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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.

  2021 2020 2019 2018

Total published articles

 25 10 12 0

Conference proceedings

 0 0 0 0

Citations received as per Google Scholar, other indexing platforms and portals

 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 2019 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
Citescorey = Citationsy + Citationsy-1 + Citationsy-2 + Citations y-3 / Published articlesy + Published articlesy-1 + Published articlesy-2 + Published articles y-3
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Important citations (177)
Alhassan, E. A., Ijabo, O. J., & Afolabi, E. O. (2018). Development of cassava peeling machine using an abrasive mechanism. Journal of Production Engineering, 21(1), 61-66.
Jaimes, L. E. G. (2021). Diseño de un controlador lineal cuadrático Gaussiano y un controlador autosintonizado por asignación de polos para el control del voltaje de un generador DC. Ingeniería, 26(1).
García Jaimes, L. E., & Piedrahíta Flórez, D. (2021). Design of a Linear Quadratic Gaussian Controller and a Self-Tuning Regulator Based on Pole Placement to Control the Voltage of a DC Generator. Ingeniería, 26(1), 25-40.
García Jaimes, L. E., & Piedrahita Flórez, D. (2021). Design of a linear quadratic Gaussian controller and a Self-Tuning Regulator for pole placement to control the voltage of a DC generator. Ingeniería (0121-750X), 26(1).
Okoronkwo, C. A., Okwu, M. O., Ononogbo, C., & Ezurike, B. O. (2018). The Effect of Different Soil Feed Stock for the Development of a Soil Based Microbial Fuel Cell. American Journal of Earth Science and Engineering, 1(2), 129-136.
ANAKWENZE, V., EKWEALOR, C., & EKWEALOR, I. (2021). ANAEROBIC DIGESTION OF FOOD AND ANIMAL WASTE FOR THE BIOGAS PRODUCTION. Journal of Basic and Applied Research International, 17-23.
Chaitanya, P. S., Siva, T. V. S., & Simhadri, K. (2019). Production and Purification of Biogas From Biodegradable Waste. In Mechanical Engineering for Sustainable Development (pp. 381-395). Apple Academic Press.
Dinneya-Onuoha, E., Oyoh, K. B., & Ike, I. S. A Model on the Effect of Temperature, Ph and Retention Time on the Co-Digestion of Cassava Peels and Cow-Dung. Ph and Retention Time on the Co-Digestion of Cassava Peels and Cow-Dung.
Ben, O. M., Ahmad, Y. B., Bukar, A. A., & Tela, B. M. (2017). Design and Testing of an Optimized Anaerobic Digestion System. Science and Education, 5(1), 26-31.
Samuel, O., Michael, O., Raphael, O., & Joseph, O. (2016). Co-digestion of Livestock Wastes for Biogas Production.
Olugbenga, O. O. Development of a Batch-type Biogas Digester using a Combination of Cow Dung, Swine Dung and Poultry Dropping.
Vermaa, K. K., Chourasiab, P. B. L., & Chhipac, R. C. STUDY OF BIO GAS PRODUCTION FROM WASTES â??COW DUNG & POULTRY WASTEâ?.
Opurum, C. C., Nwachukwu, I. N., Christopher, E., & Nwaneri, C. B. (2021). Predicting the rate of biogas production from the anaerobic digestion of blends of cassava (Manihot esculenta) peels with poultry manure.
Tamoor, M., ZakaUllah, P., & Zaka, M. A. A. (2021). Predict the Rate of Production of Biogas from the Anaerobic Digestion of Blends of Cassava Peels with Poultry Manure.
Opurum, C. C., Nweke, C. O., Nwanyanwu, C. E., & Nwogu, N. A. (2021). Modelling of Biphasic Biogas Production Process from Mixtures of Livestock Manure Using Bi-logistic Function and Modified Gompertz Equation. Annual Research & Review in Biology, 116-129.
Andati, W., Baraza, D. L., & Mageto, M. (2019). Biogas Production from Biomass Kitchen Waste Laced with Cow Dung in a Modified Laboratory-Scale Anaerobic Digester. East African Journal of Health and Science, 1(2), 53-61.
Jordan, R. A., Martins, V. P., dos Santos Almeida, A. C., de Oliveira, F. C., Quequeto, W. D., Siqueira, V. C., ... & Santos, R. C. (2020). Potencial de produção de biogás de resíduos provenientes da criação de tilápia em sistema aquapônico. Research, Society and Development, 9(9), e155997131-e155997131.
Olanrewaju, O. O., & Olubanjo, O. O. (2019). Development of a batch-type biogas digester using a combination of cow dung, swine dung and poultry dropping. International Journal of Clean Coal and Energy, 8(2), 15-31.
Ibrahim, M. D., Ahmed, S. I., Musa, M. A., Isah, Y. M., & Garba, I. (2016). Proximate and Ultimate Analyses of Some Selected Lignocellulosic Materials. In Proceedings of the 6th Annual Conference of the Renewable and Alternative Energy Society of Nigeria (pp. 1-8).
Santhosh, P., & Revathi, D. (2014). Synthesis of biogas as a renewable energy from organic waste mixture by anaerobic fermentation. Journal of Chemical, Biological and Physical Sciences (JCBPS), 4(2), 1601.