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Artykuły w czasopismach na temat „ENVIROECONOMIC ANALYSIS”

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Autor: Grafiati
Data publikacji: 16 stycznia 2024

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1

Kurtgoz, Yusuf, Emrah Deniz i Ilker Turker. "Solar radiation exergy and enviroeconomic analysis for Turkey". International Journal of Exergy 24, nr 2/3/4 (2017): 281. http://dx.doi.org/10.1504/ijex.2017.087675.

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2

Turker, Ilker, Emrah Deniz i Yusuf Kurtgoz. "Solar radiation exergy and enviroeconomic analysis for Turkey". International Journal of Exergy 24, nr 2/3/4 (2017): 281. http://dx.doi.org/10.1504/ijex.2017.10008603.

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3

Rajoria, C. S., Sanjay Agrawal i G. N. Tiwari. "Exergetic and enviroeconomic analysis of novel hybrid PVT array". Solar Energy 88 (luty 2013): 110–19. http://dx.doi.org/10.1016/j.solener.2012.11.018.

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4

Singh, Dharamveer. "Enviroeconomic and Exergoeconomic Based Analytical Study of Double Slope Solar Distiller Unit Using Al2O3 Nanoparticles". International Journal for Research in Applied Science and Engineering Technology 10, nr 6 (30.06.2022): 4475–87. http://dx.doi.org/10.22214/ijraset.2022.44980.

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Abstract: Present study represents the environeconomic and exergoeconomic analysis of a double slope solar desalination unit (DSDU) coupled with N identical compound parabolic concentrator collector (N-CPC) with helically coiled heat exchanger using Al2O3 nanoparticles. The analysis is observed for a yearly based for the atmospheric situation of New Delhi with the help of analytical program fed in MATLAB. The input data required for the mathematically calculation has been taken from Indian Metrological Department, Pune, India. The average value of annual energy output will be computed based on the energy outputs of summer and winter seasons followed by the evaluation of economic, enviroeconomic and exergoeconomic for the system and compared with previous system. Furthermore, based on annual as well as life of 15 and 20 years it is found 8.5% greater yield, annual exergy 7.31% greater, CO2 mitigation/ton energy 3.9% and 2.85% less, annual productivity 5.17% greater, and exergoeconomic parameter 4% greater respectively. It will be concluded that the proposed system is better than other system based on energy enviroeconomic and exergoeconomic parameters
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5

Gaur, Ankita, i G. N. Tiwari. "Exergoeconomic and Enviroeconomic Analysis of Photovoltaic Modules of Different Solar Cells". Journal of Solar Energy 2014 (23.04.2014): 1–8. http://dx.doi.org/10.1155/2014/719424.

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The exergoeconomic and enviroeconomic analysis of semitransparent and opaque photovoltaic (PV) modules based on different kinds of solar cells are presented. Annual electricity and net present values have also been computed for the composite climatic conditions of New Delhi, India. Irrespective of the solar cell type, the semitransparent PV modules have shown higher net energy loss rate (Len) and net exergy loss rate (Lex) compared to the opaque ones. Among all types of solar modules, the one based on c-Si, exhibited the minimum Len and Lex. Compared to the opaque ones, the semitransparent PV modules have shown higher CO2 reduction giving higher environmental cost reduction per annum and the highest environmental cost reduction per annum was found for a-Si PV module.
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6

Miskat, Monirul Islam, i Ahmad Rashedi. "Exergy Efficiency and Enviroeconomic Analysis of Solar Photovoltaic Power in Nepal". Energy Technology 9, nr 8 (9.07.2021): 2100093. http://dx.doi.org/10.1002/ente.202100093.

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7

Agrawal, Sanjay, i G. N. Tiwari. "Enviroeconomic analysis and energy matrices of glazed hybrid photovoltaic thermal module air collector". Solar Energy 92 (czerwiec 2013): 139–46. http://dx.doi.org/10.1016/j.solener.2013.02.019.

