Changbing Yang

Edwards (United Kingdom)

Author Statistics

Papers

Citation

H-Index

i-10 index

Research Trends

Author Order

Document Type

Co-Authors

Katherine Romanak

Linköping University

Susan Hovorka

Bureau of Economic Analysis

Ramón Treviño

The University of Texas at Austin

Lianqing Xue

Hohai University

Javier Samper

Universidade da Coruña

Jiemin Lu

Bureau of Economic Analysis

Zhenxue Dai

Jilin University

Mohamad Reza Soltanian

University of Cincinnati

Rebecca C. Smyth

Bureau of Economic Analysis

Jean‐Philippe Nicot

Bureau of Economic Analysis

Cooperative Institutions

The University of Texas at Austin

Bureau of Economic Analysis

Chinese Academy of Sciences

Hohai University

Bureau of Economic Geology

Los Alamos National Laboratory

Jilin University

Jilin Medical University

China University of Geosciences

Universidade da Coruña

Author Statistics

Papers

Citation

H-Index

i-10 index

Research Field

Probabilistic assessment of shale gas production and water demand at Xiuwu Basin in China

Applied Energy (2016)

Youqin Zou Changbing Yang Daishe Wu Chun Yan Masun Zeng

Shale Gas

Directional Drilling

10.1016/j.apenergy.2016.07.099

Cite

Citations (31)

Quantitative Assessment of Hydrological Alteration Caused by Irrigation Projects in the Tarim River basin, China

Scientific Reports (2017)

Lianqing Xue Hui Zhang Changbing Yang Luochen Zhang Sun Chao

The Tarim River is the longest inland river at an arid area in China. Deterioration in its ecohydrological system has received much attention world widely. This study presents quantitative assessment of hydrological alterations in the hydrological regime of the Tarim River caused by reservoir irrigation and channel irrigation over a period of over a half century. The improved indicators of hydrologic alteration and range of variability approach were applied to the daily flow rates at the two representative hydrological stations. Our study shows that the annual extreme water conditions (1-, 3-, 7-day annual minimum and extreme low timing) have been altered, compared with the pre-impact period. The average flow rate in July, the 30-day annual maximum flow rates, the date for the maximum rate, the rise rate, and the fall rate show a significant decreasing trend. The improved overall degree of hydrological alteration for the two stations are approximately 68.7% and 61.8%, suggesting a high degree of alteration. This study greatly improved our understanding of impacts of irrigations on the ecohydrological characteristics in the Tarim River.

Tarim river

Tarim basin

Trend analysis

10.1038/s41598-017-04583-y

Cite

Citations (53)

Reactive chemical transport simulations of geologic carbon sequestration: Methods and applications

Earth-Science Reviews (2020)

Zhenxue Dai Lulu Xu Ting Xiao Brian McPherson Xiaoying Zhang

Chemical reaction simulations are considerably used to quantitatively assess the long-term geologic carbon sequestration (GCS), such as CO2 sequestration capacity estimations, leakage pathway analyses, enhanced oil recovery (EOR) efficiency studies, and risk assessments of sealing formations (caprocks), wellbores, and overlying underground water resources. All these require a deep understanding of the CO2 -associated chemical reactions. To ensure long-term, safe CO2 sequestration in the intended formations, modeling is the only way to plausibly assess the CO2 flow, reaction, and transport over thousands of years. This review summarizes the multiple methodologies for describing homogeneous and heterogeneous chemical reaction patterns and multiscale application examples, the recent progress and current status of chemical reaction simulations for GCS, and the impact of such simulations on geological CO2 sequestration performance. Technical gaps and future challenges are also discussed for further study. The trends and challenges of such studies include: (1) the combination of coupled chemical, mechanical, and transport processes with calibrated experiments and associated uncertainty/risk assessments; (2) enhancement of the ability to simulate detailed geophysical and geochemical equations to mimic in situ conditions; and (3) characterization of multiscale subsurface systems with detailed conceptual models and assignment of suitable boundary conditions for field-scale sequestration fields. One major issue remaining is the current lack of accurate (or scale-justified) kinetic and equilibrium chemical reaction parameters under reservoir conditions. Advanced models that couple chemical, mechanical, and transport processes with scale-justified parameters, from lab to field-scale experiments, are required for quantitative assessments of sequestration capacity and the long-term safety of GCS projects.

