Allocation of surface and subsurface water resources to competing uses under climate changing conditions: a case study in Halkidiki, Greece

Katirtzidou, Margarita; Latinopoulos, P.

doi:10.2166/ws.2017.166

Cited by 7 publications

(4 citation statements)

References 9 publications

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“…WEAP has been used for climate scenario analysis of water supply and demands in different regions of the world e.g. [42,43]. The model optimizes water use in the basin using a linear optimization algorithm to allocate water to the various demand sites, as per the demand priorities that range from 1 to 99, with 1 being the highest priority.…”

Section: Water Evaluation and Planning (Weap) Modelmentioning

confidence: 99%

Assessing Climate Change Impact on Water Resources under Water Demand Scenarios using SWAT-MODFLOW-WEAP

Abbas¹,

Xuan²,

Bailey³

2022

Preprint

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In this article, we present the use of the coupled land surface model and groundwater flow model SWAT-MODFLOW with the decision support tool WEAP (Water Evaluation and Planning software) to predict future surface water abstraction scenarios in a complex river basin, under conditions of climate change. The modeling framework is applied to the Dee River catchment in Wales, United Kingdom. Regarding hydrology, the coupled model improves overall water balance and low streamflow conditions, compared to a stand-alone SWAT model. The calibrated SWAT-MODFLOW is employed with high resolution climate model data from the UKCP18 project with future scenario of RCP85 from 2020 to 2040. Then, water supply results from SWAT-MODFLOW are fed into WEAP as input for the river reach in the downstream region of the river basin. This system is utilized to create various future scenarios of surface water abstraction of public water supply in the downstream region: maximum licensed withdraw, 50 % authorized abstractions, monthly time series with 1% increase of water use, and maximum water withdraw year based on historical records repeated every year with 1% increase of water use, to estimate the unmet demands and streamflow requirement. This modeling approach can be used in other river basins to manage scenarios of supply and demand.

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Section: Water Evaluation and Planning (Weap) Modelmentioning

confidence: 99%

Assessing Climate Change Impact on Water Resources under Water Demand Scenarios using SWAT-MODFLOW-WEAP

Abbas¹,

Xuan²,

Bailey³

2022

Preprint

View full text Add to dashboard Cite

show abstract

“…WEAP has been used for climate scenario analysis of water supply and demands in different regions of the world (e.g., [50,51]). The model optimizes water use in the basin using a linear optimization algorithm to allocate water to the various demand sites, as per the demand priorities that range from 1 to 99, with 1 being the highest priority.…”

Section: Water Evaluation and Planning (Weap) Modelmentioning

confidence: 99%

Assessing Climate Change Impact on Water Resources in Water Demand Scenarios Using SWAT-MODFLOW-WEAP

2022

View full text Add to dashboard Cite

In this article, we present the use of the coupled land surface model and groundwater flow model SWAT-MODFLOW with the decision support tool WEAP (Water Evaluation and Planning software) to predict future surface-water abstraction scenarios in a complex river basin under conditions of climate change. The modelling framework is applied to the Dee River catchment in Wales, United Kingdom. Regarding hydrology, the coupled model improves overall water balance and low-streamflow conditions compared with a stand-alone SWAT model. The calibrated SWAT-MODFLOW is employed with high-resolution climate model data from the UKCP18 project with the future scenario of RCP85 from 2020 to 2040. Then, water supply results from SWAT-MODFLOW are fed into WEAP as input for the river reach in the downstream region of the river basin. This system is utilized to create various future scenarios of the surface-water abstraction of public water supply in the downstream region—maximum licensed withdraw, 50% authorized abstractions, monthly time series with 1% increases in water use, and maximum water withdraw per year based on historical records repeated every year with 1% increases in water use—to estimate the unmet demands and streamflow requirement. This modelling approach can be used in other river basins to manage scenarios of supply and demand.

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“…WEAP has the high global popularity for the scenario analysis of water supply and demands and has been utilised in water-related issues/projects in different part of the world under effects of climate change (e.g. Bhave et al, 2018;Katirtzidou and Latinopoulos, 2017;Hao et al, 2015). The model then optimises water use in the basin using a linear optimisation algorithm to allocate water to the various demand sites, as per the demand priorities that range from 1 to 99, with 1 being the highest priority.…”

Section: Weap Modelmentioning

confidence: 99%

Hydrological Modelling for Integrated Water Resources Management in a Changing Climate

Abbas¹

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Hydrological models are a simplified representation of hydrological processes and can be very used for the water resources assessment and gain an integral view of the water resources status for integrated water resources management IWRM. Furthermore, they can be used to investigate the possible impacts and trends resulting from different types of scenarios, such as climate change impact studies. III Declaration and Statements I, Salam Abd Albare Abbas, declare that this thesis titled, 'Hydrological Modelling for Integrated Water Resources Management in a Changing Climate' and the work presented in it are my own, I confirmed that. This work has not previously been

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Allocation of surface and subsurface water resources to competing uses under climate changing conditions: a case study in Halkidiki, Greece

Cited by 7 publications

References 9 publications

Assessing Climate Change Impact on Water Resources under Water Demand Scenarios using SWAT-MODFLOW-WEAP

Assessing Climate Change Impact on Water Resources under Water Demand Scenarios using SWAT-MODFLOW-WEAP

Assessing Climate Change Impact on Water Resources in Water Demand Scenarios Using SWAT-MODFLOW-WEAP

Hydrological Modelling for Integrated Water Resources Management in a Changing Climate

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