PETRO E. MABEYO

Lecturer, Dar Es Salaam University College Of Education
Education:

Ph.D. (Oil and Natural Gas Engineering), China University of Geosciences (Wuhan)

Teaching:

  1. Organic Chemistry 1&2
  2. Industrial Chemistry
  3. Organic Spectroscopy
  4. Advanced Organic Chemistry
  5. Advances in Biofuel Production
  6. Petroleum Geochemistry
  7. Chemistry Practical 1, 2&3

Research:

My research direction is on Oil/natural gas well cement technology. Especially Nanoparticles and Pozzolanic based Oil/natural gas well cement design, analysis and characterization technology.  I’m also interested in designing salt and acid resistant cement from municipal wastes and clay minerals in addition to biofuel production, purification, and natural gas transportation technologies.

Projects:

  1. Formulation and Performance of Adsorbents from Local Materials for Onboard Storage of Natural Gas: A Key in Addressing Climate Change [PI, TZS 30 million].
  2. The potentials of Tanzania clay minerals and agro-wastes for production of engineering materials. A means to combine a challenge of climate change and material development [Co-Innovator, TZS 100 million].

Publications:

  1. Riwa, T. J., Mushi, S. J., Madirisha, M. M., Mabeyo, P. E., & Mapunda, E. C. (2024). Exploring the circular prospects of cashew nutshells and avocado seeds as potential adsorbents for onboard natural gas storage. Next Materials, 5, 100256.
  2. Kalago, F. J., Mushi, S. J., Madirisha, M. M., Mabeyo, P. E., & Mtei, R. P. (2024). Kaolin-based metal-organic frameworks for sustainable natural gas storage. Gas Science and Engineering, 122, 205200.
  3. Nyakilla, E. E., Jun, G., Kasimu, N. A., Robert, E. F., Innocent, N., Mohamedy, T., & Mabeyo, P. E. (2022). Application of machine learning in the prediction of compressive, and shear bond strengths from the experimental data in oil well cement at 80° C. Ensemble trees boosting approach. Construction and Building Materials, 317, 125778.
  4. Mabeyo, P. E. (2021). Improving oil well cement strengths through the coupling of metakaolin and nanosilica. Upstream Oil and Gas Technology, 7, 100048.
  5. Mabeyo, P. E., & Gu, J. (2021). Coupled effects of hydrophilic nano silica oxide and anatase nano titanium oxide on strengths of oilwell cement. Tanzania Journal of Science, 47(2), 568-582.
  6. Mushi, S. J., Kang, W., Yang, H., Li, Z. Ibrashev, K., Issakhov, M., and Mabeyo, P.E. 2021 Effect of aromatic acid on the rheological behaviors and microstructural mechanism of wormlike micelles in betaine surfactant, Journal of Molecular Liquids, 132:115908.
  7. Mabeyo, P.E., Abraham, Y.S., and Gu, J. 2020. Effect of high metakaolin content on compressive and shear-bond strengths of oil well cement at 80 °C, Construction and Building Materials, 240:117962.
  8. Mabeyo, P.E., Manoko M.L.K., Gruhonjic, A., Fitzpatrick, P. A., Landberg, G., Erdélyi, M., and Nyandoro, S. S. 2015 Selenium Accumulating Leafy Vegetables Are a Potential Source of Functional Foods, International Journal of Food Sciences, vol. 2015, Article ID 549676, 8   pages, 2015.