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Journal articles on the topic 'Non Conventional Energy'

Author: Grafiati
Published: 6 September 2023
Last updated: 7 September 2023

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1

S. C. Vetrivel, S. C. Vetrivel, and M. Mohanasundari M. Mohanasundari. "Non- Conventional Energy : Sources And Scope." Indian Journal of Applied Research 1, no. 3 (October 1, 2011): 102–4. http://dx.doi.org/10.15373/2249555x/dec2011/34.

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2

Rajbhoj, Pankaj Rajendra, Mayur Prakashchand Jain, Vaibhav Vinod Shah, and Prof Bharat R. Patil. "Non Conventional Energy." International Journal of Computer Applications 1, no. 7 (February 25, 2010): 47–54. http://dx.doi.org/10.5120/163-287.

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3

Collingridge, D. "Non-conventional energy sources." Endeavour 9, no. 3 (January 1985): 149. http://dx.doi.org/10.1016/0160-9327(85)90116-4.

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4

Gilliland, Martha W., and Bing Chen. "Non-conventional energy resources." Resources and Conservation 11, no. 3-4 (March 1985): 283–85. http://dx.doi.org/10.1016/0166-3097(85)90008-2.

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Withanaarachchi, A. S., L. D. J. F. Nanayakkara, and C. Pushpakumara. "Mitigating Climate Change via Non-Conventional Renewable Energy: Case of Sri Lanka." Journal of Clean Energy Technologies 3, no. 5 (2015): 372–77. http://dx.doi.org/10.7763/jocet.2015.v3.226.

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6

Kumar, Ashish. "Non-Conventional Energy Scenario in India." International Journal of Energy, Information and Communications 10, no. 2 (December 30, 2019): 21–30. http://dx.doi.org/10.21742/ijeic.2019.10.2.04.

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7

Bakthavatsalam, V., and D. Chakravarthy Reddy. "Non-Conventional Energy for Rural Development." SEDME (Small Enterprises Development, Management & Extension Journal): A worldwide window on MSME Studies 13, no. 1-2 (June 1986): 35–41. http://dx.doi.org/10.1177/0970846419860105.

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8

Naim, Mona M., and Mervat A. Abd El Kawi. "Non-conventional solar stills Part 2. Non-conventional solar stills with energy storage element." Desalination 153, no. 1-3 (February 2003): 71–80. http://dx.doi.org/10.1016/s0011-9164(02)01095-0.

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9

Nayyar, Zeeshan Alam, Nayyer Alam Zaigham, and Abdul Qadeer. "Assessment of present conventional and non-conventional energy scenario of Pakistan." Renewable and Sustainable Energy Reviews 31 (March 2014): 543–53. http://dx.doi.org/10.1016/j.rser.2013.12.049.

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10

Udosen, David, Kundanji Kalengo, Udochukwu B. Akuru, Olawale Popoola, and Josiah L. Munda. "Non-Conventional, Non-Permanent Magnet Wind Generator Candidates." Wind 2, no. 3 (June 24, 2022): 429–50. http://dx.doi.org/10.3390/wind2030023.

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Global industrialization, population explosion and the advent of a technology-enabled society have placed dire constraints on energy resources. Furthermore, evident climatic concerns have placed boundaries on deployable energy options, compounding an already regrettable situation. It becomes apparent for modern renewable energy technologies, including wind generators, to possess qualities of robustness, high efficiency, and cost effectiveness. To this end, direct-drive permanent magnet (PM) wind generators, which eliminate the need for gearboxes and improve wind turbine drivetrain reliability, are trending. Though rare-earth PM-based wind generators possess the highly sought qualities of high-power density and high efficiency for direct-drive wind systems, the limited supply chain and expensive pricing of the vital raw materials, as well as existent demagnetization risks, make them unsustainable. This paper is used to provide an overview on alternative and viable non-conventional wind generators based on the so-called non-PM (wound-field) stator-mounted flux modulation machines, with prospects for competing with PM machine variants currently being used in the niche direct-drive wind power generation industry.
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11

Miyan, Mohammad, and M. K. Shukla. "Review on Non-Conventional Energy Resources in India." SAMRIDDHI : A Journal of Physical Sciences, Engineering and Technology 10, no. 02 (December 25, 2018): 87–94. http://dx.doi.org/10.18090/samriddhi.v10i02.2.

