Hydrosystem Restoration Handbook, Groundwater Artificial Recharge with Unconventional Water (GARU), Volume Four covers the essentials of Groundwater Artificial Recharge with Unconventional Water (GARU). After introducing the reader to Groundwater Artificial Recharge with Conventional Water (GARC), the editors conclude with the application of various methods necessary to prevent contamination of the groundwater and offer key solutions to sustain best water practice in the current climate change.
Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.
Table of Contents
1. Investigating Vetiver Potential for Increasing Groundwater Artificial Recharge with Unconventional Water
2. Intelligent Sensory Technology and Restoration Monitoring
3. An Introduction to Unconventional Water
4. Standard Guidelines for Managed Aquifer Recharge (MAR) with Unconventional Water
5. Geochemical and Qualitative Aspects of GARU
6. Risk Assessment in Groundwater Artificial Recharge with Unconventional Water
7. Water Reuse and Groundwater Augmentation
8. Unconventional Water and Groundwater Vulnerability With Implications of Artificial Intelligence on Innovative Management Approaches
9. Groundwater Artificial Recharge with Unconventional Water: Global Opportunities and Challenges
10. Innovative Approaches to Groundwater Replenishment Harnessing Unconventional Water Sources
11. Farmland Drainage Water and Suitability Assessment for GARU
12. Microbiological Assessment and GARU
13. Overlook of Groundwater Artificial Recharge with Unconventional Water in a Changing Climate
14. Case Studies on GARU in Inland Area
15. Case Studies on GARU in Coastal Area
16. Using Smart Water Monitoring System To Improve the Assessment of Reservoirs Water Quality For Possible Restoration: The Southern Portuguese Experience
17. River and Aquatic Restoration in Goa-Key to Sustainable Environment in a Developing Economy
18. Rejuvenating Hydrosystems in Tigray: A Path to Restoration after a Devastating Two-Year-Long War
19. Artificial Groundwater Recharge with Reclaimed Municipal Wastewater
20. Microbial Dynamics in Artificial Groundwater Recharge
21. Optimizing Farmland Drainage Unconventional Water for Groundwater Artificial Recharge
22. Remediation Technologies for the Removal and Recovery of Nonbiodegradable Metals from Groundwater and Sediments
Authors
Saeid Eslamian Distinguished Full Professor, Disaster Relief: Resilient and Sustainable Water Resources, Isfahan University of Technology, Iran.Saeid Eslamian received his PhD in Civil and Environmental Engineering from University of New South Wales, Australia in 1998. Saeid was Visiting Professor in Princeton University and ETH Zurich in 2005 and 2008 respectively. He has contributed to more than 1K publications in journals, conferences, books. Eslamian has been appointed as 2-Percent Top Researcher by Stanford University for several years. Currently, he is full professor of Hydrology and Water Resources and Director of Excellence Center in Risk Management and Natural Hazards. Isfahan University of Technology, His scientific interests are Floods, Droughts, Water Reuse, Climate Change Adaptation, Sustainability and Resilience
Faezeh Eslamian Project Manager, GHD, Quebec, Canada. Faezeh Eslamian is a PhD holder of bioresource engineering from McGill University. Her research focuses on the development of a novel lime-based product to mitigate phosphorus loss from agricultural fields. Faezeh completed her bachelor's and master's degrees in civil and environmental engineering from Isfahan University of Technology, Iran, where she evaluated natural and low-cost absorb bents for the removal of pollutants such as textile dyes and heavy metals. Furthermore, she has conducted research on the worldwide water quality standards and wastewater reuse guidelines. Faezeh is an experienced multidisciplinary researcher with research interests in soil and water quality, environmental remediation, water reuse, and drought management.
