Review on hybrid geothermal and solar power systems

Li, Kewen; Liu, Changwei; Jiang, Shanshan; Chen, Youguang

doi:10.1016/j.jclepro.2019.119481

Cited by 123 publications

(50 citation statements)

References 50 publications

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“…The results of many studies show that hybrid solar/geothermal has a great performance comparing with separating systems and the efficiency of the system depended on the improvement of hybrid system components. However, as there are advantages of hybrid solar/geothermal systems there are disadvantages represented by high initial cost adding to the complexity in the components of hybrid systems [18]. One of the suggested solutions to meeting the shorting in energy supply is geothermal energy that represents by stored energy that proposed as a combined concentrated solar array with geothermal depending on stored energy under the earth (water or steam) which effected by high pressure and temperature.…”

Section: Figure 3 Hybrid Solar/geothermal Systems For Heating and Comentioning

confidence: 99%

Overview of the hybrid solar system

Alktranee

Bencs

2020

Anal. Tech. Szeged.

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This paper investigates the uses of solar energy systems in various applications to define the most appropriate system that has highly efficient and reliable. Most of the urban even rural areas that suffer from lack of continuous power supplies it prefer to depend on hybrid systems like solar/wind systems, solar/geothermal system and solar/diesel-battery systems. Investigation indicates that hybrid systems could meet the required loads in different proportions depending on the operating conditions and components of the hybrid system compare with the separate system but has complexity regarding their components of the system with the high initial cost Moreover, Utilize hybrid solar/thermal system is more sufficient than had systems that mentioned as a result of the improvements at his parts to increase the overall efficiency by use PCM, nanofluid or a mix of PCM - nanofluid as cooling the PV panel to keep the efficiency of the solar cells and increase thermal energy. Thus, hybrid solar/thermal systems had proven effective to meet the required loads of electric energy and good capacity to provide thermal energy simultaneously without toxic emissions with a negligible complexity of its components.

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Section: Figure 3 Hybrid Solar/geothermal Systems For Heating and Comentioning

confidence: 99%

Overview of the hybrid solar system

Alktranee

Bencs

2020

Anal. Tech. Szeged.

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“…Solar energy sources are abundant and more competitive than conventional fossil fuels in the generation of electricity (Venkata Sai & Reddy, 2020). The rapid deployment of solar energy in the world is the result of ambitious political support, such as tariffs for energy generation and distribution and the abundant solar sources on the planet (Li, Liu, Jiang, & Chen, 2020;Stoicanescu et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Potential environmental impacts of photovoltaic solar energy on industry

Franco

Ravagnani

Franco

2023

Exacta

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Solar energy is considered one of the most importants renewable energy resources to decrease the dependence on fossil fuels. Therefore, this study aims to conduct a systematic review of the literature on high impact research on the environmental impacts avoided with the use of solar photovoltaic energy in the industrial sector to investigate trends in this body of literature. To this end, filters were applied to the gross portfolio between 209 articles and 22 were selected to identify the most relevant and high impact studies in the area. The results show the main trends in the referred body of literature, possible connections of photovoltaic solar energy and environmental impacts in the industry, as well as the main researchers who carry out studies.This study provides an overview of the impacts avoided with the use of solar photovoltaic energy in the possibilities of future research.

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“…Despite the limited studies on the hybridization of geothermal with biomass, the literature on hybridization of flash-type geothermal power plants with solar thermal is more developed [ 8 ] and can provide insight into the design of hybrid geothermal–biomass power plants. Solar thermal heat is used in most of these studies, either to preheat or superheat the geothermal working fluid.…”

Section: Introductionmentioning

confidence: 99%

Development and Analysis of the Novel Hybridization of a Single-Flash Geothermal Power Plant with Biomass Driven sCO2-Steam Rankine Combined Cycle

Mutlu

Baker

Kazanç

2021

Entropy

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This study investigates the hybridization scenario of a single-flash geothermal power plant with a biomass-driven sCO2-steam Rankine combined cycle, where a solid local biomass source, olive residue, is used as a fuel. The hybrid power plant is modeled using the simulation software EBSILON®Professional. A topping sCO2 cycle is chosen due to its potential for flexible electricity generation. A synergy between the topping sCO2 and bottoming steam Rankine cycles is achieved by a good temperature match between the coupling heat exchanger, where the waste heat from the topping cycle is utilized in the bottoming cycle. The high-temperature heat addition problem, common in sCO2 cycles, is also eliminated by utilizing the heat in the flue gas in the bottoming cycle. Combined cycle thermal efficiency and a biomass-to-electricity conversion efficiency of 24.9% and 22.4% are achieved, respectively. The corresponding fuel consumption of the hybridized plant is found to be 2.2 kg/s.

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Review on hybrid geothermal and solar power systems

Cited by 123 publications

References 50 publications

Overview of the hybrid solar system

Overview of the hybrid solar system

Potential environmental impacts of photovoltaic solar energy on industry

Development and Analysis of the Novel Hybridization of a Single-Flash Geothermal Power Plant with Biomass Driven sCO2-Steam Rankine Combined Cycle

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