International Research Journal of Engineering Science, Technology and Innovation

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Articles published in International Research Journal of Engineering Science, Technology and Innovation have been cited by esteemed scholars and scientists all around the world. International Research Journal of Engineering Science, Technology and Innovation has got h-index 8, which means every article in International Research Journal of Engineering Science, Technology and Innovation has got 8 average citations.

Following are the list of articles that have cited the articles published in International Research Journal of Engineering Science, Technology and Innovation.

	2021	2020	2019	2018
Year wise published articles	25	10	12	0
Year wise citations received	24	37	26	18

Journal total citations count	285
Journal impact factor	2.33
Journal 5 years impact factor	4.77
Journal cite score	3.86
Journal h-index	8
Journal h-index since 2018	7

Journal Impact Factor 2020 formula
IF= Citations(y)/{Publications(y-1)+ Publications(y-2)} Y= Year
Journal 5-year Impact Factor 2020 formula
Citations(2018 + 2019 + 2020 + 2021 + 2022)/ {Published articles(2018 + 2019 + 2020 + 2021 + 2022)}
Journal citescore
Citescore_y = Citations_y + Citations_y-1 + Citations_y-2 + Citations _y-3 / Published articles_y + Published articles_y-1 + Published articles_y-2 + Published articles _y-3

Important citations (177)

Sendaaza, C. (2018). Anaerobic digestion of organic waste: A kitchen waste case study. View at Publisher View at Google Scholar
Wellington, A., Baraza, L. D., Mageto, M., & Orori, K. F. (2017). Energy Evaluation and Qualitative Analysis of Biogas Produced from Co-Digesting Kitchen Waste and Cow Dung. Physical Science International Journal, 1-13. View at Publisher View at Google Scholar
???? ??? ???? ???????. (2020). ??????? ??? ?????? ??? ??? ???? ???? ??. Thai Society of Agricultural Engineering Journal, 26(1), 7-7. View at Publisher View at Google Scholar
Bello, R. S., & Fabian, C. Development and Performance Evaluation of a Spring-Loaded Hand Operated Maize Sheller with Variable Mechanisms. View at Publisher View at Google Scholar
Ogunnigbo, O. C., Adetan, D., Morakinyo, T., Olusunmade, O., & Ojerinde, B. (2021). A study on the influence of the loading rate and orientation on some mechanical properties of cassava tubers of different ages. Research in Agricultural Engineering, 67(1), 34-44. View at Publisher View at Google Scholar
Edeh, J. C. Development and performance evaluation of an abrasive multi-roller cassava peeling machine. View at Publisher View at Google Scholar
Adegoke, A. F., Oke, M. O., Oriola, K. O., & Sanni, L. O. (2020). Design, construction, and performance evaluation of an innovative cassava peeling machine. Food Chain, 9(2), 107-131. View at Publisher View at Google Scholar
Amanor, I. N., & Bobobee, E. Y. H. (2020). Evaluation of a motorized cassava peeler with four lining materials. African Journal of Agricultural Research, 16(10), 1342-1354. View at Publisher View at Google Scholar
Tobiloba, O., Oluwaseun, K., & Leramo, R. O. (2019, December). Performance of Cassava Peeling Machines in Nigeria: a Review of Literature. In Journal of Physics: Conference Series (Vol. 1378, No. 2, p. 022084). IOP Publishing. View at Publisher View at Google Scholar
Ojolo, S. J., Orisaleye, J. I., & Badiru, N. (2016). Design and Fabrication of a Yam Peeling Machine. Journal of Engineering Research, 21(2), 50-59. View at Publisher View at Google Scholar
Edeh, J. C., Nwankwojike, B. N., & Abam, F. (2020). Design modification and comparative analysis of cassava attrition peeling machine. Agricultural Mechanization in Asia, Africa, and Latin America, 51(1), 63-69. View at Publisher View at Google Scholar
Oyedele, S. T., Ngoddy, P. O., Kilanko, O., & Leramo, R. O. (2019, December). Design and Fabrication of a Wet Mechanical Brushing Unit for Lye Pre-treated Cassava Root. In Journal of Physics: Conference Series (Vol. 1378, No. 2, p. 022083). IOP Publishing. View at Publisher View at Google Scholar
Akusu, O. M., Oyejide, J. O., & Udumebraye, J. E. (2018). Design and Construction of Dried Cassava Pellets Grinding Machine. Department of Mechanical Engineering, Petroleum Training Institute (PTI), Effurun, Nigeria (Department of Mechanical Engineering, Federal University of Petroleum Resources, Effurun, Nigeria) Volume-7, Issue-3, pp-46-55 www. ajer. org. View at Publisher View at Google Scholar
Okoronkwo, C. A., Ezurike, B. O., Adjogbe, A. S., & Oguoma, O. N. (2019). The use of locally sourced materials in the design and analysis of a portable cassava peeling machine. International Journal of Scientific and Technology Research, 8(11), 3124-3131. View at Publisher View at Google Scholar
Seth, O. (2020). A Review on the performance of some cassava peeling machines developed. North American Academic and Research Journal, 3(2), 97-162. View at Publisher View at Google Scholar
Nathan, C., & Udosen, U. J. (2017). Comparative analysis of type 1 and type 2 cassava peeling machines. Nigerian Journal of Technology, 36(2), 469-476. View at Publisher View at Google Scholar
Nathan, C., Wadai, J., & Haruna, I. U. (2017). Comparative analysis of type 3 and type 4 cassava peeling machines. Nigerian Journal of Technology, 36(4), 1088-1094. View at Publisher View at Google Scholar
Astanakulov, K. D., Fozilov, G. G., Kodirov, B. K., Khudaev, I., Shermukhamedov, K., & Umarova, F. (2020, December). Theoretical and experimental results of determination of the peeler-bar parameters of corn-thresher. In IOP Conference Series: Earth and Environmental Science (Vol. 614, No. 1, p. 012130). IOP Publishing. View at Publisher View at Google Scholar
Ajibola, W. A., & Babarinde, F. (2016). Design and fabrication of a cassava peeling machine. International Journal of Engineering Trends and Technology (IJETT), 42(2), 60-64. View at Publisher View at Google Scholar
Barati, Z., Latif, S., Romuli, S., & Müller, J. (2020). Enzyme-Assisted mechanical peeling of cassava tubers. Catalysts, 10(1), 66. View at Publisher View at Google Scholar
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International Research Journal of Engineering Science, Technology and Innovation

