Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2022, Cilt: 7 Sayı: 2, 83 - 97, 29.12.2022
https://doi.org/10.58559/ijes.1147674

Öz

Kaynakça

  • [1] Mshelia RB. Assessment of renewable energy potentials of the northeast geopolitical region of Nigeria. Renewable Energy Sources, Energy Policy and Energy Management 2021; 2(2): 24–38.
  • [2] Nwosu-Obieogu K, Chiemenem L, Adekunle K. Utilization of agricultural waste for bioethanol production-a review. International Journal of Current Research and Review 2016; 8(19): 1-5.
  • [3] Yusuf AA, Inambao FL. Bioethanol production from different Matooke peels species: A surprising source for alternative fuel. Case Studies in Thermal Engineering 2019; 13: 100357.
  • [4] Reddy LV, Reddy OVS, WeeYJ. Production of ethanol from mango (Mangifera indica L.) peel by Saccharomyces cerevisiae CFTRI101. African Journal of Biotechnology 2011; 10(20): 4183–4189.
  • [5] Sarkar N, Ghosh SK, Bannerjee S, Aikat K. Bioethanol production from agricultural wastes: An overview. Renewable Energy 2012; 37(1): 19–27.
  • [6] Chaudhary A, Hussain Z, Aihetasham A, El-Sharnouby M, Rehman RA, Khan MAU, Alhazmi A. Pomegranate peels waste hydrolyzate optimization by response surface methodology for bioethanol production. Saudi Journal of Biological Sciences 2021; 28(9): 4867–4875.
  • [7] Maina M, Oluwole F, Ngala G, Abdulrahman S. Comparism of the properties and yield of bioethanol from mango and orange waste. Arid Zone Journal of Engineering, Technology and Environment 2017; 13(6): 779.
  • [8] Orozco RS, Hernández PB, Morales GR, Núñez FU, Villafuerte JO, Lugo VL, Vázquez PC. Characterization of lignocellulosic fruit waste as an alternative feedstock for bioethanol production. BioResources 2014; 9(2): 1873–1885.
  • [9] Sarao LK, Kaur S, Kaur P, Bakala HS. Production of bioethanol from fruit wastes: recent advances. Food Waste to Green Fuel: Trend & Development 2022; 213–253.
  • [10] Tahir M, Sagir M, Suleman S, Abbas N, Al-Malik A, Tanveer M, Pan X. Regional potential of pectin and bioethanol productionfrom fruit waste (peels of citrus and mango): Case study waste to product at Pakistan. Journal of the Pakistan Institute of Chemical Engineers 2017; 45(1): JPIChE-45.
  • [11] Arshad M, Zia MA, Shah FA, Ahmad M. An overview of biofuel. Perspectives on Water Usage for Biofuels Production 2018; 1–37.
  • [12] Alhassan AG, Mshelia RB, Yusuf R. Review of the use of bioethanol as alternative fuel for internal combustion engines. Acta Technica Corviniensis-Bulletin of Engineering 2021; 14(2): 139–144.
  • [13] Matharasi A, Uma C, Sivagurunathan P, Sampathkumar, P. Determination of bioethanol potential from banana waste using indigenous yeast (Saccharomyces cerevisiae. KX033583). Journal of Pharmacognosy and Phytochemistry 2018; 7(5): 2661–2669.
  • [14] Rezania S, Oryani B, Cho J, Talaiekhozani A, Sabbagh F, Hashemi B, Parveen FR, Mohammadi AA. Different pretreatment technologies of lignocellulosic biomass for bioethanol production: An overview. Energy 2020; 199: 117457.
  • [15] Ademiluyi F, Mepba H. Yield and properties of ethanol biofuel produced from different whole cassava flours. International Scholarly Research Notices, 2013.
  • [16] Obeta JC, Ossai EC, Njoku OU. Optimization and characterization of bioethanol production from Abrus seed flour. International Journal of Energy Research 2021; 45(3): 3883–3898.
  • [17] Aparicio E, Rodríguez-Jasso RM, Pinales-Márquez CD, Loredo-Treviño A, Robledo-Olivo A, Aguilar CN, Kostas ET, Ruiz HA. High-pressure technology for Sargassum spp biomass pretreatment and fractionation in the third generation of bioethanol production. Bioresource Technology 2021; 329: 124935.
  • [18] Akram F, ul Haq I, Imran W, Mukhtar H. Insight perspectives of thermostable endoglucanases for bioethanol production: A review. Renewable Energy, 2018; 122: 225–238.
  • [19] El‐Mashad HM, Zhang R. Advances in Plant‐Based Waste‐to‐Energy Conversion Technologies. Byproducts from Agriculture and Fisheries: Adding Value for Food, Feed, Pharma, and Fuels 2019; 369–402.