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The sources of energy that are exhaustible and being made unceasingly in nature are known as nonconventional energy or renewable sources of energy. The standard sources embrace the fossil fuels i.e., coal, oil and gas, sorts of atomic energy i.e., Uranium, whereas the nonconventional sources like daylight, wind, rain, tides, and energy heat, that are renewable. Since theevent and progress of grouping are closely associated with energy sources, several countries throughout the globe have engaged themselves in looking and developing non-conventional energy sources that may be terribly essential to sustain the life cycle of person. The consumption of energy is directly proportional to the progress of the grouping. With ever growing population, improvement within the living commonplace of the mankind, industrialization of developing countries, the world demand for energy is anticipated to extend considerably within the close to future. The energy crisis that began in 1973 caused oil provides to decrease and costs to rise usuriously. This crisis forced developing countries to cut back or hold over necessary development programs, so that they may purchase oil to stay their economies operational. It created the imperative necessity to seek out and develop energy sources, like different fossil fuels i.e., coal, gas, atomic energy, and renewable energy resources. Our country, Republic of India has additionally taken sure initiatives during this read. In this paper, a review based mostly study has been given concerning numerous non-conventional energy sources and their current standing and usage in India.
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12

Zagrebnov, V. A. "Non-Conventional Dynamical Bose Condensation." Physics of Particles and Nuclei 52, no. 2 (March 2021): 202–38. http://dx.doi.org/10.1134/s106377962102009x.

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13

Flores, C. "Carbohydrate and energy-yielding metabolism in non-conventional yeasts." FEMS Microbiology Reviews 24, no. 4 (October 2000): 507–29. http://dx.doi.org/10.1016/s0168-6445(00)00037-1.

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14

Ravichandran, S., Himanshi, and R. M. Madhumitha Sri. "Sustainable development through non-conventional energy resources possibility in India." International Journal of Clinical Biochemistry and Research 8, no. 2 (July 15, 2021): 135–38. http://dx.doi.org/10.18231/j.ijcbr.2021.029.

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Energy is the major mover of sustainable and economic development. Energy is the key input to drive and improve the life cycle. Primarily it is the gift of the nature to the mankind in various forms. The consumption of energy is directly proportional to the progress of mankind. There is a very high demand for energy, which is currently satisfied mainly by coal, oil and petroleum which are from being a non – renewable and therefore non– permanent solution to the energy crisis. Thus, it is essential to tackle the energy crisis through efficient utilization of abundant renewable energy resources. Renewable energy sources have the potential to provide solutions to the long-standing energy problems being faced by human society. The renewable energy sources like wind energy, solar energy, biomass energy and tidal energy can be used to overcome energy shortage in India. To meet the energy requirement for such a fast growing economy, India will require more supply of energy than the total energy consumed today. The renewable energy is one of the options to meet this requirement. Today, renewable energy account for 33% of India’s primary energy consumptions. India is increasingly adopting responsible renewable energy techniques and taking positive steps towards ensuring a more sustainable future. This paper describes in brief the potentials of renewable energy options in India.
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15

Stavropoulos, Panagiotis, and Vasiliki Christina Panagiotopoulou. "Carbon Footprint of Manufacturing Processes: Conventional vs. Non-Conventional." Processes 10, no. 9 (September 15, 2022): 1858. http://dx.doi.org/10.3390/pr10091858.

