An Integrated Approach to Water-Energy Nexus in Shale-Gas Production

Al-Aboosi, Fadhil Y.; El‐Halwagi, Mahmoud M.

doi:10.20944/preprints201804.0235.v1

Cited by 15 publications

(4 citation statements)

References 23 publications

(28 reference statements)

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“…No multi-stage flash desalination units were included in this study. The reader is referred to several works that have treated this subject in detail [7,81,[81][82][83][84][85][86][87][88][89][90][91][92].…”

Section: F: Thermal Energy For Water Desalinationmentioning

confidence: 99%

“…To illustrate, a recent study estimates that water withdrawals by electricity generating facilities in 2010 constituted 45% of the overall freshwater withdrawals in the United States with approximately 2% of that water being consumed as a result [4]. In addition to cooling purposes, large quantities of water are utilized in the extraction of raw fuels for electricity generation [7,8]. A recent study reported that the water consumption (in liters per gigajoule -L/GJ) for worldwide production of carbon-based and nuclear fuels is as follows: 1) traditional oil (3-7 L/GJ); 2) oil from oil sands (70-1800 L/GJ); 3) conventional natural gas (minimal water use); 4) shale gas (36-54 L/GJ); 5) coal (5-70 L/GJ); and 6) uranium (4-22 L/GJ) [8].…”

Section: Introductionmentioning

confidence: 99%

“…As a consequence of decarbonization and low gas prices, a lot of new natural gas power plants are being installed to replace the retired coal and oil generation facilities [23]. However, natural gas production withdraws and consumes significant amounts of water (≈ 1000m 3 -30000m 3 per shale well per year [7]) and hence, cannot be ignored within the context of renewable energy integration [7,[24][25][26][27][28][29]. To meet the required CO 2 emission reductions, natural gas production is projected to grow by 44% between 2011 and 2040 [30].…”

Section: Introductionmentioning

confidence: 99%

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An enterprise control methodology for the techno-economic assessment of the energy water nexus

Muhanji

Farid

2020

Applied Energy

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In recent years, the energy-water nexus literature has recognized that the electricity and water infrastructure that enable the production, distribution, and consumption of these two precious commodities is fundamentally intertwined.Electric power is used to produce, treat, distribute, and recycle water while water is used to generate and consume electricity. In the meantime, significant attention has been given to renewable energy integration within the context of global climate change. While these two issues may seem unrelated, their resolution is potentially synergistic in that renewable energy technologies not only present low CO 2 emissions but also low water-intensities. Furthermore, because water is readily stored, it has the potential to act as a flexible energy resource on both the supply as well as the demand-side of the electricity grid. Despite these synergies, the renewable energy integration and energy-water nexus literature have yet to methodologically converge to systematically address potential synergies. This paper advances an enterprise control methodology as a means of assessing the techno-economic performance of the energy water nexus.The enterprise control methodology has been developed in recent years to advance the methodological state of the art of renewable energy integration studies and used recently to carry out a full-scale study for the Independent System Operator (ISO) New England system. The methodology quantifies day-ahead and real-time energy market production costs, dispatched energy mixes, required operating reserves, levels of curtailment, and grid imbalances. This energywater nexus methodological extension now includes flexible water-energy resources within the grid's energy resource portfolio and quantifies the amounts of water withdrawn and consumed. The simulation methodology is demonstrated on a modified version of the RTS-96 (RTS-GMLC) test case.

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Section: F: Thermal Energy For Water Desalinationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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An enterprise control methodology for the techno-economic assessment of the energy water nexus

Muhanji

Farid

2020

Applied Energy

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“…3 [87], which represents one of the significant Fig. 1 A hierarchical methodology of predicting DNI hotspots in the United States due to various activities of water-energy-food nexus [88] such as shale oil and gas production [89][90][91], agricultural production [92,93], etc. The solar data for San Antonio is obtained from the National Solar Radiation Data Base (NSRDB) between 1991 and 2010 are: hourly global solar irradiance, hourly direct solar irradiance, hourly diffuse solar irradiance, hourly solar incidence angle, hourly dry bulk temperature, hourly wet bulk temperature, and relative humidity.…”

Section: Site Description and Data Collectionmentioning

confidence: 99%

Models and hierarchical methodologies for evaluating solar energy availability under different sky conditions toward enhancing concentrating solar collectors use: Texas as a case study

Al-Aboosi

2019

Int J Energy Environ Eng

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The precise estimation of solar radiation data is substantial in the long-term evaluation for the techno-economic performance of solar energy conversion systems (e.g., concentrated solar thermal collectors and photovoltaic plants) for each site around the world, particularly, direct normal irradiance which is utilized commonly in designing solar concentrated collectors. However, the lack of direct normal irradiance data comparing to global and diffuse horizontal irradiance data and the high cost of measurement equipment represent significant challenges for exploiting and managing solar energy. Consequently, this study was performed to develop two hierarchical methodologies by using various models, empirical correlations and regression equations to estimate hourly solar irradiance data for various worldwide locations (using new correlation coefficients) and different sky conditions (using cloud cover range). Additionally, the preliminary assessment for the potential of solar energy in the selected region was carried out by developing a comprehensive analysis for the solar irradiance data and the clearness index to make a proper decision for the capability of utilizing solar energy technologies. A case study for the San Antonio region in Texas was selected to demonstrate the accuracy of the proposed methodologies for estimating hourly direct normal irradiance and monthly average hourly direct normal irradiance data at this region. The estimated data show a good accuracy comparing with measured solar data by using locally adjusted coefficients and different statistical indicators. Furthermore, the obtained results show that the selected region is unequivocally amenable to harnessing solar energy as the prime source of energy by utilizing concentrating and non-concentrating solar energy systems.

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Preliminary Evaluation of a Rooftop Grid-Connected Photovoltaic System Installation under the Climatic Conditions of Texas (USA)

Al-Aboosi

2021

Energies

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Solar photovoltaic (PV) systems have demonstrated growing competitiveness as a viable alternative to fossil fuel-based power plants to mitigate the negative impact of fossil energy sources on the environment. Notwithstanding, solar PV technology has not made yet a meaningful contribution in most countries globally. This study aims to encourage the adoption of solar PV systems on rooftop buildings in countries which have a good solar energy potential, and even if they are oil or gas producers, based on the obtained results of a proposed PV system. The performance of a rooftop grid-tied 3360 kWp PV system was analyzed by considering technical, economic, and environmental criteria, solar irradiance intensity, two modes of single-axis tracking, shadow effect, PV cell temperature impact on system efficiency, and Texas A&M University as a case study. The evaluated parameters of the proposed system include energy output, array yield, final yield, array and system losses, capacity factor, performance ratio, return on investment, payback period, Levelized cost of energy, and carbon emission. According to the overall performance results of the proposed PV system, it is found to be a technically, economically, and environmentally feasible solution for electricity generation and would play a significant role in the future energy mix of Texas.

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An Integrated Approach to Water-Energy Nexus in Shale-Gas Production

Cited by 15 publications

References 23 publications

An enterprise control methodology for the techno-economic assessment of the energy water nexus

An enterprise control methodology for the techno-economic assessment of the energy water nexus

Models and hierarchical methodologies for evaluating solar energy availability under different sky conditions toward enhancing concentrating solar collectors use: Texas as a case study

Preliminary Evaluation of a Rooftop Grid-Connected Photovoltaic System Installation under the Climatic Conditions of Texas (USA)

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