Production and determination of properties of ethanol from mango and orange peels

Yıl 2022, Cilt: 7 Sayı: 2, 83 - 97, 29.12.2022
https://doi.org/10.58559/ijes.1147674

Öz

The use of fossil fuels in IC engines in vehicles and industries has been identified as the leading cause of pollution, especially in urban areas where the traffic is usually heavy and industries are situated. In addition to air pollution which has its attendant health risks, the emission of greenhouse gases from the combustion of fossil fuels has been identified as one of the leading causes of climate change. The aforementioned reasons coupled with the fact that fossil fuels are exhaustible resources have necessitated the search for alternative eco-friendlier and sustainable fuels. The utilization of agricultural waste such as (mango and orange) peels to produce bioethanol proves to be a better alternative than the use of food crops. In this research, enzymatic scarification of yeast (Saccharomyces cerevisiae) was used to produce bioethanol from samples of mango and orange peels and their properties were compared with those of standard pure (98%) anhydrous ethanol. ASTM standards were used as comparative measures of the fuel properties that derived from bioethanol. It was found that the bioethanol concentration for the two samples were 19.98% for sample A and 19.17% for sample B and the results also show a good agreement as analysed by (ANOVA).

Kaynakça

  • [1] Mshelia RB. Assessment of renewable energy potentials of the northeast geopolitical region of Nigeria. Renewable Energy Sources, Energy Policy and Energy Management 2021; 2(2): 24–38.
  • [2] Nwosu-Obieogu K, Chiemenem L, Adekunle K. Utilization of agricultural waste for bioethanol production-a review. International Journal of Current Research and Review 2016; 8(19): 1-5.
  • [3] Yusuf AA, Inambao FL. Bioethanol production from different Matooke peels species: A surprising source for alternative fuel. Case Studies in Thermal Engineering 2019; 13: 100357.
  • [4] Reddy LV, Reddy OVS, WeeYJ. Production of ethanol from mango (Mangifera indica L.) peel by Saccharomyces cerevisiae CFTRI101. African Journal of Biotechnology 2011; 10(20): 4183–4189.
  • [5] Sarkar N, Ghosh SK, Bannerjee S, Aikat K. Bioethanol production from agricultural wastes: An overview. Renewable Energy 2012; 37(1): 19–27.
  • [6] Chaudhary A, Hussain Z, Aihetasham A, El-Sharnouby M, Rehman RA, Khan MAU, Alhazmi A. Pomegranate peels waste hydrolyzate optimization by response surface methodology for bioethanol production. Saudi Journal of Biological Sciences 2021; 28(9): 4867–4875.
  • [7] Maina M, Oluwole F, Ngala G, Abdulrahman S. Comparism of the properties and yield of bioethanol from mango and orange waste. Arid Zone Journal of Engineering, Technology and Environment 2017; 13(6): 779.
  • [8] Orozco RS, Hernández PB, Morales GR, Núñez FU, Villafuerte JO, Lugo VL, Vázquez PC. Characterization of lignocellulosic fruit waste as an alternative feedstock for bioethanol production. BioResources 2014; 9(2): 1873–1885.
  • [9] Sarao LK, Kaur S, Kaur P, Bakala HS. Production of bioethanol from fruit wastes: recent advances. Food Waste to Green Fuel: Trend & Development 2022; 213–253.
  • [10] Tahir M, Sagir M, Suleman S, Abbas N, Al-Malik A, Tanveer M, Pan X. Regional potential of pectin and bioethanol productionfrom fruit waste (peels of citrus and mango): Case study waste to product at Pakistan. Journal of the Pakistan Institute of Chemical Engineers 2017; 45(1): JPIChE-45.
  • [11] Arshad M, Zia MA, Shah FA, Ahmad M. An overview of biofuel. Perspectives on Water Usage for Biofuels Production 2018; 1–37.
  • [12] Alhassan AG, Mshelia RB, Yusuf R. Review of the use of bioethanol as alternative fuel for internal combustion engines. Acta Technica Corviniensis-Bulletin of Engineering 2021; 14(2): 139–144.
  • [13] Matharasi A, Uma C, Sivagurunathan P, Sampathkumar, P. Determination of bioethanol potential from banana waste using indigenous yeast (Saccharomyces cerevisiae. KX033583). Journal of Pharmacognosy and Phytochemistry 2018; 7(5): 2661–2669.
  • [14] Rezania S, Oryani B, Cho J, Talaiekhozani A, Sabbagh F, Hashemi B, Parveen FR, Mohammadi AA. Different pretreatment technologies of lignocellulosic biomass for bioethanol production: An overview. Energy 2020; 199: 117457.
  • [15] Ademiluyi F, Mepba H. Yield and properties of ethanol biofuel produced from different whole cassava flours. International Scholarly Research Notices, 2013.
  • [16] Obeta JC, Ossai EC, Njoku OU. Optimization and characterization of bioethanol production from Abrus seed flour. International Journal of Energy Research 2021; 45(3): 3883–3898.
  • [17] Aparicio E, Rodríguez-Jasso RM, Pinales-Márquez CD, Loredo-Treviño A, Robledo-Olivo A, Aguilar CN, Kostas ET, Ruiz HA. High-pressure technology for Sargassum spp biomass pretreatment and fractionation in the third generation of bioethanol production. Bioresource Technology 2021; 329: 124935.
  • [18] Akram F, ul Haq I, Imran W, Mukhtar H. Insight perspectives of thermostable endoglucanases for bioethanol production: A review. Renewable Energy, 2018; 122: 225–238.
  • [19] El‐Mashad HM, Zhang R. Advances in Plant‐Based Waste‐to‐Energy Conversion Technologies. Byproducts from Agriculture and Fisheries: Adding Value for Food, Feed, Pharma, and Fuels 2019; 369–402.
Toplam 19 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Enerji Sistemleri Mühendisliği (Diğer)
Bölüm Research Article
Yazarlar

