improved river network model[J]. Catena,190.
[52] Feng ZY, Tan GM*, Xia JQ, Shu CW, Chen P, Wu MW, Wu XM (2020). Dynamics of mangrove forests in Shenzhen Bay in response to natural and anthropogenic factors from 1988 to 2017[J]. Journal of Hydrology, 591.
[53] Li DL, Hou JM*, Xia JQ*, Tong Y, Yang D, Zhang DW, Gao, XJ (2020). An Efficient Method for Approximately Simulating Drainage Capability for Urban Flood[J]. Frontiers in Earth Science, 8.
[54] Li LL, Xia JQ*, Zhou MR, Deng SS (2020). Riverbed armoring and sediment exchange process in a sand-gravel bed reach after the Three Gorges Project operation[J]. Acta Geophysica, 67(1), 243-252.
[55] Li XJ, Xia JQ*, Li J, Zhou MR (2019). Adjustments in reach-scale bankfull geometry of a braided reach undergoing contrasting channel evolution processes[J]. Arabian Journal of Geosciences, 12(16).
[56] Deng SS, Xia JQ*, Zhou MR (2019). Coupled two-dimensional modeling of bed evolution and bank erosion in the Upper JingJiang Reach of Middle Yangtze River[J]. Geomorphology, 344, 10-24.
[57] Lin FF, Xia JQ*, Zhou MR, Deng SS (2019). Morphodynamic evolution in a meandering reach of the Middle Yangtze River under upstream and downstream controls[J]. Progress in Physical Geography: Earth and Environment, 43(4), 544-560.
[58] Zhou MR, Xia JQ*, Deng SS (2019). One-dimensional modelling of channel evolution in an alluvial river with the effect of large-scale regulation engineering[J]. Journal of Hydrology, 575, 965-975.
[59] Wang ZH, Xia JQ*, Zhou MR, Li T (2019). Numerical Modeling of Hyperconcentrated Confluent Floods From the Middle Yellow and Lower Weihe Rivers[J]. Water Resources Research, 55(3), 1972-1987.
[60] Deng SS, Xia JQ*, Zhou MR, Lin FF (2019). Coupled modeling of bed deformation and bank erosion in the Jingjiang Reach of the Middle Yangtze River[J]. Journal of Hydrology, 568, 221-233.
[61] Chen Q, Xia JQ*, Falconer RA, Guo P( 2018). Further improvement in a criterion for human stability in floodwaters[J]. Journal of Flood Risk Management, 12(3), e12486.
[62] Xia JQ*, Li J, Carling PA, Zhou MR, Zhang XL (2018). Dynamic adjustments in bankfull width of a braided reach[J]. ICE-Water Management, 172(4), 207-216.
[63] Deng SS, Xia JQ*, Zhou MR, Li J, Zhu YH (2018). Coupled modeling of bank retreat processes in the Upper Jingjiang Reach, China[J]. Earth Surface Processes and Landforms, 43, 2863-2875.
[64] Zhou MR, Xia JQ*, Deng SS, Lin FF (2018). Channel adjustments in a gravel-sand bed reach downstream of the Three Gorges Dam[J]. Global and Planetary Change, 170, 213-220.
[65] Guo P, Xia JQ*, Zhuo MR, Falconer RA, Chen Q, Zhang XL (2018). Selection of optimal escape routes in flood-prone areas based on 2D hydrodynamic modelling[J]. Journal of Hydroinformatics, 20(6), 1310-1322
[66] Xia JQ*, Guo P, Falconer RA, WangZH, Zhou MR (2018). Modelling of flood risks to people and property in a flood diversion zone[J]. Journal of Zhejiang University-SCIENCE-A, 19(11), 864-877
[67] Lu JY, Zhou YJ, Zhu YH, Xia JQ*, Li W (2018). Improved formulae of velocity distributions along the vertical and transverse directions in natural rivers with the sidewall effect[J]. Environmental Fluid Mechanics 18(6), 1491-1508.
[68] Xia JQ*, Teo FY, Falconer RA, Chen Q, Deng SS (2018). Hydrodynamic experiments on the impacts of vehicle blockages at bridges[J]. Journal of Flood Risk Management 11(S1), S395-S402.
[69] Xia JQ*, Zhang XL, Li J, Wang ZH, Zhou MR (2018). Modelling of hyperconcentrated flood and channel evolution in a braided reach using a dynamically coupled one-dimensional approach[J]. Journal of Hydrology, 561, 622-635.