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The calculation of carbon emissions is important to determine the carbon footprint and environmental impact of manufacturing processes to assess which steps could be further optimized and make processes greener and more sustainable. A previously published holistic approach to carbon footprint calculation was applied in conventional and laser-based material removal processes to determine which is the most carbon intensive one. The carbon footprint and environmental impact were calculated and the results show that conventional drilling was more carbon intensive than laser-based drilling, while the reverse was true for the case of laser-based grooving and conventional milling. This is because the cutting forces in conventional milling are higher than the cutting forces in conventional drilling due to increased mechanical resistance from the material in the first case. In the case of laser-based processes, the energy consumption is linked to material absorptivity which remained the same in this study. Carbon emissions on the process level were the lowest contributing factor, with the largest share being the production and rolling of steel allocated at the system level. The determination of the most carbon intensive steps and processes will allow companies to better design production lines towards carbon neutrality as dictated by the Green Deal.
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16

Trivedi, Purva. "Biomass Energy an Effective Source of Renewable Energy Worldwide." Journal of Alternative and Renewable Energy Sources 8, no. 2 (July 7, 2022): 16–21. http://dx.doi.org/10.46610/joares.2022.v08i02.003.

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Biomass is a non-conventional energy source. The research in the area of non-conventional energy sources has been increased over past years especially after the awareness about limited stock of conventional sources and the harmful impact on environment due to the burning of fossil fuels. Energy plays an important role in the social and economic growth of the nation and its citizen. The main focus of this paper is to give a review of biomass energy, its benefits and its conversion process.
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17

Sahu, Usha S. "Designing and Fabrication Non-Conventional Energy: A Review on Literature." International Journal for Research in Applied Science and Engineering Technology 10, no. 6 (June 30, 2022): 4881–85. http://dx.doi.org/10.22214/ijraset.2022.44903.

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Abstract: Energy is important to the economic process and social development of any country. Indigenous energy resources important to be developed to the optimum level so attenuate dependence on foreign fuels, subject to partitioning economic, environmental and social constraints. This is important to a lift in analysis and development likewise as investment in renewable energy business in search of how to satisfy energy demand and to cut back dependency on fossil fuels. Wind and solar power are getting standard due to abundance, handiness and simple harnessing for electric power generation. Reaching the non electrified rural population is presently unfeasible through the extension of the grid, since the affiliation is neither economically possible. Further, there will be increase in oil costs, and also the intolerable impacts of this energy supply on the users and on the surroundings, square measure slowly removing standard energy solutions, like fuel agents based mostly systems, from the agricultural development agendas, “Hybrid Power Generation” i.e. Solar and wind based energy generation. This paper presents the design of hybrid electricity generation system by utilizing both solar and wind renewable energy to the domestic household in the remote area which is unable to connect to the grid. Hybrid systems have tested to be the most effective choice to deliver, “high quality” power.
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18

Kaur, Parampreet. "Performance Evaluation of Conventional and Non-Conventional Wall Compositions in Cold Climatic Zone of India." International Journal for Research in Applied Science and Engineering Technology 10, no. 11 (November 30, 2022): 1713–17. http://dx.doi.org/10.22214/ijraset.2022.47650.

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Abstract: India is developing at a rapid pace. Energy requirement has increased many folds in recent decades and will continue in same direction. A major share of energy is used in domestic sector to maintain comfortable indoor climate for the occupants. Energy demand in a building can significantly be reduced by 1/3rd by proper planning and material use considering local climate. This paper aims to understand the fenestration design in cold climatic zone of India considering Dehradun as case study area. The main objective of this study is to understand the impact of fenestration composition on heat loss through building envelope. This paper discuses Five fenestration options in the building design against the conventional system of 220 mm thick brick wall. It has been observed that the conventional wall system discussed above doesn’t perform optimally compared to others. This paper further discusses the use of other fenestration composition which can be utilized to save heating demand to reduce energy consumption in long run.
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19

Badurek, G., C. Hartl, and E. Jericha. "A non-conventional neutron polariser concept." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 586, no. 1 (February 2008): 95–99. http://dx.doi.org/10.1016/j.nima.2007.11.051.

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20

Dixit, G., Savita Dixit, and Suchi Tiwari. "Non Conventional Fuel Resources in Rural India." Energy & Environment 17, no. 2 (March 2006): 263–73. http://dx.doi.org/10.1260/095830506777070079.