Important citations (177)

Sendaaza, C. (2018). Anaerobic digestion of organic waste: A kitchen waste case study.

Wellington, A., Baraza, L. D., Mageto, M., & Orori, K. F. (2017). Energy Evaluation and Qualitative Analysis of Biogas Produced from Co-Digesting Kitchen Waste and Cow Dung. Physical Science International Journal, 1-13.

???? ??? ???? ???????. (2020). ??????? ??? ?????? ??? ??? ???? ???? ??. Thai Society of Agricultural Engineering Journal, 26(1), 7-7.

Bello, R. S., & Fabian, C. Development and Performance Evaluation of a Spring-Loaded Hand Operated Maize Sheller with Variable Mechanisms.

Ogunnigbo, O. C., Adetan, D., Morakinyo, T., Olusunmade, O., & Ojerinde, B. (2021). A study on the influence of the loading rate and orientation on some mechanical properties of cassava tubers of different ages. Research in Agricultural Engineering, 67(1), 34-44.

Edeh, J. C. Development and performance evaluation of an abrasive multi-roller cassava peeling machine.

Adegoke, A. F., Oke, M. O., Oriola, K. O., & Sanni, L. O. (2020). Design, construction, and performance evaluation of an innovative cassava peeling machine. Food Chain, 9(2), 107-131.

Amanor, I. N., & Bobobee, E. Y. H. (2020). Evaluation of a motorized cassava peeler with four lining materials. African Journal of Agricultural Research, 16(10), 1342-1354.

Tobiloba, O., Oluwaseun, K., & Leramo, R. O. (2019, December). Performance of Cassava Peeling Machines in Nigeria: a Review of Literature. In Journal of Physics: Conference Series (Vol. 1378, No. 2, p. 022084). IOP Publishing.

Ojolo, S. J., Orisaleye, J. I., & Badiru, N. (2016). Design and Fabrication of a Yam Peeling Machine. Journal of Engineering Research, 21(2), 50-59.

Edeh, J. C., Nwankwojike, B. N., & Abam, F. (2020). Design modification and comparative analysis of cassava attrition peeling machine. Agricultural Mechanization in Asia, Africa, and Latin America, 51(1), 63-69.

Oyedele, S. T., Ngoddy, P. O., Kilanko, O., & Leramo, R. O. (2019, December). Design and Fabrication of a Wet Mechanical Brushing Unit for Lye Pre-treated Cassava Root. In Journal of Physics: Conference Series (Vol. 1378, No. 2, p. 022083). IOP Publishing.

Okoronkwo, C. A., Ezurike, B. O., Adjogbe, A. S., & Oguoma, O. N. (2019). The use of locally sourced materials in the design and analysis of a portable cassava peeling machine. International Journal of Scientific and Technology Research, 8(11), 3124-3131.

Seth, O. (2020). A Review on the performance of some cassava peeling machines developed. North American Academic and Research Journal, 3(2), 97-162.

Nathan, C., & Udosen, U. J. (2017). Comparative analysis of type 1 and type 2 cassava peeling machines. Nigerian Journal of Technology, 36(2), 469-476.

Nathan, C., Wadai, J., & Haruna, I. U. (2017). Comparative analysis of type 3 and type 4 cassava peeling machines. Nigerian Journal of Technology, 36(4), 1088-1094.

Ajibola, W. A., & Babarinde, F. (2016). Design and fabrication of a cassava peeling machine. International Journal of Engineering Trends and Technology (IJETT), 42(2), 60-64.

Barati, Z., Latif, S., Romuli, S., & Müller, J. (2020). Enzyme-Assisted mechanical peeling of cassava tubers. Catalysts, 10(1), 66.