[70] Li J, Xia JQ*, Zhou MR, Deng SS, Wang ZH (2018). Channel geometry adjustments in response to hyperconcentrated floods in a braided reach of the Lower Yellow River[J]. Progress in Physical Geography, 42(3), 352-368.
[71] Zheng S, Han SS, Tan GM, Xia JQ, Wu BS, Wang KR, Edmonds DA (2018). Morphological adjustment of the Qingshuigou channel on the Yellow River Delta and factors controlling its avulsion[J]. Catena, 166, 44-55.
[72] Zong QL, Xia JQ*, Zhou MR, Deng SS and Zhang Y (2017). Modelling of the retreat process of composite riverbank in the Jingjiang Reach using the improved BSTEM[J]. Hydrological Processes, 31, 4669-4681.
[73] Li J, Xia JQ*, Zhou MR, Deng SS, Zhang XL (2017). Variation in reach-scale thalweg migration intensity in a braided reach of the Lower Yellow River[J]. Earth Surface Processes and Landforms, 42, 1952-1962.
[74] Xia JQ*, Zhou MR, Deng SS, Lin Fenfen and Lu JY (2017). Variation in reach-scale bankfull discharge of the Jingjiang Reach undergoing upstream and downstream boundary controls[J]. Journal of Hydrology, 547, 534-543.
[75] Zhou MR, Xia JQ*, Lu JY, Deng SS, Lin FF (2017). Morphological adjustments in a meandering reach of the middle Yangtze River caused by severe human activities[J]. Geomorphology, 285, 325-332.
[76] Yang H*, Xia JQ and Flower RJ (2017). Locals embrace China nuclear project. Nature (Comments and Opinion), 542, 414-414.
[77] Yang H*, Xia JQ*, Thompson JR, Flower RJ (2017). Urban construction and demolition waste and landfill failure in Shenzhen, China[J]. Waste Management, 63, 393-396.
[78] Wang ZH, Xia JQ*, Deng SS, Zhang JH, Li T (2017). One-dimensional morphodynamic model coupling open-channel flow and turbidity current in reservoir[J]. Journal of Hydrology and Hydromechanics, 65(1), 68-79.
[79] Xia JQ*, Deng SS, Zhou MR, Lu JY, Xu QX (2017). Geomorphic response of the Jingjiang Reach to the Three Gorges Project operation[J]. Earth Surface Processes and Landforms, 42(6), 866-876.
[80] Xia JQ*, Li T, Zhang JH, Wang ZH, Deng SS (2017). Improved criterion for turbidity current formation in reservoir[J]. Proceedings of the Institution of Civil Engineers-Water Management, 170(WM3), 139-149.
[81] Xia JQ*, Deng SS, Lu JY, Xu QX, Zong QL, Tan GM (2016). Dynamic channel adjustments in the Jingjiang Reach of the Middle Yangtze River[J]. Scientific Reports, 6, 22802.
[82] Wang ZH, Xia JQ*, Li T, Deng SS, Zhang JH (2016). An integrated model coupling open-channel flow, turbidity current and flow exchanges between main river and tributaries in Xiaolangdi Reservoir, China[J]. Journal of Hydrology, 543, 548-561.
[83] Xia JQ*, Chen Q, Falconer RA, Deng SS, Guo P. (2016). Stability criterion for people in floods for various slopes[J]. Proceedings of the Institution of Civil Engineers-Water Management, 169(4), 180-189.
[84] Zhang XF, Yang WT, Xia JQ (2016). Bed shear stress in non-uniform flow[J]. Environmental Fluid Mechanics, 16, 777–792.
[85] Xia JQ* and Falconer RA (2015). Closure to “New criterion for the stability of a human body in floodwaters” [J]. Journal of Hydraulic Research, 53(4), 542-542.
[86] Xia JQ*, Zong QL, Deng SS, Xu QX and Lu JY (2014). Seasonal variations in stability of composite riverbanks in the Lower Jingjiang Reach, China[J]. Journal of Hydrology. 519, 3664-3673.
[87] Xia JQ*, Zong QL, Zhang Y, Xu QX, Li, XJ (2014). Prediction of recent bank retreat processes at typical sections in the Jingjiang Reach after the TGP operation. Science China (Technological Sciences) [J], 57(8), 1490-1499.
[88] Xia JQ*, Li XJ, Li T, Zhang XL, Zong QL (2014). Response of reach-scale bankfull channel geometry in the Lower Yellow River to the altered flow and sediment regime[J]. Geomorphology, 213, 255-265.
[89] Xia JQ*, Li T, Li XJ, Zhang XL, Zong QL (2014). Daily bank erosion rates in the LYR before and after dam construction[J]. Journal of the American Water Resources Association, 50(5), 1325-1337.
