62 nd Annual New Mexico Water Conference Kenneth (KC) Carroll Plant - - PowerPoint PPT Presentation

Kenneth (KC) Carroll Plant & Environmental Science Department and Water Science & Management Program kccarr@nmsu.edu

62nd Annual New Mexico Water Conference

Brackish Groundwater Source for Desalination

www.sciencenutshell.com

Water resources are becoming more limited and threatened by both anthropogenic (e.g., transboundary political/legal issues) and natural (e.g., long-term drought) issues. Approximately 15-billion acre-feet may be available of saline groundwater in New Mexico aquifers (Hale et al. 1965; USBR 1976). It is estimated that the Mesilla Bolson Aquifer contains on the order

• f 50 million acre-feet of fresh to brackish water.

A binational (US/Mexico) desalination plant could be developed in the Santa Teresa area that would draw brackish water from a well field in the Mesilla Aquifer in both countries. Brackish has not been extensively used in NM previously, and represents a “new” water source.

We need to evaluate the impacts of using brackish source water and concentrate disposal on fresh groundwater and surface water resources. Uncertainty still exists in salinity spatial distributions, brackish water extraction feasibility, and sustainability of desal source water. We do not know how much recharge, flow, mixing, and salinity transfer occurs in and between the fresh and brackish groundwater zones. We do not know how sustainable our fresh and brackish water resources are, because we have not characterized the recharge, storage, flow dynamics, and resiliency of the groundwater system, especially for the brackish zones. We have not evaluated the potential impacts this will have on the hydrologic system (e.g., drawing fresh water into saline formations, land subsidence, surface water declines).

Brackish Groundwater Source for Desalination

Surface Water Capture

Groundwater Diversion/Conveyance Drainage Return Flow Seepage Well Crop Water Use Irrigation Canal Field Drain Rio Grande

Texas v. New Mexico (Docket No. 220141 Supreme Court filed with the Special Master)

(Slide Credit: Phil King, NMSU)

Sea Water Intrusion

(Modified from U.S. Geological Survey, 1984, National water summary 1983--Hydrologic events and issues: U.S. Geological Survey Water-Supply Paper 2250)

Land Subsidence

Credit: http://www.keyword-suggestions.com/bWluZSBzdWJzaWRlbmNl/

Desalination Concentrate Management

Recent and Relevant USGS Publications

Groundwater Level and Storage Changes Remotely Sensed Evapotranspiration and Precipitation Assessment Surface Water Flow Statistics Water Use Reporting Groundwater Recharge Assessment

Statewide Collaboration Evaluating Water Balance Components

Statewide Systems Dynamics Water Budget Oil and Gas Produced Water Assessment Collaboration Efforts

NM-WRRI

• Riparian Evaluation
• Deep Groundwater Age Dating
• Evapotranspiration Modeling
• Evapotranspiration

Measurement NM-USGS

• Rio Grande Transboundary

Integrated Hydrologic Model

• Mesilla Basin Monitoring

Network (Deep Groundwater Age Dating)

• Geothermal modeling

NMSU and US BoR Cooperative Agreement

Manoj Shukla, Plant and Environmental Sciences Department, College of Agricultural, Consumer and Environmental Sciences (ACES), Irrigation with Brackish Groundwater and Desalination Concentrate: Effect on soil microbial properties, plant uptake and ion deposition in soil Tanner Schaub, Chemical Analysis and Instrumentation Laboratory, College of ACES, Advanced Chemical Analysis Capability for Alternative Water Source Research Sarada Kuravi, Department of Mechanical and Aerospace Engineering, College of Engineering, Low Cost, Low Energy Concentrate Water Desalination using Heat Recuperative Solar Still with Concentrating Solar Technology

• J. Phillip King, Department of Civil Engineering, College of Engineering, Assessment of

Brackish Groundwater Desalination for Municipal and Industrial Water Supply in Santa Teresa, New Mexico Brian Hurd, Department of Ag Econ & Ag Bus, College of ACES, Valuing the Potential Contribution of Desalination and Water Reuse to the Water Supply Portfolio of Southern Dona Ana County, New Mexico Kenneth C. Carroll, Plant and Environmental Sciences Department, College of ACES, Isotopic, Geochemical, and Modeling Evaluation of Source Water, Extraction Potential, and Potential Impacts of Using Brackish Water for Desalination in the Mesilla Basin, NM

Assessment of Brackish Groundwater Desalination for Municipal and Industrial Water Supply in Santa Teresa, New Mexico Project objective:

• Investigate the hydrogeologic,

technical and economic potential for desalinating brackish groundwater in the Santa Teresa-San Jeronimo area

• Conduct a proof-of-concept

demonstration with a pilot desalination plant and existing brackish wells

• Develop an organizational and

financial plan for moving forward with desalination implementation

• Working with local entities to assess water

demand, current supply, and binational potential

• Developed dialog with Universidad Autónoma de

Chihuahua’s Department of Civil Engineering colleagues as project collaborators

• Conducted water chemistry analyses for local

water samples – found elevated As, Na, TDS, high spatial variability

• Acquired pilot-scale test units from NMSU
• Testing pilot-scale desalination system using

reverse osmosis (RO) and nanofiltration (NF) membranes

• Initial stakeholder meeting, including UACH,

scheduled for August 4, 2017

Assessment of Brackish Groundwater Desalination for Municipal and Industrial Water Supply in Santa Teresa, New Mexico

Valuing the Potential Contribution of Desalination and Water Reuse to the Water Supply Portfolio of Southern Dona Ana County, New Mexico

Conceptual Approach linking Groundwater, Communities, and Environment

• Characterize Plausible Future Conditions

– Climate Change

• Identify and apply representative climate change

scenarios – (‘dry’, ‘middle’, ‘wet’ in 2 time periods, ‘2030s’ and ‘2080s’). – Population Growth

• Develop a baseline demographic change

scenario that estimates changes in population, incomes and urban water demand.

• Simulate Hydrologic and Economic Processes

– Streamflow Change

• A simplified lumped water balance model

(WATBAL) is used to project changes in streamflows, irrigation requirements, and evaporation losses. – Groundwater Management

• Alternative aquifer management scenarios are

used to examine effects on the value of water. – Water Use and Economic Impacts

• A hydro-economic water management model of

the Upper Rio Grande watershed (RioGEM)

• ptimizes the economic value of water use

across the entire watershed.

Isotopic, Geochemical, and Modeling Evaluation

Sampling of dissolved noble gas isotopes from groundwater

Isotopic, Geochemical, and Modeling Evaluation

Dissolved noble gas isotopes to supplement traditional age dating fills a middle age range gap.

Brief Summary

Brackish may be developed to support water resources in NM. Desalination source water sustainability likely still has significant uncertainty. Brackish water development for desalination should also include evaluation of potential impacts. Some work has been ongoing, but more needs to be done.

Acknowledgements

• This work has been supported by:
• NMSU Ag. Experiment Station & USDA Southwest Hub for Risk Adaptation

and Mitigation to Climate Change

• The Statewide Water Assessment funded by NM State through the Water

Resources Research Institute

• The U.S.-Mexico Transboundary Aquifer Assessment Act (Public Law 109-

448)

• The U.S. Bureau of Reclamation cooperative agreement with NMSU
• The U.S. Geological Survey especially from Andrew Robertson

Thank you Any questions?

Groundwater samples are being collected for chemical and isotopic analyses, and the results will be modeled to evaluate brackish groundwater production.

Mesilla Basin Groundwater Sampling and Modeling