Relevant bibliographies by topics / Solar energy exploitation

Academic literature on the topic 'Solar energy exploitation'

Author: Grafiati
Published: 14 March 2023

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Journal articles on the topic "Solar energy exploitation"

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Michaelides, J. M., D. R. Wilson, and P. P. Votsis. "Exploitation of solar energy in Cyprus." Renewable Energy 1, no. 5-6 (January 1991): 629–37. http://dx.doi.org/10.1016/0960-1481(91)90007-c.

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Voros, N. G., C. T. Kiranoudis, and Z. B. Maroulis. "Solar energy exploitation for reverse osmosis desalination plants." Desalination 115, no. 1 (March 1998): 83–101. http://dx.doi.org/10.1016/s0011-9164(98)00029-0.

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Ciamberlini, C., F. Francini, G. Longobardi, M. Piattelli, and P. Sansoni. "Solar system for exploitation of the whole collected energy." Optics and Lasers in Engineering 39, no. 2 (February 2003): 233–46. http://dx.doi.org/10.1016/s0143-8166(01)00130-0.

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Renger, Gernot. "Biological Exploitation of Solar Energy by Photosynthetic Water Splitting." Angewandte Chemie International Edition in English 26, no. 7 (July 1987): 643–60. http://dx.doi.org/10.1002/anie.198706431.

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Graell, Gemma Graugés, and George Xydis. "Solar Thermal in the Nordics. A Belated Boom for All or Not?" AIMS Energy 10, no. 1 (2022): 69–86. http://dx.doi.org/10.3934/energy.2022005.

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<abstract> <p>In this work, the use of solar thermal energy in the Nordic Countries, especially in Denmark, is studied. Renewable energies, such as solar, are an important ally in the fight against Climate Change, with more countries betting on them. In the past, it may have been believed that the Nordic Region does not have enough solar radiation for solar energy to be profitable, but changes in the climate and technology have proven this statement to be wrong. The case of Denmark is a clear example, which has become a leading country when it comes to solar thermal energy. A study of the current Danish solar thermal market is conducted in this project in order to understand how this country is making the most out of this energy source. Three different plants are studied (Silkeborg, Vollerup and Gr?sten) and compared to those of other Nordic Countries (Akershus from Norway and H?meenlinna from Finland). It was found that the main difference between them is the size of the Photovoltaic (PV) parks. Whilst Denmark specialised in large-scale plants with a two-phase building process, the other countries are only using small-scale installations. After a deeper understanding of the Danish energy market, it is concluded that there is a solar thermal energy policy that allows its exploitation. Furthermore, an increase in the level of solar radiation in Denmark over the last decade has led Danish experts to believe that solar energy in the Nordic Countries is going to be even more profitable in the following years. It is believed that Denmark will continue its current expansion into this market and also that the other Nordic countries will soon enough join.</p> </abstract>
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Jin, Yu Cheng. "The Utilization of Technology and Development Prospect of Solar Energy." Applied Mechanics and Materials 448-453 (October 2013): 1470–73. http://dx.doi.org/10.4028/www.scientific.net/amm.448-453.1470.

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The solar energy as a kind of new clean energy, plays an important role in the economic development and protecting environment in China1China started later in the exploitation and utilization of solar energy, but has big solar potential. This paper gives a detailed introduction to the distribution of solar energy resources, and the industrial utilization of solar light-heat effect and light-electricity, points out the prospects of the development of solar energy industry in China.
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Melisa Viegas, Graciela, and Gustavo Alberto San Juan. "Energy and Environmental Aptitude (EEA) to Assess Solar Energy Exploitation in Cities." Resources and Environment 2, no. 5 (December 1, 2012): 185–92. http://dx.doi.org/10.5923/j.re.20120205.02.

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Banat, F., R. Jumah, and M. Garaibeh. "Exploitation of solar energy collected by solar stills for desalination by membrane distillation." Renewable Energy 25, no. 2 (February 2002): 293–305. http://dx.doi.org/10.1016/s0960-1481(01)00058-1.