[90] Xia JQ*, Falconer RA, Xiao XW, Wang YJ (2014). Criterion of vehicle stability in floodwaters based on theoretical and experimental studies[J]. Natural Hazards. 70(2),1619-1630.
[91] Xia JQ*, Falconer RA, Wang YJ, Xiao XW (2014). New criterion for the stability of a human body in floodwaters[J]. Journal of Hydraulic Research, 52(1), 93-104.
[92] Xia JQ*, Li XJ, Zhang XL, Li T (2014). Recent variation in reach-scale bankfull discharge in the Lower Yellow River[J]. Earth Surface Processes and Landforms. 39(6), 723-734.
[93] Liang DF, Xia JQ, Falconer RA, Zhang JX (2014). On the Refinement of a Boundary-Fitted Shallow Water Model[J]. Coastal Engineering Journal, 56(1), 1450001-1-19.
[94] Liang DF, Xia JQ, Falconer RA, Zhang JX (2014). Study on Tidal Resonance in Severn Estuary and Bristol Channel[J]. Coastal Engineering Journal, 56(1), 1450002-1-18.
[95] Xia JQ*, Wang ZB, Wang YP, Yu X (2013). Comparison of Morphodynamic Models for the Lower Yellow River[J]. Journal of the American Water Resources Association, 49(1), 114-131.
[96] Xia JQ*, Falconer RA, Lin BL, Tan GM (2012). Estimation of annual energy output from a tidal barrage using two different methods[J]. Applied Energy, 93, 327-336.
[97] Xia JQ*, Lin BL, Falconer RA, Wang YP (2012). Modelling of Man-made Flood Routing in the Lower Yellow River[J]. Proceedings of the Institution of Civil Engineers-Water Management, 165(WM7), 377-391.
[98] Shu CW, Xia JQ*, Falconer RA, Lin BL (2011). Incipient Velocity for Partially Submerged Vehicles in Floodwaters[J]. Journal of Hydraulic Research, 49(6), 709-717.
[99] Xia JQ*, Falconer RA, Lin BL, Tan GM (2011). Estimation of future coastal flood risk in the Severn Estuary due to a barrage[J]. Journal of Flood Risk Management, 4(3), 247-259.
[100] Xia JQ*, Falconer RA, Lin BL, Tan GM (2011). Modelling of Flash Flood Risk in Urban Areas[J]. Proceedings of the Institution of Civil Engineers-Water Management, 164(WM6), 267-282.
[101] Xia JQ*, Teo FY, Lin B L, Falconer RA (2011). Formula of incipient velocity for flooded vehicles[J]. Natural Hazards, 58(1), 1-14.
[102] Xia JQ*, Falconer RA, Lin BL, Tan GM (2011). Numerical assessment of flood hazard risk to people and vehicles in flash floods[J]. Environmental Modelling and Software, 26(8), 987-998.
[103] Wang GQ, Chen DY, Wang XK, Asim M, Xia JQ (2011). Effects of Shallowness on Sediment Depositions in Recirculation Zones[J]. ASCE Journal of Hydraulic Engineering, 137(9), 976-985.
[104] Xia JQ*, Falconer RA, Lin BL (2010). Numerical model assessment of tidal stream energy resources in the Severn Estuary, UK[J]. IMECH,Part A, Journal of Power and Energy, 224(7), 969-983. 
[105] Xia JQ*, Wu BS, Wang GQ, Wang YP (2010). Estimation of bankfull discharge in the Lower Yellow River using different approaches[J]. Geomorphology, 117(1-2), 66-77.
[106] Xia JQ*, Lin BL, Falconer RA, Wang GQ (2010). Modelling dam-break flows over mobile beds using a 2D coupled approach[J]. Advances in Water Resources, 33(2), 171-183.
[107] Xia JQ*, Falconer RA, Lin BL (2010). Impact of different operating modes for a Severn Barrage on the tidal power and flood inundation in the Severn Estuary, UK[J]. Applied Energy, 87(7), 2374-2391.
[108] Xia JQ*, Falconer RA, Lin BL (2010). Impact of different tidal renewable energy projects on the hydrodynamic processes in the Severn Estuary, UK[J]. Ocean Modelling, 32(1-2), 86-104.
[109] Xia JQ*, Falconer RA, Lin BL (2010). Hydrodynamic Impact of a Tidal Barrage in the Severn Estuary, UK[J]. Renewable Energy, 35(7), 1455-1468.
 


 


 







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