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8

Mishra, R. K., Gagan Chaudhary, Rajesh Tripathi i Rajendra Prasad. "Exergoeconomic and enviroeconomic analysis of semitransparent and opaque photovoltaic (PV) panels: a comparative study". IOP Conference Series: Materials Science and Engineering 748 (25.02.2020): 012009. http://dx.doi.org/10.1088/1757-899x/748/1/012009.

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9

Vengadesan, Elumalai, i Ramalingam Senthil. "Experimental thermal performance and enviroeconomic analysis of serpentine flow channeled flat plate solar water collector". Environmental Science and Pollution Research 29, nr 12 (18.10.2021): 17241–59. http://dx.doi.org/10.1007/s11356-021-16985-7.

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10

Singh, Devendra, i Ajay Kumar Sharma. "Energy, exergy and enviroeconomic analysis of modified multi-wick basin type inverted absorber solar still". Journal of Mechanical Science and Technology 36, nr 2 (luty 2022): 1003–13. http://dx.doi.org/10.1007/s12206-022-0146-2.

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11

Kaveh, Masoud, Ali Heydari, Nader Rahbar i Abdollah Khalesi Doust. "Water production enhancement from the air moisture using nanofluids-experimental investigation and exergo-enviroeconomic analysis". International Communications in Heat and Mass Transfer 132 (marzec 2022): 105887. http://dx.doi.org/10.1016/j.icheatmasstransfer.2022.105887.

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12

Zuhur, Sadık, i İlhan Ceylan. "Energy, Exergy and Enviroeconomic (3E) analysis of concentrated PV and thermal system in the winter application". Energy Reports 5 (listopad 2019): 262–70. http://dx.doi.org/10.1016/j.egyr.2019.02.003.

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13

Sharshir, Swellam W., Mohamed A. Farahat, Abanob Joseph, A. W. Kandeal, M. A. Rozza, Fawzy Abou-Taleb, A. E. Kabeel i Zhanhui Yuan. "Comprehensive thermo-enviroeconomic performance analysis of a preheating-assisted trapezoidal solar still provided with various additives". Desalination 548 (luty 2023): 116280. http://dx.doi.org/10.1016/j.desal.2022.116280.

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14

Sahota, Lovedeep, Shyam i G. N. Tiwari. "Energy matrices, enviroeconomic and exergoeconomic analysis of passive double slope solar still with water based nanofluids". Desalination 409 (maj 2017): 66–79. http://dx.doi.org/10.1016/j.desal.2017.01.012.

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15

Pal, Piyush, Rahul Dev, Dhananjay Singh i Amimul Ahsan. "Energy matrices, exergoeconomic and enviroeconomic analysis of modified multi–wick basin type double slope solar still". Desalination 447 (grudzień 2018): 55–73. http://dx.doi.org/10.1016/j.desal.2018.09.006.

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16

Rajoria, C. S., Sanjay Agrawal, G. N. Tiwari i G. S. Chaursia. "Exergetic and enviroeconomic analysis of semitransparent PVT array based on optimum air flow configuration and its comparative study". Solar Energy 122 (grudzień 2015): 1138–45. http://dx.doi.org/10.1016/j.solener.2015.10.020.

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17

Saadon, Syamimi, Leon Gaillard, Christophe Menezo i Stéphanie Giroux-Julien. "Exergy, exergoeconomic and enviroeconomic analysis of a building integrated semi-transparent photovoltaic/thermal (BISTPV/T) by natural ventilation". Renewable Energy 150 (maj 2020): 981–89. http://dx.doi.org/10.1016/j.renene.2019.11.122.

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18

Shoeibi, Shahin, Nader Rahbar, Ahad Abedini Esfahlani i Hadi Kargarsharifabad. "Energy matrices, exergoeconomic and enviroeconomic analysis of air-cooled and water-cooled solar still: Experimental investigation and numerical simulation". Renewable Energy 171 (czerwiec 2021): 227–44. http://dx.doi.org/10.1016/j.renene.2021.02.081.

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19

Sun, Zhilin, Wenrong Tu, Shibiao Fang i Wenjun Zhong. "Comparison between double slope solar still and fourfold slope solar still: energy, exergy, exergoeconomic, and enviroeconomic evaluation". Water Supply 22, nr 3 (9.12.2021): 2929–45. http://dx.doi.org/10.2166/ws.2021.425.