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21

Chaudhari, Tejas S., Nidhin G. Mathews, Ashwini K. Mishra, Hrushikesh P. Sahasrabuddhe, and B. Nagamani Jaya. "Energy Release Rate Formulations for Non-conventional Fracture Test Geometries." JOM 73, no. 6 (April 5, 2021): 1597–606. http://dx.doi.org/10.1007/s11837-021-04637-7.

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22

Kumar, Kaushik, Shrabanti Saha, Aniket Kumar, and Sudipta Sahana. "A Non Conventional Energy Based Mobile Charger towards Green Computing." IOSR Journal of Computer Engineering 19, no. 02 (May 2017): 58–65. http://dx.doi.org/10.9790/0661-1902055865.

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23

Gupta, N. C., V. K. Jain, and N. K. Bansal. "CO2 reduction potential through non-conventional energy sources in India." Energy 20, no. 6 (June 1995): 549–53. http://dx.doi.org/10.1016/0360-5442(94)00093-i.

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24

Veenasoni, Dr. "Non-conventional energy sources in present power sector in India." International Journal of Clinical Biology and Biochemistry 1, no. 1 (January 1, 2019): 05–07. http://dx.doi.org/10.33545/26646188.2019.v1.i1a.2.

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25

Leal, Rui M., and Ivan Galvão. "Recent Developments in Non-Conventional Welding of Materials." Materials 15, no. 1 (December 27, 2021): 171. http://dx.doi.org/10.3390/ma15010171.

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26

Golubev, Vadim A., Viktoria A. Verbnikova, Ilia A. Lopyrev, Daria D. Voznesenskaya, Rashid N. Alimov, Olga V. Novikova, and Evgenii A. Konnikov. "Energy Evolution: Forecasting the Development of Non-Conventional Renewable Energy Sources and Their Impact on the Conventional Electricity System." Sustainability 13, no. 22 (November 22, 2021): 12919. http://dx.doi.org/10.3390/su132212919.

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The development of the world’s electric power systems goes back over a century. During this period, the overwhelming majority of states have formed stable, typically centralized systems for generation, transmission, and distribution of electrical energy. At the same time, technologies, primarily for energy generation, are steadily developing, which leads to the emergence of potentially effective technological solutions based on fundamentally new energy sources. The most rapidly expanding group at the moment are renewable energy sources (RES). This fact is due to the significant coverage of the potential environmental and economic benefits of using technologies based on RES in the information environment. At the same time, the process of transformation of traditional electric power systems, by integrating generation technologies based on the use of renewable energy sources, is extremely resource-intensive, and also potentially reducing the level of sustainability and efficiency of the entire system functioning as a whole. This thesis is primarily true for exclusively centralized power systems. The purpose of this study is to create a forecasting model for the development of non-conventional renewable energy sources (NCRES) for short, medium, and long term, which makes it possible to form an action plan to ensure a reliable and uninterrupted supplying of consumers, taking into account the existing electric power system. The developed model made it possible to identify the most promising directions of NCRES from the integration point of view, and for them the quantification and clustering of the information environment was carried out, which made it possible to identify key trends and the specifics of the development of technological solutions for these directions of renewable energy sources. The developed tool and systemic conclusions formulated on the basis of its application make it possible to develop mathematically sound solutions in the direction of managing the development of traditional electric power systems based on the integration of NCRES.
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27

Pellizoni, Mariana Papa, Rafael Faccio, Cláudio Roberto Pacheco Jodas, Ricardo Grilo, Rubens Gonçalves Teixeira, and Marilia de Oliveira Coelho Dutra Leal. "Non-conventional therapies for analgesia." Research, Society and Development 10, no. 14 (November 5, 2021): e3621014221485. http://dx.doi.org/10.33448/rsd-v10i14.21485.

