The global freshwater availability and water use model WaterGAP 2.2d

<p>Freshwater availability is of vital importance for humans, freshwater biota and ecosystem functions. In the past decades, global hydrological models (GHMs) were developed to improve understanding of the global freshwater situation in a globalized word, by filling gaps in observational coverage and assessing scenarios of the future under consideration of different socioeconomic developments and climate change. The Water Global Assessment and Prognosis (WaterGAP) model was one of the first GHMs developed to evaluate freshwater resources and their use for both historical and future conditions. It consists of five water use models (for irrigation, domestic, cooling of thermal power plants, manufacturing, and livestock sectors) and the WaterGAP Global Hydrology Model (WGHM). Recently, the latest model version, WaterGAP 2.2d, was finalized, containing a number of enhancements and revisions such as a river storage-based flow velocity approach, improvements in modelling groundwater recharge in dry environments and integration of historical development of irrigated areas.</p><p>This presentation provides an overview about the WaterGAP 2.2d scheme and features, assesses global freshwater resources (runoff and streamflow) and water balance components, and provides insights to evaluation results against observed streamflow, GRACE total water storage and the AQUASTAT database.</p>

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Water use efficiency in thermal power plants in India

The United Nations World Water Development Report - The United Nations World Water Development Report 2014 ◽

10.18356/e95e70ae-en ◽

2014 ◽

pp. 150-153

Keyword(s):

Water Use Efficiency ◽

Water Use ◽

Power Plants ◽

Thermal Power ◽

Thermal Power Plants ◽

Use Efficiency

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Taking into account the constraints in power system mode optimization by genetic algorithms

E3S Web of Conferences ◽

10.1051/e3sconf/202126404045 ◽

2021 ◽

Vol 264 ◽

pp. 04045

Author(s):

Tulkin Gayibov ◽

Behzod Pulatov

Keyword(s):

Genetic Algorithms ◽

Power System ◽

Power Plants ◽

Thermal Power ◽

Thermal Power Plants ◽

Functional Constraints ◽

The Past ◽

Powerful Approach ◽

System Mode ◽

The Given

Over the past decades, many publications on the use of genetic algorithms, which offer a new and powerful approach for solving the problem of power system mode optimization, have appeared. Despite this, the issues of effectively taking into account various constraints when solving such problems with genetic algorithms remain opened. In this regard, this article proposes an algorithm for optimizing power system modes by genetic algorithm, taking into account functional constraints in the form of equalities and inequalities by various penalty functions. The results of effectiveness research of the given algorithm in the example of optimization of 8-nodal power system with four thermal power plants and three lines with controlled power flows are presented.

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Cost of Water Use: A Driver of Future Investments into Water-efficient Thermal Power Plants?

Aquatic Procedia ◽

10.1016/j.aqpro.2015.10.006 ◽

2015 ◽

Vol 5 ◽

pp. 31-43 ◽

Cited By ~ 10

Author(s):

G. Kablouti

Keyword(s):

Water Use ◽

Power Plants ◽

Thermal Power ◽

Thermal Power Plants

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Global scenarios for significant water use reduction in thermal power plants based on cooling water demand estimation using satellite imagery

Nature Energy ◽

10.1038/s41560-019-0501-4 ◽

2019 ◽

Vol 4 (12) ◽

pp. 1040-1048 ◽

Cited By ~ 10

Author(s):

Alena Lohrmann ◽

Javier Farfan ◽

Upeksha Caldera ◽

Christoph Lohrmann ◽

Christian Breyer

Keyword(s):

Water Use ◽

Satellite Imagery ◽

Water Demand ◽

Power Plants ◽

Thermal Power ◽

Cooling Water ◽

Demand Estimation ◽

Thermal Power Plants

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Membrane Capacitive Deionization for Cooling Water Intake Reduction in Thermal Power Plants: Lab to Pilot Scale Evaluation

Energies ◽

10.3390/en13061305 ◽

2020 ◽

Vol 13 (6) ◽

pp. 1305 ◽

Cited By ~ 1

Author(s):

Wim De Schepper ◽

Christophe Vanschepdael ◽

Han Huynh ◽

Joost Helsen

Keyword(s):