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Hajji, M., H. Labrim, M. Benaissa, A. Laazizi, H. Ez-Zahraouy, E. Ntsoenzok, J. Meot, and A. Benyoussef. "Photovoltaic and thermoelectric indirect coupling for maximum solar energy exploitation." Energy Conversion and Management 136 (March 2017): 184–91. http://dx.doi.org/10.1016/j.enconman.2016.12.088.

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Odamov, Umarbay, Mirziyo Kamilov, Shavki Niyazov, and Song Kihyun. "RESEARCH OF THE EFFICIENCY OF THE SOLAR BATTERY OPERATIONS IN REAL EXPLOITATION CONDITIONS." Scientific Reports of Bukhara State University 5, no. 4 (April 30, 2021): 2–17. http://dx.doi.org/10.52297/2181-1466/2021/5/4/1.

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Introduction. Nowadays, there is a constant growth of the demand for the use of solar power plants and obtaining green energy. In the using process of them in real conditions, a decrease in efficiency is observed. Because of the influence of external and internal factors on solar cells, the Coefficient of Efficiency(COE) panels decreases. The study of these influencing factors today is one of the actual problems. In this work is presented a study of the efficiency of a solar battery in real operating conditions. Research methods.
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Dissertations / Theses on the topic "Solar energy exploitation"

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Aldabesh, Abdulmajeed. "Solar energy potential in the Kingdom of Saudi Arabia : a comparative analysis, assessment and exploitation for power generation." Thesis, University of Nottingham, 2016. http://eprints.nottingham.ac.uk/36250/.

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This research investigates the potential for employing solar energy as a sustainable power generation source in the Kingdom of Saudi Arabia (KSA). The work maps the availability of solar energy throughout the country, and investigates the feasibility of implementing the technology at two case study locations. These are the existing power generation grid sites of Wadi Aldawasir (located 20° 23′ 22.00″ N 45° 12′ 32.00″ E), and Shuaibah (located 20° 37′ 22.84″ N 39° 33′ 44.02″ E). The first case study site, Wadi Aldawasir, covers an area of 48,900 m2, where parabolic trough solar thermal technology is proposed for power generation. The second case study site, Shuaibah power plant is one of the largest desalination and fossil fuel plants in the world with a 1,030,000 m3/ day capacity. Both case studies were assessed in terms of site specifications with selection based on Direct Normal Irradiation (DNI). A feasibility study examining Concentrated Solar Power (CSP) potential was conducted for both locations, with analysis of weather data, particularly monthly and annual, global horizontal and beam normal irradiation data. From these data, a reasonable estimate of CSP potential, and viability of the technology was determined. Simulation was then performed using Solar Advisor Model (SAM) and Renewable Energy Technology Screen (RETScreen) software, taking into account the location weather data, (DNI, dry-bulb and dew-point temperatures, relative humidity, barometric pressure, and wind speed), technical specification, (solar field, Solar Multiple (SM) Solar collector Assemblies (SCAs), power cycle and thermal storage) and economic parameters (energy unit cost, maintenance, etc.). Simulation evaluated annual energy performance (solar radiation resource of the solar field, electrical energy delivered by solar thermal plant, system losses, required solar field area), levelised cost of unit of power generated, CO2 emissions savings, and other financial feasibility indicators. The work shows that the energy yield of the new solar power plants using proposed CSP technology in both case studies is feasible.
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OTTONE, MELIS CARMINNA SOPHIA. "Heterogeneous and Heterogenized Catalysts for Water Oxidation Reaction as Studied by Means of Sacrificial Oxidant." Doctoral thesis, Politecnico di Torino, 2014. http://hdl.handle.net/11583/2594356.