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Abstract This paper proposes a single basin fourfold slope solar still, which includes a fourfold slope glass cover plate used for solar heat collection and steam condensation. In order to show the efficiency of the fourfold slope solar still, comparative experiments are conducted under the winter climate conditions in Hangzhou for testing the operational performance of a double slope type solar still (DOSS) and the fourfold slope still (FOSS), so as to make a comparative analysis between them. Results show that the productivity of the fourfold slope still is 19.51% higher than that of the double slope still, and the fourfold slope solar still enhances the average hourly energy efficiency by 31.11%. According to the energy method, the energy payback time values of the fourfold slope solar still and double slope solar still are 64.88 months and 75.42 months respectively. According to the environmental parameter method, FOSS and DOSS reduce 5.47 tons and 4.58 tons of CO2 respectively. The corresponding values based on the exergy environment parameters are 0.21 and 0.18 tons of CO2, respectively. The fourfold slope solar still has a more obvious emission reduction function than the double slope solar still. The cost of the distilled water of the fourfold slope solar still is 0.28 RMB/kg, and the cost of the double slope solar still is 0.30 RMB/kg. In addition, the environmental and economic parameters of the fourfold slope still and double slope still are 79.29$ (561.37RMB) and 66.35$ (469.76RMB), respectively. While, the corresponding values based on the exergoenvironmental parameter are 3.05$ (21.59RMB) and 2.56$ (18.12RMB), respectively. From the analysis of exergoeconomic and exergoenvironmental parameters, the fourfold slope single basin solar still appears to be more effective.
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20

Sonawane, Chandrakant, Ali Jawad Alrubaie, Hitesh Panchal, Ali J. Chamkha, Mustafa Musa Jaber, Ankit D. Oza, Sasan Zahmatkesh, Dumitru Doru Burduhos-Nergis i Diana Petronela Burduhos-Nergis. "Investigation on the Impact of Different Absorber Materials in Solar Still Using CFD Simulation—Economic and Environmental Analysis". Water 14, nr 19 (27.09.2022): 3031. http://dx.doi.org/10.3390/w14193031.

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Solar stills are one of the low water production desalination systems, but its low yield makes it necessary to investigate different design and performance parameters to improve its productivity. This paper aims to perform a parametric analysis of a solar still desalination system and study the effect of different absorber materials on the performance of a single-slope solar desalination unit employing computational fluid dynamics (CFD) numerical simulation via COMSOL® Multiphysics software. To consider the absorptivity of water with different absorbing materials, simulation was conducted with the application of effective emissivity for the solar still walls. In addition, the economic, exergoeconomic, and CO2 mitigation of solar stills were studied. The results revealed that the hourly water output of the solar desalination unit, with different absorbing materials (black ink, black dye, and black toner), reached the maximum values at 1:00 PM. On comparing the simulation results of solar stills with and without absorbing materials, it has been observed that the solar still painted with black toner shows the highest improvement in hourly productivity, the exergy of evaporation, and evaporative heat transfer coefficient with a maximum increase in respective values by 10.52%, 13.68% and 5.37%. The CO2 mitigation and enviroeconomic parameter of the solar still using black toner were equal to 31.4 tons and 455.3 USD, respectively. Moreover, the lowest cost per liter (CPL) of the solar still was obtained using black toner, which was about 0.0066 USD/L.
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21

Singh, Gurjeet, K. Chopra, V. V. Tyagi, A. K. Pandey, Zhenjun Ma i Haoshan Ren. "A comprehensive energy, exergy and enviroeconomic (3-E) analysis with carbon mitigation for multistage evaporation assisted milk powder production unit". Sustainable Energy Technologies and Assessments 43 (luty 2021): 100925. http://dx.doi.org/10.1016/j.seta.2020.100925.