Anas Bala Bu kişi benim

Richard Balthi Mshelia 0000-0001-6739-2270

Jamilu Ya'u Muhammad 0000-0002-7627-672X

M Adam Bu kişi benim

Yayımlanma Tarihi 29 Aralık 2022
Gönderilme Tarihi 23 Temmuz 2022
Kabul Tarihi 27 Ekim 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 7 Sayı: 2

Kaynak Göster

APA Bala, A., Mshelia, R. B., Muhammad, J. Y., Adam, M. (2022). Production and determination of properties of ethanol from mango and orange peels. International Journal of Energy Studies, 7(2), 83-97. https://doi.org/10.58559/ijes.1147674
AMA Bala A, Mshelia RB, Muhammad JY, Adam M. Production and determination of properties of ethanol from mango and orange peels. Int J Energy Studies. Aralık 2022;7(2):83-97. doi:10.58559/ijes.1147674
Chicago Bala, Anas, Richard Balthi Mshelia, Jamilu Ya’u Muhammad, ve M Adam. “Production and Determination of Properties of Ethanol from Mango and Orange Peels”. International Journal of Energy Studies 7, sy. 2 (Aralık 2022): 83-97. https://doi.org/10.58559/ijes.1147674.
EndNote Bala A, Mshelia RB, Muhammad JY, Adam M (01 Aralık 2022) Production and determination of properties of ethanol from mango and orange peels. International Journal of Energy Studies 7 2 83–97.
IEEE A. Bala, R. B. Mshelia, J. Y. Muhammad, ve M. Adam, “Production and determination of properties of ethanol from mango and orange peels”, Int J Energy Studies, c. 7, sy. 2, ss. 83–97, 2022, doi: 10.58559/ijes.1147674.
ISNAD Bala, Anas vd. “Production and Determination of Properties of Ethanol from Mango and Orange Peels”. International Journal of Energy Studies 7/2 (Aralık 2022), 83-97. https://doi.org/10.58559/ijes.1147674.
JAMA Bala A, Mshelia RB, Muhammad JY, Adam M. Production and determination of properties of ethanol from mango and orange peels. Int J Energy Studies. 2022;7:83–97.
MLA Bala, Anas vd. “Production and Determination of Properties of Ethanol from Mango and Orange Peels”. International Journal of Energy Studies, c. 7, sy. 2, 2022, ss. 83-97, doi:10.58559/ijes.1147674.
Vancouver Bala A, Mshelia RB, Muhammad JY, Adam M. Production and determination of properties of ethanol from mango and orange peels. Int J Energy Studies. 2022;7(2):83-97.