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Hydrogen production from solar-driven water splitting (WS) reaction is considered a promising way to store solar energy. This process can be achieved directly by means of a photo-electrochemical cell (PEC), where light absorption, charge separation and WS occur in a single device; or indirectly, by coupling a photovoltaic device to an electrolyzer. WS is a thermodynamically uphill reaction, formed by two half reactions, i.e. the reduction of protons into H2 and the oxidation of water into O2. From a kinetic point of view, the latter is the most challenging one, being generally considered as the bottleneck for a widespread use of WS for hydrogen production. Thus, regardless of whether WS is carried out in direct or indirect configurations, the efficiency of the water oxidation catalyst (WOC) is a key determinant of the overall energy storage efficiency. The present thesis fits within this context, being focused on the study of different WOCs based on earth abundant elements (i.e. Mn and Co). Different heterogeneous Mn-based WOCs were studied, including: (i) different crystal structures of Mn oxides, both commercial and lab-made (i.e. MnO2, Mn3O4 and Mn2O3); (ii) a calcium manganese oxide (containing Ca2Mn3O8 and CaMn2O4) and (iii) lanthanum manganites (LaMnO3) prepared via sol-gel (SG) and flame spray pyrolysis (FP). On the other hand, the heterogenization of a homogeneous Co based WOC, i.e. the polyoxometalate Na10[Co4(H2O)2(PW9O34)2] (CoPOM), was investigated, as well. CoPOM is known to be a highly active WOC, comprising an active {Co4O4} core stabilized by oxidatively resistant polytungstate ligands. Transferring its solution reactivity to solid substrates is a fundamental step in the realization of a PEC.
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Ning, Fulong, Guosheng Jiang, and Ling Zhang. "COMPREHENSIVE UTILIZATION OF GEOTHERMAL AND SOLAR ENERGY TO EXPLOIT GAS HYDRATES BURIED IN OCEANIC SEDIMENTS." 2008. http://hdl.handle.net/2429/1063.

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How to exploit and make use of natural gas hydrates in oceans will weigh much in the future researches. Unlike the oil or gas reservoirs, the distributions of natural gas hydrate are very complicated and don’t congregate massively in oceanic sediments. Besides, factors such as seafloor geohazards and climate must be taken into account, which makes it much more difficult and complicated to exploit oceanic gas hydrates than conventional oil or gas. Nowadays neither of such methods as thermal stimulation, depressurization, inhibitor injection, carbon dioxide replacement and mixing exploitation etc. is applied to exploit gas hydrates in marine sediments because of their disadvantages. This paper introduces a conception of combining solar and geothermal energy for gas hydrates exploitation. The model mainly includes five parts: solar energy transferring module, sea water circulating module, underground boiler module, platform and gas-liquid separating module. Solar cells and electric heaters are used to heat the formations containing hydrates. Because they become relatively more mature and cheaper, it’s the key of how to utilize the geothermy to exchange heat in developing this conception, which needs solution of fluid leakage, circulating passages and heat-exchange interface problems in building underground boiler. Probably it’s a feasible measure to use an effective hydraulic control system and hydraulic fracturing. The idea should be a good choice to exploit marine gas hydrates by combining solar and geothermal energy since this method has a great advantage either in terms of efficiency or cost.
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Books on the topic "Solar energy exploitation"

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Kosuke, Kurokawa, ed. Energy from the desert: Feasibility of very large scale photovoltaic power generation (VLS-PV) systems. London: James & James (Science Publishers), 2003.

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Keiichi, Komoto, ed. Energy from the desert: Very large scale photovoltaic systems : socio-economic, financial, technical, and environmental aspects. Sterling, VA: Earthscan, 2009.

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Kosuke, Kurokawa, ed. Energy from the desert: Very large scale photovoltaic systems : socio-economic, financial, technical, and environmental aspects. Sterling, VA: Earthscan, 2009.

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Kurokawa, Kosuke. Energy from the Desert: Feasability of Very Large Scale Power Generation. Taylor & Francis Group, 2014.

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Energy from the Desert: Feasability of Very Large Scale Power Generation. Routledge, 2014.

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Kurokawa, Kosuke. Energy from the Desert: Feasibility of Very Large Scale Power Generation Systems. Taylor & Francis Group, 2012.