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22

Zhang, Yaxi, Na Zhu, Xudong Zhao, Zhenyu Luo, Pingfang Hu i Fei Lei. "Corrigendum to “Energy performance and enviroeconomic analysis of a novel PV-MCHP-TEG system” [Energy 274 (2023) 1–12/127342]". Energy 278 (wrzesień 2023): 127857. http://dx.doi.org/10.1016/j.energy.2023.127857.

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23

Bansal, Sarthak, i Dharamveer Singh. "A Comparative Study of Active Solo and Dual Inclined Compound Parabolic Concentrator Collector Solar Stills Based on Exergoeconomic and Enviroeconomic". International Journal for Research in Applied Science and Engineering Technology 10, nr 11 (30.11.2022): 524–44. http://dx.doi.org/10.22214/ijraset.2022.47297.

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Abstract: The Parabolic Concentrator (CPC) is a uniform photovoltaic thermal (PVT) compound linked to solar photos (N) of water collectors called PVT-CPC Active Solar Filtration System Analysis. New Delhi Analysis is done for a solar filter system for a given particle size under weather conditions. We assess efficiency, system productivity, and life cycle cost analysis. The Thermal Model Life cycle cost efficiency (LCCE), designed for LCCE analysis, is considered the only and double-doubled effective PVT-CPC system for filtering solar energy recovery time. In this work, we need to analyze the appropriate points of the collector and extract the bulk of the system. Tests were performed on dual-solar and dual-inclined PVT-CPC operating systems with a single basin size and a water depth of 0.14 m, with yield on yearly basis, factor of energy payback, and efficiency of life cycle cost conversion analysis of 5.0%, 12.63%. Moreover, 22.21% is two times higher than the solo inclined system. In addition, the water return, one PVT-CPC, and two turns have been found to have a recovery time (EPT) with an interest rate of 5%. The solar filter system is 10.89% and 17.99% higher than the solo inclined photovoltaic thermal compound parabolic concentrator activated solar filter system, respectively. The above analysis concluded, we can confirm that the two bends are better than the active PVT-CPC system for solar filtering, which is the only inclination of the depth of 0.14 m in water based on daily based analysis. If depth of water 0.14 m is more significant, for basin size provided the performance of one inline is improved and is better than curved solar-powered filtering systems. The upgraded system lasts longer and can meet potable water and DC electricity on sunny commercial days.
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24

Ustaoglu, Abid, Bilal Kursuncu, Alaattin Metin Kaya i Hakan Caliskan. "Analysis of vapor compression refrigeration cycle using advanced exergetic approach with Taguchi and ANOVA optimization and refrigerant selection with enviroeconomic concerns by TOPSIS analysis". Sustainable Energy Technologies and Assessments 52 (sierpień 2022): 102182. http://dx.doi.org/10.1016/j.seta.2022.102182.

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25

Malvika, A., U. C. Arunachala i K. Varun. "Sustainable passive cooling strategy for photovoltaic module using burlap fabric-gravity assisted flow: A comparative Energy, exergy, economic, and enviroeconomic analysis". Applied Energy 326 (listopad 2022): 120036. http://dx.doi.org/10.1016/j.apenergy.2022.120036.

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26

YILDIRIM, Ragıp, i Abdullah YILDIZ. "Energy, environmental and enviroeconomic analysis of the use R134a/R1234yf (10/90) as replace to R134a in a vapor compression cooling system". International Journal of Energy Applications and Technologies 7, nr 4 (31.12.2020): 101–6. http://dx.doi.org/10.31593/ijeat.769962.

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27

Parsa, Seyed Masoud, Amir Rahbar, Davoud Javadi Y, M. H. Koleini, Masoud Afrand i Majid Amidpour. "Energy-matrices, exergy, economic, environmental, exergoeconomic, enviroeconomic, and heat transfer (6E/HT) analysis of two passive/active solar still water desalination nearly 4000m: Altitude concept". Journal of Cleaner Production 261 (lipiec 2020): 121243. http://dx.doi.org/10.1016/j.jclepro.2020.121243.

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28

Caliskan, Hakan, Ibrahim Dincer i Arif Hepbasli. "Exergoeconomic, enviroeconomic and sustainability analyses of a novel air cooler". Energy and Buildings 55 (grudzień 2012): 747–56. http://dx.doi.org/10.1016/j.enbuild.2012.03.024.