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Purpose: Third molar surgery is a quite common procedure. Some patients experience pain associated with this situation. The aim of this article aims to discuss non-conventional therapies for the management of postoperative pain associated with third molar surgery. Methods: An extensive literature search was conducted with the keywords “third molar” + “pain” and all articles that excluded already established drugs as analgesics, anti-inflammatories, or therapies such as laser therapy and ozone therapy whereas non-conventional drugs and therapies were retained. Results: The article rated bromelain, honey, hyaluronic acid, nicotine patches, Kinesio tape, TENS, anticonvulsants, curcumin, and melatonin. Some therapies are efficient and safe, while others have not shown promising results. Conclusions: Bromelain and Kinesio tape are considered the most effective non-conventional therapies for controlling postoperative pain, and even with few studies on them, they are therapies with promising results.
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28

Jamel, M. S., A. Abd Rahman, and A. H. Shamsuddin. "Advances in the integration of solar thermal energy with conventional and non-conventional power plants." Renewable and Sustainable Energy Reviews 20 (April 2013): 71–81. http://dx.doi.org/10.1016/j.rser.2012.10.027.

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29

Biró, T. S., G. Györgyi, A. Jakovác, and G. Purcsel. "A non-conventional description of quark matter." Journal of Physics G: Nuclear and Particle Physics 31, no. 6 (May 23, 2005): S759—S763. http://dx.doi.org/10.1088/0954-3899/31/6/016.

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30

Binétruy, Pierre, Cédric Deffayet, and David Langlois. "Non-conventional cosmology from a brane universe." Nuclear Physics B 565, no. 1-2 (January 2000): 269–87. http://dx.doi.org/10.1016/s0550-3213(99)00696-3.

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31

Li, Zhiyi, Alberto Cuoci, Amsini Sadiki, and Alessandro Parente. "Finite-rate chemistry modelling of non-conventional combustion regimes." Energy Procedia 142 (December 2017): 1570–76. http://dx.doi.org/10.1016/j.egypro.2017.12.608.

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32

Javier-Torrent, Míriam, and Carlos A. Saura. "Conventional and Non-Conventional Roles of Non-Muscle Myosin II-Actin in Neuronal Development and Degeneration." Cells 9, no. 9 (August 19, 2020): 1926. http://dx.doi.org/10.3390/cells9091926.

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Myosins are motor proteins that use chemical energy to produce mechanical forces driving actin cytoskeletal dynamics. In the brain, the conventional non-muscle myosin II (NMII) regulates actin filament cytoskeletal assembly and contractile forces during structural remodeling of axons and dendrites, contributing to morphology, polarization, and migration of neurons during brain development. NMII isoforms also participate in neurotransmission and synaptic plasticity by driving actin cytoskeletal dynamics during synaptic vesicle release and retrieval, and formation, maturation, and remodeling of dendritic spines. NMIIs are expressed differentially in cerebral non-neuronal cells, such as microglia, astrocytes, and endothelial cells, wherein they play key functions in inflammation, myelination, and repair. Besides major efforts to understand the physiological functions and regulatory mechanisms of NMIIs in the nervous system, their contributions to brain pathologies are still largely unclear. Nonetheless, genetic mutations or deregulation of NMII and its regulatory effectors are linked to autism, schizophrenia, intellectual disability, and neurodegeneration, indicating non-conventional roles of NMIIs in cellular mechanisms underlying neurodevelopmental and neurodegenerative disorders. Here, we summarize the emerging biological roles of NMIIs in the brain, and discuss how actomyosin signaling contributes to dysfunction of neurons and glial cells in the context of neurological disorders. This knowledge is relevant for a deep understanding of NMIIs on the pathogenesis and therapeutics of neuropsychiatric and neurodegenerative diseases.
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33

Khaliullin, F. Kh, K. A. Khafizov, R. A. Usenkov, and R. A. Latypov. "Advanced engines for non-conventional kinematic chains in agriculture." BIO Web of Conferences 27 (2020): 00123. http://dx.doi.org/10.1051/bioconf/20202700123.