Water Use Efficiency ◽

Water Use ◽

Power Plants ◽

Thermal Power ◽

Simulation Software ◽

Process Conditions ◽

Feed Water ◽

Capacitive Deionization ◽

Use Efficiency ◽

Acid Dosage

Cooling of thermal power stations requires large amounts of surface water and contributes to the increasing pressure on water resources. Water use efficiency of recirculating cooling towers (CT) is often kept low to prevent scaling. Partial desalination of CT feed water with membrane capacitive deionization (MDCI) can improve water quality but also results in additional water loss. A response surface methodology is presented in which optimal process conditions of the MCDI-CT system are determined in view of water use efficiency and cost. Maximal water use efficiency at minimal cost is found for high adsorption current (2.5 A) and short adsorption time (900 s). Estimated cost for MCDI to realize maximal MCDI-CT water use efficiency is relatively high (2.0–3.1 € m−3evap), which limits applicability to plants facing high intake water costs or water uptake limitations. MCDI-CT pilot tests show that water use efficiency strongly depends on CT operational pH. To allow comparison among pilot test runs, simulation software is used to recalculate CaCO3 scaling and acid dosage for equal operational pH. Comparison at equal pH shows that MCDI technology allows a clear reduction of CT water consumption (74%–80%) and acid dosage (63%–80%) at pH 8.5.

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CO2 Emission Calculation and Emission Characteristics Analysis of Typical 600MW Coal-fired Thermal Power Unit

E3S Web of Conferences ◽

10.1051/e3sconf/202016501029 ◽

2020 ◽

Vol 165 ◽

pp. 01029 ◽

Cited By ~ 1

Author(s):

Yu Honghai ◽

Wang Zhi ◽

Chen Li ◽

Wu Jianan

Keyword(s):

Power Plant ◽

Co2 Emissions ◽

Emission Intensity ◽

Co2 Emission ◽

Power Plants ◽

Thermal Power ◽

Emission Characteristics ◽

The Past ◽

Characteristics Analysis ◽

Co2 Emission Intensity

In order to effectively reduce the total CO2 emissions of coal-fired power plants and reduce greenhouse gas emissions, the relevant data of a typical 600MW coal-fired power plant in the past five years was collected and investigated, and CO2 emissions and emission intensity were calculated. And the results were used to measure the CO2 emission level of coal-fired power plants. By comparing and analyzing the CO2 emission intensity and emission trend of 600MW coal-fired units with different unit types and different fuel types, the CO2 emission characteristics of typical 600MW coal-fired power plants are obtained.

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A Review on Utilization of Fly- Ash and Pond-Ash as a Partial Replacement of Cement in Concrete Mix Design

International Journal of Scientific Research in Science Engineering and Technology ◽

10.32628/ijsrset196270 ◽

2018 ◽

pp. 413-418

Author(s):

Harshkumar Patel ◽

Yogesh Patel

Keyword(s):

Fly Ash ◽

Electricity Generation ◽

Power Plants ◽

Renewable Energy Sources ◽

Thermal Power ◽

Strength Test ◽

Partial Replacement ◽

Pond Ash ◽

Research Activities ◽

Ash Disposal

Now-a-days energy planners are aiming to increase the use of renewable energy sources and nuclear to meet the electricity generation. But till now coal-based power plants are the major source of electricity generation. Disadvantages of coal-based thermal power plants is disposal problem of fly ash and pond ash. It was earlier considered as a total waste and environmental hazard thus its use was limited, but now its useful properties have been known as raw material for various application in construction field. Fly ash from the thermal plants is available in large quantities in fine and coarse form. Fine fly ash is used in construction industry in some amount and coarse fly ash is subsequently disposed over land in slurry forms. In India around 180 MT fly is produced and only around 45% of that is being utilized in different sectors. Balance fly ash is being disposed over land. It needs one acre of land for ash disposal to produce 1MW electricity from coal. Fly ash and pond ash utilization helps to reduce the consumption of natural resources. The fly ash became available in coal based thermal power station in the year 1930 in USA. For its gainful utilization, scientist started research activities and in the year 1937, R.E. Davis and his associates at university of California published research details on use of fly ash in cement concrete. This research had laid foundation for its specification, testing & usages. This study reports the potential use of pond-ash and fly-ash as cement in concrete mixes. In this present study of concrete produced using fly ash, pond ash and OPC 53 grade will be carried. An attempt will be made to investigate characteristics of OPC concrete with combined fly ash and pond ash mixed concrete for Compressive Strength test, Split Tensile Strength test, Flexural Strength test and Durability tests. This paper deals with the review of literature for fly-ash and pond-ash as partial replacement of cement in concrete.

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