10.1016/j.earscirev.2020.103265

Cite

Citations (117)

Process-based soil gas leakage assessment at the Kerr Farm: Comparison of results to leakage proxies at ZERT and Mt. Etna

International journal of greenhouse gas control (2014)

Katherine Romanak Brad D. Wolaver Changbing Yang George William Sherk Janis E. Dale

Leakage (economics)

Soil gas

10.1016/j.ijggc.2014.08.008

Cite

Citations (39)

Identification of potential impacts of climate change and anthropogenic activities on streamflow alterations in the Tarim River Basin, China

Scientific Reports (2017)

Lianqing Xue Fan Yang Changbing Yang Xinfang Chen Luochen Zhang

Understanding contributions of climate change and human activities to changes in streamflow is important for sustainable management of water resources in an arid area. This study presents quantitative analysis of climatic and anthropogenic factors to streamflow alteration in the Tarim River Basin (TRB) using the double mass curve method (DMC) and the Budyko methods. The time series (1960~2015) are divided into three periods: the prior impacted period (1960~1972) and the two post impacted periods, 1973~1986 and 1987~2015 with trend analysis. Our results suggest that human activities played a dominant role in deduction in the streamflow in TRB with contribution of 144.6% to 120.68% during the post impacted period I and 228.68% to 140.38% during the post impacted period II. Climatic variables accounted for 20.68%~44.6% of the decrease during the post impacted period I and 40.38% ~128.68% during the post impacted period II. Sensitivity analysis indicates that the streamflow alteration was most sensitive to changes in landscape parameters. The aridity index and all the elasticities showed an obvious increasing trend from the upstream to the downstream in the TRB. Our study suggests that it is important to take effective measures for sustainable development of eco-hydrological and socio-economic systems in the TRB.

Tarim river

Tarim basin

Trend analysis

10.1038/s41598-017-09215-z

Cite

Citations (91)

Modelling geochemical and microbial consumption of dissolved oxygen after backfilling a high level radiactive waste repository

Journal of Contaminant Hydrology (2007)

Changbing Yang Javier Samper Jorge Molinero M. Bonilla

Bentonite

Acid Mine Drainage

10.1016/j.jconhyd.2007.01.008

Cite

Citations (60)

基于砂槽试验的开采和人工补给条件下潜水含水层地下水流路径模拟

Hydrogeology Journal (2019)

Peipeng Wu Longcang Shu Changbing Yang Yang Xu Yongjie Zhang

Depression-focused recharge

Phreatic

Groundwater model

Groundwater discharge

Cone of depression

10.1007/s10040-019-02029-5

Cite

Citations (10)

Assessing groundwater monitoring strategy for leakage detection in the Texas Gulf Coast Aquifer (USA) at a hypothetical CO2 storage site: a reactive transport modeling approach

Hydrogeology Journal (2018)

Hongxia Bie Changbing Yang Pan Liu

Leakage (economics)

10.1007/s10040-018-1887-y

Cite

Citations (5)

Climate elasticity assessment on groundwater recharge to the Edwards Balcones Fault Zone Aquifer, United States

JAWRA Journal of the American Water Resources Association (2023)

Changbing Yang F. Paul Bertetti

Abstract This study presents a comprehensive analysis of the characteristics of precipitation, temperature, and groundwater recharge in the recharge zone of the nine basins of the San Antonio segment of the Edwards Balcones Fault Zone Aquifer, which is one of the major groundwater systems in the United States and serves as primary water sources for approximately 1.7 million people in south‐central Texas. Datasets of monthly precipitation and average temperature (1895–2019) and groundwater recharge (1934–2019) are used to examine the decadal variability in precipitation, temperature, and groundwater recharge on the annual scale with a normalized 20‐year moving average of variance. Climate elasticity (precipitation and potential evapotranspiration) of groundwater recharge is estimated to evaluate impacts of climate change on groundwater recharge. The results of this study show that precipitation and temperature variability exhibit decadal cyclic patterns. Elasticity analysis of groundwater recharge indicates that a 1% change in annual precipitation may result in 2%, with a likely range of 0.15%–2.8%, change in groundwater recharge, and a 1% change in annual potential evapotranspiration may lead to −3.3% change in groundwater recharge with a likely range of −8.9% to 4% in the study area. This study suggests that climate elasticity of groundwater recharge may provide an alternative means for evaluating climate impacts on groundwater recharge to an aquifer.

Depression-focused recharge

10.1111/1752-1688.13142

Cite

Citations (2)

Geochemical impact of oxygen on siliciclastic carbon storage reservoirs

International journal of greenhouse gas control (2014)

Jiemin Lu P. J. Mickler Jean‐Philippe Nicot Changbing Yang Katherine Romanak

Siliciclastic

Carbon fibers

10.1016/j.ijggc.2013.12.017

Cite

Citations (24)