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To intensify agricultural production in the market environment, it is necessary to reconstruct the whole economic mechanism considering energy efficiency. This calls for the search of new ideas for alternative designs and engine types that can raise the performance of heat engines to a new level while keeping their use in vehicles, machinery, and small energy facilities feasible. One of the options is the displaced shaft rotary engine. This article analyses the kinematic and dynamic metrics of the engines of this type and presents the calculations of these metrics for the prototype. Key advantages and disadvantages of this type of engine in terms of working process dynamics are set out. It is also compared to the reciprocal internal combustion engine of the same structural dimensions.
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34

Singh, Rawel, Bhavya B. Krishna, Jitendra Kumar, and Thallada Bhaskar. "Opportunities for utilization of non-conventional energy sources for biomass pretreatment." Bioresource Technology 199 (January 2016): 398–407. http://dx.doi.org/10.1016/j.biortech.2015.08.117.

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35

Flores, Carmen-Lisset, Cristina Rodríguez, Thomas Petit, and Carlos Gancedo. "Carbohydrate and energy-yielding metabolism in non-conventional yeasts: Figure 1." FEMS Microbiology Reviews 24, no. 4 (October 2000): 507–29. http://dx.doi.org/10.1111/j.1574-6976.2000.tb00553.x.

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36

Prasad, W. D., and Priyantha D. C. Wijayatunga. "Optimal Electricity Generation Expansion to Achieve Non-Conventional Renewable Energy Targets." Engineer: Journal of the Institution of Engineers, Sri Lanka 40, no. 4 (October 30, 2007): 160. http://dx.doi.org/10.4038/engineer.v40i4.7168.

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37

Rethinam, A. John, RM Krishnan, Sobha Jayakrishnan, and S. Sriveeraraghavan. "Energy Conservation in Chromium Plating through use of Non-conventional Anodes." Transactions of the IMF 77, no. 4 (January 1999): 132–34. http://dx.doi.org/10.1080/00202967.1999.11871267.

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38

Prasad, Kamta. "Non-Conventional Sources of Energy for Irrigation: How Viable are They?" Indian Economic Journal 40, no. 2 (December 1992): 1–8. http://dx.doi.org/10.1177/0019466219920201.

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39

Di Lauro, Enrico, Javier L. Lara, Maria Maza, Inigo J. Losada, Pasquale Contestabile, and Diego Vicinanza. "Stability analysis of a non-conventional breakwater for wave energy conversion." Coastal Engineering 145 (March 2019): 36–52. http://dx.doi.org/10.1016/j.coastaleng.2018.12.008.

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40

Demirbas, M. Fatih. "Producing Hydrogen from Biomass via Non-Conventional Processes." Energy Exploration & Exploitation 22, no. 4 (August 2004): 231–39. http://dx.doi.org/10.1260/0144598042886326.

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41

Sánchez, David, Benjamín Monje Brenes, José M. Muñoz de Escalona, and Ricardo Chacartegui. "Non-conventional combined cycle for intermediate temperature systems." International Journal of Energy Research 37, no. 5 (June 11, 2012): 403–11. http://dx.doi.org/10.1002/er.2945.

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42

Cardillo, Paolo, Carlo Giavarini, and Carmen Vecchi. "EVALUATION OF ASPHALT BY NON-CONVENTIONAL TECHNIQUES." Fuel Science and Technology International 5, no. 1 (January 1987): 103–18. http://dx.doi.org/10.1080/08843758708915849.

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43

Das, B., and P. S. R. Reddy. "The Utilization of Non-coking Coal by Flotation Using Non-conventional Reagents." Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 32, no. 19 (August 4, 2010): 1784–93. http://dx.doi.org/10.1080/15567030902882968.

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44

Maurya, Bajrangi, and C. K. Singh. "An Eco-Friendly Hybrid Power Generation System from Non-Conventional Energy Sources." International Journal of Advance Research and Innovation 6, no. 3 (2018): 33–38. http://dx.doi.org/10.51976/ijari.631806.