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Kurokawa, Kosuke. Energy from the Desert: Feasibility of Very Large Scale Power Generation Systems. Taylor & Francis Group, 2012.

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Kurokawa, Kosuke. Energy from the Desert: Feasibility of Very Large Scale Power Generation Systems. Taylor & Francis Group, 2012.

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Kurokawa, Kosuke. Energy from the Desert: Feasibility of Very Large Scale Power Generation Systems. Taylor & Francis Group, 2012.

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Kurokawa, Kosuke. Energy from the Desert: Feasibility of Very Large Scale Photvoltaic Power Generation Systems and Practical Proposals for Very Large Scale Photovoltaic Systems. Taylor & Francis Group, 2007.

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Book chapters on the topic "Solar energy exploitation"

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Reber, Jean-François. "Prospectives of Exploitation of Photocatalytic and Photoelectrochemical Processes for Solar Energy Conversion." In Photoelectrochemistry, Photocatalysis and Photoreactors, 321–49. Dordrecht: Springer Netherlands, 1985. http://dx.doi.org/10.1007/978-94-015-7725-0_13.

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Renger, Gernot. "Apparatus and Mechanism of Photosynthetic Water Splitting as Nature's Blueprint for Efficient Solar Energy Exploitation." In Natural and Artificial Photosynthesis, 65–119. Hoboken, NJ, USA: John Wiley & Sons Inc., 2013. http://dx.doi.org/10.1002/9781118659892.ch3.

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Dragović, Miomir. "Development of the Concept for Solar Energy Exploitation Illustrated by an Example of a Building Design." In 1989 2nd European Conference on Architecture, 603–5. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-017-0556-1_174.

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Grabovac, J. "10TH YEARS OF THE EXPLOITATION OF SOLAR ENERGY IN YUGOSLAVIA." In Advances In Solar Energy Technology, 2750–53. Elsevier, 1988. http://dx.doi.org/10.1016/b978-0-08-034315-0.50508-5.

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Simonnot, G., A. Louche, and Y. Decanini. "THREE YEARS EXPLOITATION OF THE 100 kW AJACCIO SOLAR POWER PLANT." In Advances In Solar Energy Technology, 1588–92. Elsevier, 1988. http://dx.doi.org/10.1016/b978-0-08-034315-0.50309-8.

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Ben Abdessalem, Wahiba, Sami Karaa, and Amira S. Ashour. "Renewable Energy Management with a Multi-Agent System." In Renewable and Alternative Energy, 1081–92. IGI Global, 2017. http://dx.doi.org/10.4018/978-1-5225-1671-2.ch034.

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Renewable energy generation (Wind, solar …) is rising rapidly around the world. Energy storage is being today realistic with some kind of variable renewable electricity sources such as the Pumped Hydraulic Storage (PHS). The incorporation of the PHS requires different policies since there are a variety of electric generation technologies that can be exploited commonly with the PHS. The energy management system, the scheduling of the generation units is a crucial problem for which adequate solutions can optimize the energy supply. This paper focuses on the applicability of the PHS technology in the development of renewable energy generation in Tunisia. This paper proposes also a multi agent system that can be implemented to simulate the exploitation of the PHS, commonly with other energy sources: conventional energy, wind energy, photovoltaic energy etc.
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Nyika, Joan Mwihaki. "Green Energy Technologies as the Road Map to Sustainable Economic Growth in Kenya." In Advances in Environmental Engineering and Green Technologies, 167–84. IGI Global, 2021. http://dx.doi.org/10.4018/978-1-7998-4915-5.ch009.