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29

Caliskan, Hakan. "Energy, exergy, environmental, enviroeconomic, exergoenvironmental (EXEN) and exergoenviroeconomic (EXENEC) analyses of solar collectors". Renewable and Sustainable Energy Reviews 69 (marzec 2017): 488–92. http://dx.doi.org/10.1016/j.rser.2016.11.203.

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30

Sahota, Lovedeep, i G. N. Tiwari. "Exergoeconomic and enviroeconomic analyses of hybrid double slope solar still loaded with nanofluids". Energy Conversion and Management 148 (wrzesień 2017): 413–30. http://dx.doi.org/10.1016/j.enconman.2017.05.068.

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31

Singh, Desh Bandhu. "Exergoeconomic and enviroeconomic analyses of N identical photovoltaic thermal integrated double slope solar still". International Journal of Exergy 23, nr 4 (2017): 347. http://dx.doi.org/10.1504/ijex.2017.086170.

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32

Singh, Desh Bandhu. "Exergoeconomic and enviroeconomic analyses of N identical photovoltaic thermal integrated double slope solar still". International Journal of Exergy 23, nr 4 (2017): 347. http://dx.doi.org/10.1504/ijex.2017.10007373.

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33

Yücer, Cem Tahsin, i Arif Hepbasli. "Exergoeconomic and enviroeconomic analyses of a building heating system using SPECO and Lowex methods". Energy and Buildings 73 (kwiecień 2014): 1–6. http://dx.doi.org/10.1016/j.enbuild.2014.01.023.

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34

Yousef, Mohamed S., Hamdy Hassan i H. Sekiguchi. "Energy, exergy, economic and enviroeconomic (4E) analyses of solar distillation system using different absorbing materials". Applied Thermal Engineering 150 (marzec 2019): 30–41. http://dx.doi.org/10.1016/j.applthermaleng.2019.01.005.

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35

Tiwari, G. N., J. K. Yadav, D. B. Singh, I. M. Al-Helal i Ahmed Mahmod Abdel-Ghany. "Exergoeconomic and enviroeconomic analyses of partially covered photovoltaic flat plate collector active solar distillation system". Desalination 367 (lipiec 2015): 186–96. http://dx.doi.org/10.1016/j.desal.2015.04.010.

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36

Singh, Omendra Kumar. "Development of a solar cooking system suitable for indoor cooking and its exergy and enviroeconomic analyses". Solar Energy 217 (marzec 2021): 223–34. http://dx.doi.org/10.1016/j.solener.2021.02.007.

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37

Bandhu Singh, Desh, Gagan Bansal, Jeetendra Kumar Yadav, Navneet Kumar, Sumit Tiwari i Anuj Raturi. "Exergoeconomic and enviroeconomic analyses of single slope solar desalination unit loaded with/without nanofluid: A comprehensive review". IOP Conference Series: Materials Science and Engineering 748 (25.02.2020): 012031. http://dx.doi.org/10.1088/1757-899x/748/1/012031.

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38

Kanbur, Baris Burak, Liming Xiang, Swapnil Dubey, Fook Hoong Choo i Fei Duan. "Life cycle-based enviroeconomic and thermal analyses of the inlet air-cooled microturbine systems with liquefied natural gas cold energy". Journal of Cleaner Production 174 (luty 2018): 1338–50. http://dx.doi.org/10.1016/j.jclepro.2017.11.046.

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39

Akdeniz, Halil Yalcin, Ozgur Balli i Hakan Caliskan. "Energy, exergy, economic, environmental, energy based economic, exergoeconomic and enviroeconomic (7E) analyses of a jet fueled turbofan type of aircraft engine". Fuel 322 (sierpień 2022): 124165. http://dx.doi.org/10.1016/j.fuel.2022.124165.

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40

Yousef, Mohamed S., i Hamdy Hassan. "Energy payback time, exergoeconomic and enviroeconomic analyses of using thermal energy storage system with a solar desalination system: An experimental study". Journal of Cleaner Production 270 (październik 2020): 122082. http://dx.doi.org/10.1016/j.jclepro.2020.122082.

