Geofluids

Innovative Research for Geofluid Flow and Solute Transport in Subsurface from Pore to Terrestrial Scales


Status
Published

Lead Editor

1National Yunlin University of Science and Technology, Douliu, Taiwan

2University of Waterloo, Waterloo, Canada

3Nanjing University, Nanjing, China

4University of Arizona, Tucson, USA


Innovative Research for Geofluid Flow and Solute Transport in Subsurface from Pore to Terrestrial Scales

Description

The subsurface is the world’s largest reservoir of fresh water, oil, gas, and ores. The strategic importance of near surface geophysics for global water and food security, ecosystem survival, and large-scale geohazard (landslides and sinkholes) mitigation has intensified as climate change results in increased variability in precipitation, soil moisture, and surface water (more frequent and intense floods and droughts). Sustainable management of subsurface natural resources becomes one of the keys to our adaptation to climate change. High-resolution characterization, long-term monitoring, and prediction of subsurface processes over basin and terrestrial scales thus become necessary.

This call invites articles of high research excellence, original ideas, and revolutionary strategies for characterization, modeling, and analyses of geofluid flow and solute transport in subsurface from pore to terrestrial scales, or others which will lead to a new level of our understanding and management of the Earth’s natural resources.

Potential topics include but are not limited to the following:

  • Data fusion concepts and technologies that integrate satellite remote sensing, near surface geophysics, hydrogeologist tests, and geochemistry data
  • Research related to geofluid circulation between fields, basins, regions, continents, oceans, and atmosphere
  • Exploring heterogeneous geological media using natural phenomena such as Earth tides, earthquakes, lighting, and river stage fluctuations
  • Geophysical methods for improved understanding of flow and solute transport in heterogeneous geological media
  • Novel approaches in multiphase flow and solute transport modeling in geological media
  • Innovative numerical, laboratory, and field studies for geofluid flow and solute transport processes

Articles

  • Special Issue
  • - Volume 2018
  • - Article ID 8675398
  • - Editorial

Innovative Research for Geofluid Flow and Solute Transport in Subsurface from Pore to Terrestrial Scales

Jet-Chau Wen | Walter A. Illman | ... | Tianchyi Yeh
  • Special Issue
  • - Volume 2018
  • - Article ID 9475741
  • - Research Article

Evaluation of the Potential for Dissolved Oxygen Ingress into Deep Sedimentary Basins during a Glaciation Event

Sergio A. Bea | Danyang Su | ... | Kerry T. B. MacQuarrie
  • Special Issue
  • - Volume 2018
  • - Article ID 9461214
  • - Research Article

High-Resolution Wellbore Temperature Logging Combined with a Borehole-Scale Heat Budget: Conceptual and Analytical Approaches to Characterize Hydraulically Active Fractures and Groundwater Origin

Guillaume Meyzonnat | Florent Barbecot | ... | Renald McCormack
  • Special Issue
  • - Volume 2018
  • - Article ID 1653632
  • - Research Article

Material Exchange and Migration between Pore Fluids and Sandstones during Diagenetic Processes in Rift Basins: A Case Study Based on Analysis of Diagenetic Products in Dongying Sag, Bohai Bay Basin, East China

W. Meng | J. H. Zeng | ... | Z. Guo
  • Special Issue
  • - Volume 2018
  • - Article ID 2090584
  • - Research Article

Predicting Erosion-Induced Water Inrush of Karst Collapse Pillars Using Inverse Velocity Theory

Banghua Yao | Zhongwei Chen | ... | Shumin Liu
  • Special Issue
  • - Volume 2018
  • - Article ID 9804291
  • - Research Article

A Novel Boundary-Type Meshless Method for Modeling Geofluid Flow in Heterogeneous Geological Media

Jing-En Xiao | Cheng-Yu Ku | ... | Wei-Chung Yeih
  • Special Issue
  • - Volume 2017
  • - Article ID 5290686
  • - Research Article

Characterization of Origin and Evolution of Formation Water in Buried Hill of Jizhong Depression, China, Using Multivariate Statistical Analysis of Geochemical Data

Fei Li | Jianhui Zeng
  • Special Issue
  • - Volume 2017
  • - Article ID 1361289
  • - Research Article

Characterization of Aquifer Multiscale Properties by Generating Random Fractal Field with Truncated Power Variogram Model Using Karhunen–Loève Expansion

Liang Xue | Diao Li | ... | Tongchao Nan
  • Special Issue
  • - Volume 2017
  • - Article ID 9605313
  • - Research Article

Three-Dimensional Hydromechanical Modeling during Shearing by Nonuniform Crust Movement

Yuqing Zhao | You-Kuan Zhang | Xiuyu Liang
Geofluids
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 Journal metrics
Acceptance rate47%
Submission to final decision86 days
Acceptance to publication41 days
CiteScore2.100
Impact Factor1.534
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