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Kenya, just like other developing countries of the world, is energy deficient. Power supply is characterized by flaws including inaccessibility by marginalized rural communities, high cost of electricity, power outages, and over-reliance on biomass and hydropower sources. Despite these trends, the country has great potential to produce green energy including wind, biofuels, solar, and geothermal power in excess of the entire country's demand. This chapter explores the status of each of these green energy sources and their production potential using in Kenya. Findings show that the production capacity for all of the sources is high though limited tapping and harnessing of these energy resources is done. This could be attributable to lack of exploitation technology and expertise, huge capital investments involved and the uncertainty on the effects of these renewable energy sources to food and water security. For optimal exploitation, Kenya must invest in the energy sector hugely to enhance technical know-how on its development and cater for the associated financial opportunity costs.
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"Role of Wind Energy Technology in India and Neighboring Countries." In Wind Energy Applications, edited by K. R. Rao, 5–169. ASME, 2022. http://dx.doi.org/10.1115/1.885727_ch5.

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Wind power has soared in terms of installed capacities and market share over the last decades. It has also become a source of sizeable economic activity. Its project activities in terms of manufacture both for domestic and international markets, installation & commissioning have increased. Operational wind power has provided a sizeable number of high technology jobs in remote areas. Several positive impacts observed in terms of major electrical grid expansions have resulted in many centres of economic importance. The only threat for wind power, if we may call it, is from the solar electricity. Notwithstanding the fact that wind power technologies originally evolved in Europe and to an extent in United States, major commercial exploitation is seen in Asia, predominantly China. As a matter of fact, China leads the pack with India occupying fifth position. China changed its stance regarding Wind Power in 2007-08. Chinese approach has been to concentrate on “building big” and there was no hesitation to employ technology resources including expertise from Europe and the United States to set up comprehensive technology base. India, in contrast, concentrated more on deployment of technologies from overseas, even in terms of component development. There have been considerable efforts by the Government and private sector players in terms of largescale wind projects with meteorological towers up to 160 m height. Well documented and informed assessment reports are produced for future wind farms and wind solar hybrid projects.
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"Carbon Nanomaterials Beyond Graphene for Solar Cell and Electrochemical Sensing." In Materials for Solar Cell Technologies I, 62–85. Materials Research Forum LLC, 2021. http://dx.doi.org/10.21741/9781644901090-3.

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Carbon-based nanomaterials have different structures with excellent physical and electronic properties. Graphene and carbon nanomaterials are widely used in sensing areas due to its high positive effect on the response of modified electrodes. Their presence increases sensitivities and gives the lower detection limits and enhances the analytical performance of biosensors for food safety and environmental monitoring. In addition, carbon nanomaterials play an important role for the good exploitation of solar energy by developing new structures of silicon-based photovoltaic cells. In this work we report the effect of the most recent graphene and carbon nonmaterial used for electrochemical detection of substances. This chapter also presents an overview of solar cell synthesis using graphene and carbon nanomaterials.
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Norberto Guerra Ramírez, José. "Impacts of the Industrial and Technological Revolution on Territories and Cities in the Arid Environments: A Case Study of the Antofagasta Region in the Atacama Desert, Chile." In Arid Environment - Perspectives, Challenges and Management. IntechOpen, 2023. http://dx.doi.org/10.5772/intechopen.108743.

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This chapter addresses the environmental and socio-cultural impact that the Industrial Revolution has maintained in the exploitation of the arid territories of the Atacama Desert. The perspectives, challenges and management of a region noted for its great contribution to the economic development of Chile are observed. Since the first promotion of the mining industry, today new industries such as solar energy, tourism and astronomy have strengthened regional development. This is the region with the highest solar radiation on the planet and one of the best places for astronomical observation, in the most Mars-like landscape on Earth. However, the development has not manifested itself in the well being of the cities, which have an average standard of urban development. The methodology of the study has a qualitative approach, assessing the fragility of the desert ecological system, with the strategies of adaptation to climate change and sustainable development. Improving the livability of cities, with unprecedented urban and architectural forms, is a necessity. The research hypothesis proposes that desert territories have a great potential to trigger sustainable energy transition. In conclusion, deserts are key environments to lead the process of innovation and creation of new desert cities.
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Conference papers on the topic "Solar energy exploitation"

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Sarigiannidis, A. G., P. E. Kakosimos, and A. G. Kladas. "Solar Energy Exploitation Enhancing Driving Autonomy of Electric Vehicles." In MedPower 2014. Institution of Engineering and Technology, 2014. http://dx.doi.org/10.1049/cp.2014.1649.