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41

Singh, D. B., i G. N. Tiwari. "Exergoeconomic, enviroeconomic and productivity analyses of basin type solar stills by incorporating N identical PVT compound parabolic concentrator collectors: A comparative study". Energy Conversion and Management 135 (marzec 2017): 129–47. http://dx.doi.org/10.1016/j.enconman.2016.12.039.

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42

Aygun, Hakan, i Hakan Caliskan. "Environmental and enviroeconomic analyses of two different turbofan engine families considering landing and take-off (LTO) cycle and global warming potential (GWP) approach". Energy Conversion and Management 248 (listopad 2021): 114797. http://dx.doi.org/10.1016/j.enconman.2021.114797.

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43

Caliskan, Hakan, i Kazutoshi Mori. "Environmental, enviroeconomic and enhanced thermodynamic analyses of a diesel engine with diesel oxidation catalyst (DOC) and diesel particulate filter (DPF) after treatment systems". Energy 128 (czerwiec 2017): 128–44. http://dx.doi.org/10.1016/j.energy.2017.04.014.

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44

Dogan, Battal, Abdulvahap Cakmak, Murat Kadir Yesilyurt i Dervis Erol. "Investigation on 1-heptanol as an oxygenated additive with diesel fuel for compression-ignition engine applications: An approach in terms of energy, exergy, exergoeconomic, enviroeconomic, and sustainability analyses". Fuel 275 (wrzesień 2020): 117973. http://dx.doi.org/10.1016/j.fuel.2020.117973.

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45

Muthu, Vimala, i Geetha Ramadas. "Performance studies of Bifacial solar photovoltaic module installed at different orientations: Energy, Exergy, Enviroeconomic, and Exergo-Enviroeconomic analysis". Environmental Science and Pollution Research, 22.03.2023. http://dx.doi.org/10.1007/s11356-023-26406-6.

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46

Susanto, Evan Eduard, Agus Saptoro, Perumal Kumar, Angnes Ngieng Tze Tiong, Aditya Putranto i Suherman Suherman. "7E + Q analysis: a new multi-dimensional assessment tool of solar dryer for food and agricultural products". Environment, Development and Sustainability, 21.05.2023. http://dx.doi.org/10.1007/s10668-023-03341-7.

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AbstractDrying process has been employed since ancient times to preserve agricultural products by reducing the moisture content. Solar dryer is one of the most commonly used dryers due to its availability, reliability, and environmentally friendly nature. It is practical in rural areas since solar dryer can be fabricated with a simple design. Despite its potential, designing a long-term, feasible solar dryer is challenging without a good understanding of its performance parameters, such as energy, exergy, economic, environmental (4E) aspect, and its impact on product quality. Therefore, many attempts have been dedicated to conducting these analyses. Nonetheless, the information obtained is only one-dimensional, and they do not reflect the actual behaviour of a solar dryer. This paper aims to provide a comprehensive and critical review of the additional 3E parameters, namely energoeconomic, exergoeconomic, and enviroeconomic. Moreover, the effect of solar drying on product quality parameters (Q) will be discussed. Furthermore, a new idea to perform energy, exergy, environmental, economic, energoeconomic, exergoeconomic, and enviroeconomic (7E) and quality analysis (7E + Q) is proposed and outlined to improve the operability of the solar dryer. It is envisaged that 7E + Q analysis will pave the way for more effective and efficient solar dryers. Graphical Abstract
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47

SİNGH, Dharamveer. "Economic, Enviroeconomic Analysis Of Active Solar Still Using Al2O3 Nanoparticles". International Journal of Thermodynamics, 6.10.2023, 1–9. http://dx.doi.org/10.5541/ijot.1295637.