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This paper describes a new hybrid Electrical Power Generation System by integrating simultaneously Solar Energy, Rains Energy, Wind Energy and Lightning Energy as non-conventional energy sources. All the natural wastage energies are used for production of Electricity. Thus, the Electrical Power or Electricity is available with a minimum cost and pollution free to anywhere in the world at all times. This process reveals a unique step in electricity generation and availability from natural resources without hampering the ecological balance. We can have an uninterrupted power supply irrespective of the natural condition without any sort of environmental pollution. This process yields the least production cost for electricity generation. Utilization of lightning energy for generation of electricity reveals a new step. It will bring a pollution and accident free homogeneous nature to safe guard the world in a unique way.
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45

PANOSKALTSIS, VASSILIS P., and DIMITRIS SOLDATOS. "A PHENOMENOLOGICAL CONSTITUTIVE MODEL OF NON-CONVENTIONAL ELASTIC RESPONSE." International Journal of Applied Mechanics 05, no. 04 (December 2013): 1350036. http://dx.doi.org/10.1142/s1758825113500361.

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In this paper, a general model of elastic (non-dissipative) behavior is developed. This model belongs to a class of models, developed for the description of complex bodies, in which the local state is assumed to be determined not only by the deformation, but also by a family of additional material parameters. The latter, unlike some additional structures used in the mechanics of complex bodies (e.g., directors, order parameters, internal degrees of freedom), are not considered as interactions of microscopic nature; rather they are considered as variables of macroscopic nature that describe the internal structure of the material, while their rates describe the evolution of the internal structure in the course of deformation. Accordingly, these variables are assumed to evolve continuously with time in a manner that guaranties the reversibility of the applied dynamical process. A covariant theory for the continuum in question is derived by means of invariance properties of the global form of the spatial energy balance equation, under the superposition of arbitrary spatial diffeomorphisms. In particular, it is shown that the assumption of spatial covariance of the equation of balance of energy yields the standard conservation and balance laws of classical mechanics but it does not yield the standard Doyle–Ericksen formula. In fact, the "Doyle–Ericksen formula" derived in this work, has some extra terms in it, which are related directly to the internal structure of the material, as the latter is controlled by the additional parameters. In a similar manner, by assuming the absolute temperature as an additional state variable and by employing the invariance properties of the local form of the spatial balance of energy under superimposed spatial diffeomorphisms, which also include a temperature rescaling, a nonisothermal covariant constitutive theory is naturally obtained. A formal comparison of the proposed elastic material with the standard hyperelastic (Green elastic) solid is also presented.
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46

Kedar, Maheshkumar Shankar. "Non-Conventional Energy Scenario and Vision 2020 in India: Indian Energy Scenario and Vision 2020." Chanakya International Journal of Business Research 1, no. 1 (March 1, 2015): 12. http://dx.doi.org/10.15410/cijbr/2015/v1i1/61398.

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47

vi, S. De, and R. Saravan apriyan. "Energy Management System Control for a Hybrid Non-conventional Energy Sources using Hysteresis Switching Algorithm." International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering 04, no. 02 (February 20, 2015): 594–99. http://dx.doi.org/10.15662/ijareeie.2015.0402013.

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48

Pardo-Martínez, Ricardo Andrés, Jesús M. López-Lezama, and Nicolás Muñoz-Galeano. "Optimal Generation Start-Up Methodology for Power System Restoration Considering Conventional and Non-Conventional Renewable Energy Sources." Applied Sciences 11, no. 17 (September 6, 2021): 8246. http://dx.doi.org/10.3390/app11178246.

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Power system restoration must be accomplished as soon as possible after a blackout. In this process, available black-start (BS) units are used to provide cranking power to non-black-start (NBS) units so as to maximize the overall power system generation capacity. This procedure is known as the generation start-up problem, which is intrinsically combinatorial with complex non-linear constraints. This paper presents a new mixed integer linear programming (MILP) formulation for the generation start-up problem that integrates non-conventional renewable energy sources (NCRES) and battery energy storage systems (BESS). The main objective consists of determining an initial starting sequence for both BS and NBS units that would maximize the generation capacity of the system while meeting the non-served demand of the network. The nature of the proposed model leads to global optimal solutions, clearly outperforming heuristic and enumerative approaches, since the latter may take higher computational time while the former do not guarantee global optimal solutions. Several tests were carried out on the IEEE 39-bus test system considering BESS as well as wind and solar generation. The results showed the positive impact of NCRES in the restoration processes and evidenced the effectiveness and applicability of the proposed approach. It was found that including NCRES and BESS in the restoration process allows a reduction of 24.4% of the objective function compared to the classical restoration without these technologies.
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Nautiyal, Sunil, Mrinalini Goswami, S. Manasi, Prasanta Bez, K. Bhaskar, and Y. D. Imran Khan. "Potential of manure based biogas to replace conventional and non-conventional fuels in India." Management of Environmental Quality: An International Journal 26, no. 1 (January 12, 2015): 3–20. http://dx.doi.org/10.1108/meq-04-2013-0034.