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Gladt, Dr Matthias. "A NEW CONTROL STRATEGY FOR THE EXPLOITATION OF SOLAR ENERGY." In International Sustainable Energy Conference 2018. AEE INTEC, 2018. http://dx.doi.org/10.32638/proceedings.isec2018.201835.

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Kadar, Peter, and Tibor Kliment. "Autoregression test of solar photovoltaic energy generation." In 2011 IEEE 3rd International Symposium on Exploitation of Renewable Energy Sources (EXPRES 2011). IEEE, 2011. http://dx.doi.org/10.1109/expres.2011.5741811.

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Fares, Tarek, Abdelghani Djeddi, and Naouel Nouioua. "Solar energy in Algeria between exploitation policies and export potential." In 2019 1st International Conference on Sustainable Renewable Energy Systems and Applications (ICSRESA). IEEE, 2019. http://dx.doi.org/10.1109/icsresa49121.2019.9182306.

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Charlier, Roger H. "Ocean Economics: Mining the Sea for Energy — A Sustainable Extraction." In ASME 2005 International Solar Energy Conference. ASMEDC, 2005. http://dx.doi.org/10.1115/isec2005-76249.

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There are not many non-biological resources that can be extracted from the ocean without causing serious environmental impact and whose extraction is concomitantly sustainable. But among the few ones it is appropriate to mention ocean energy. The exploitation of these has been suggested for centuries, often decried, only exceptionally undertaken. It is perhaps opportune to reconsider them because, mega-projects set aside, they could bring an appreciable relief to the heavy burden that weighs upon isolated areas, poor countries, deprived of hydrocarbon reserves, for their energy needs.
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Ascione, Fabrizio, Nicola Bianco, Gerardo Maria Mauro, Davide Ferdinando Napolitano, and Giuseppe Peter Vanoli. "Optimization of solar energy exploitation for a neighborhood towards nearly zero energy buildings." In 2020 5th International Conference on Smart and Sustainable Technologies (SpliTech). IEEE, 2020. http://dx.doi.org/10.23919/splitech49282.2020.9243839.

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Nid, Abdelbaki, Yacine Aoun, and Bedreddine Maaoui. "The Exploitation of Solar Energy to Elaborate Zinc Oxide Thin films." In 2020 6th International Symposium on New and Renewable Energy (SIENR). IEEE, 2021. http://dx.doi.org/10.1109/sienr50924.2021.9631901.

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Vranic, Marinko Rudic. "Development of a solar collector for thermal applications." In 2011 IEEE 3rd International Symposium on Exploitation of Renewable Energy Sources (EXPRES 2011). IEEE, 2011. http://dx.doi.org/10.1109/expres.2011.5741801.

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Wu, Qian, Malin Liu, Weinong Huang, and Mianping Zheng. "Utilization of Solar Energy on Exploitation of Salt Lake Resources in Tibetan Plateau." In 2012 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC). IEEE, 2012. http://dx.doi.org/10.1109/appeec.2012.6306876.

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Kusnir, Marek. "INFLUENCE OF WEATHER CONDITIONS ON THE SOLAR ENERGY EXPLOITATION IN THE CITY OF KOSICE." In SGEM2011 11th International Multidisciplinary Scientific GeoConference and EXPO. Stef92 Technology, 2011. http://dx.doi.org/10.5593/sgem2011/s18.110.

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Reports on the topic "Solar energy exploitation"

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Ely, Roger, Catherine Page, and David Kehoe. Engineered, Solid-State Processes for Enhanced Biosolar Hydrogen Production and Exploitation of Solar Energy with Tailored Light-Harvesting Systems. Fort Belvoir, VA: Defense Technical Information Center, September 2012. http://dx.doi.org/10.21236/ada581276.

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