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The water scarcity is primary need of analysis. The current study analyses the Economic and Enviro-economic of an N-identical (N-PVTCPC) collector double slope solar desalination units (DS-DU) with a heat exchanger (HE) using water based Al2O3 nanoparticles. An analytical program fed into MATLAB, and the analysis was monitored on an annual basis New Delhi, India. The Indian Metrological Department in Pune, India provided the input data necessary for the mathematical procedure. Considering the energy production of the winter and summer, the average yearly energy production will be calculated. The system performance has been analyzed based on Economic and Enviro-economic. In an economic analysis was performed for 15 years has found for cost of water 1.25, 1.51, and 1.79₹/kg respectively, Enviro-economic analysis for life span of 15, 20, and 30 years have found CO2 mitigation/ton 40.85, 57.46, and 90.67 kg/ton respectively and carbon credit earned 204.26, 287.30, and 453.36 ($) respectively. The proposed system has foundenergy, yield, and productivity 7.31%, 8.5%, and 5.17% greater respectively. Therefore overall the proposed system found better to previous system.
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48

Singh, Dharamveer, Satyaveer Singh, Aakersh Chauhan i Anil Kumar. "Enviroeconomic analysis of hybrid active solar desalination system using nanoparticles". Journal of Environmental Engineering and Science, 27.07.2023, 1–10. http://dx.doi.org/10.1680/jenes.23.00045.

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Water crisis is priority of this work and dire need to develop eco-friendly and self-sustainable unit. The current study analyses the economic and enviroeconomic of an N-identical (N-PVTCPC) collectors double slope solar desalination units (DS-DU) with a heat exchanger (HE) using water based Al2O3 nanoparticles. An analytical study in which a program was fed into MATLAB, and the analysis was monitored on an annual basis New Delhi India. The Indian Metrological Department in Pune, India provided the input data necessary for the mathematical procedure. From the solar energy for the year-round, yield and energy production will be calculated. The system’s economic, environmental, and energy-related performance has been assessed, and it will be compared to previous systems. Additionally, based on annual and life span for 15, 20, and 30 years, it is discovered that there is an 8.5% greater yield, 7.31% greater annual energy, 3.9% and 2.85% less CO2 mitigation/ton energy, and 5.17 % greater annual productivity, carbon credit respectively. Based on energy, environmental, and economic factors, it will be determined that the suggested system is superior to alternative systems.
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Thangaraj, Hariharasudhan, Prince Winston David, Marshal Raj i Gurukarthik Babu Balachandran. "Extensive Energy, Exergy, Economic, Exergoeconomic, Enviroeconomic, and Energy Payback Time Analysis and Investigation on Bifacial Solar Photovoltaic Module with Nonbiodegradable Waste as Reflectors". Energy Technology, 22.10.2023. http://dx.doi.org/10.1002/ente.202300829.

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The ability of bifacial photovoltaic (PV) to absorb solar radiation on either side increases the energy output. Reflectors increase the albedo and help to increase the performance. Reflectors face discoloration and degradation with time and they increase the overall implementation cost of bifacial PV systems. However, the cost of reflectors can be reduced by using nonbiodegradable waste as reflectors. They also increase the reusability of nonbiodegradable waste materials and reduce their impact on the environment and the cost of reflectors. To make a comprehensive analysis, an investigative approach of energy, exergy, economic, exergoeconomic, enviroeconomic, and energy payback time (6E) analysis is conducted for the bifacial PV module with nonbiodegradable waste, such as polyvinyl chloride (PVC) flex, polystyrene foam, and aluminum foil as reflectors in this study. The 6E analysis includes the analysis of energy, exergy, economic, exergoeconomic, enviroeconomic, and energy payback time factors. The analysis results indicate that the PVC flex as a reflector enhances the bifacial PV performance better compared to polystyrene foam and aluminum foil. The average power, average energy efficiency, and average exergy efficiency of bifacial PV with PVC flex reflector observed during the study are 224 W, 27%, and 31%, respectively. The use of nonbiodegradable waste also has a positive impact on the environment and economy.
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Zhang, Yaxi, Na Zhu, Xudong Zhao, Zhenyu Luo, Pingfang Hu i Fei Lei. "Energy Performance and Enviroeconomic Analysis of a Novel Pv-Mchp-Teg System". SSRN Electronic Journal, 2023. http://dx.doi.org/10.2139/ssrn.4376199.

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