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Purpose – The purpose of this paper is to examine the potential of biogas in India for energy conservation and its potential in emission reduction through proper manure management and utilizing the tappable droppings while replacing the conventional and non-conventional fuel. Design/methodology/approach – The authors have looked at the production, use and tappability of animal excreta for possible biogas generation and reduction in fuelwood consumption on one hand and emission reduction across the Indian states on the other. The average percentage of Biogas potential is created in the GIS database for analyzing the data set in the spatial domain using ArcGIS 9.2 software. Findings – The paper examines that unused manure contributes to the greenhouse gas (GHG) and has huge potential of reducing the emission through proper utilization across the Indian states. Keeping current climate change dilemma in view this could be one of the feasible options to cope with the climate change and mitigating the threats. Research limitations/implications – A comprehensive data regarding methane emission from various sources is not readily available so far. With the help of this research work the authentic data has been collected from different government departments’ data banks and past research work. However, the authors have limited to few conversion aspects in quantifying the emission factor due to complexity of the various data sets. Practical implications – Looking at the availability of usable animal excreta in different climatic regions, the attempt has been made in demarcating economically viable and technically feasible areas for biogas generation in India. An environmental and economic cost benefit analysis for adopting this renewable energy source has also been incorporated within this research. Originality/value – The paper examined the GHG contribution of unused manure and the possibility of reducing it through proper utilization. The adverse environmental consequences of the use of conventional and non-conventional cooking fuels have also been analyzed in terms of GHG emissions. The same was assessed for the whole lifecycle of liquefied petroleum gas, which is commonly assumed as a clean fuel.
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Esmaeili Shayan, Mostafa, Gholamhassan Najafi, Barat Ghobadian, Shiva Gorjian, Mohamed Mazlan, Mehdi Samami, and Alireza Shabanzadeh. "Flexible Photovoltaic System on Non-Conventional Surfaces: A Techno-Economic Analysis." Sustainability 14, no. 6 (March 18, 2022): 3566. http://dx.doi.org/10.3390/su14063566.

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Renewable energy policies emphasize both the utilization of renewable energy sources and the improvement of energy efficiency. Over the past decade, built-in photovoltaic (BIPV) technologies have mostly focused on using photovoltaic ideas and have been shown to aid buildings that partially meet their load as sustainable solar energy generating technologies. It is challenging to install conventional photovoltaic systems on curved facades. In this research, elastic solar panels assisted by flexible photovoltaic systems (FPVs) were developed, fabricated, and analyzed on a 1 m2 scale. A flexible structure on a flat, hemispherical, and cylindrical substrate was studied in real terms. Using the LabVIEW application, warm and dry climate data has been recognized and transmitted online. The results showed that when installed on the silo and biogas interfaces, the fill factor was 88% and 84%, respectively. Annual energy production on the flat surface was 810 kWh, on the cylindrical surface was 960 kWh, and on the hemisphere surface was 1000 kWh, respectively. The economic results indicate that the net present value (NPV) at a flat surface is USD 697.52, with an internal rate of return (IRR) of 34.81% and a capital return term of 8.58 years. Cylindrical surfaces and hemispheres each see an increase of USD 955.18. The investment yield returned 39.29% and 40.47% for cylindrical and hemispheres structures. A 20% increase in fixed investment in the flat system increased IRR by 21.3%, while this increase was 25.59% in the cylindrical system and 24.58% in the hemisphere. Research innovation is filling the gap on the use of flexible solar panels on curved and unconventional surfaces.
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