American Journal of Chemical Engineering
Volume 5, Issue 3-1, May 2017, Pages: 10-20
Received: Mar. 30, 2017;
Accepted: Mar. 31, 2017;
Published: Apr. 11, 2017
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Tubotamuno F. Harry, World Bank African Centre of Excellence for Oil Field Chemicals Research, University of Port Harcourt, Port Harcourt, Nigeria
Koyejo Oduola, Department of Chemical Engineering, University of Port Harcourt, Port Harcourt, Nigeria
Falitat T. Ademiluyi, Department of Chemical/Petrochemical Engineering, Rivers State University of Science and Technology, Port Harcourt, Nigeria
Ogbonna F. Joel, World Bank African Centre of Excellence for Oil Field Chemicals Research, University of Port Harcourt, Port Harcourt, Nigeria
Tubotamuno F. Harry,
Falitat T. Ademiluyi,
Ogbonna F. Joel,
Application of Starches from Selected Local Cassava (Manihot Exculenta Crantz) as Drilling Mud Additives, American Journal of Chemical Engineering. Special Issue: Oil Field Chemicals and Petrochemicals.
Vol. 5, No. 3-1,
2017, pp. 10-20.
J. K. Fink, Oil Field Chemicals. Gulf Professional Publishing publications (an Imprint of Elsevier). 2003, pp. 1-44.
R. C. A. M. Nascimento, D. S. Lira, L. V. Amorim, Influence of Aging of Drilling Fluids on the Risk of Differential Sticking. 21st Brazillian Congress of Mechanical Engineering Natal RN, Brazil. October, 2011.
J. BeMiller, R. Whistler, R. (2009). Starch: Chemistry and Technology, Academic Press. New York. 3rd Edition. 2009, pp. 200-350.
Z. Xiuhua and M. Xiaochun, Drilling Fluids. Available from: jpkc.cugb.edu.cn/sy/zjy/book/DRILLINGFLUIDS.pdf. 2010, pp. 8-30.
D. C. Thomas, Thermal Stability of Starch- and Carboxymethyl Cellulose-Based Polymers Used in Drilling Fluids. Society of Petroleum Engineers Journal. 1982, Pp. 171-180.
T. Ademiluyi, O. F. Joel, A. K. Amuda, Investigation of Local Polymer (Cassava Starches) as a Substitute for Imported Sample in Viscosity and Fluid Loss Control of Water Based Drilling Mud. ARPN Journal of Engineering and Applied Sciences. 6(12). 2011, 43-48.
F. F. Dias, Starch: Perspectives and Opportunities. Journal of Scientific and Industrial Research. 58. 1990, pp. 403-413.
I. Ismail, A. K. Idris, The Prospect of Utilizing Local Starches as Fluid Loss Control Agents in the Petroleum Industry. Regional Symposium on Chemical Engineering. Johor, Malaysia. October, 1997.
M. D. Amanullah, L. Yu, Superior Corn-Based Starches for Oil Field Application. CSIRO Petroleum, Australian Resources Research Centre. Available from: http://regional.org.au/au/asa/2004/poster/3/5/1010_amanullahm.htm 2004
I. Okumo, and S. O. Isehunwa, Prediction of the Viscosity of a Water-Based Mud Treated with Cassava Starch and Potash at Varying Temperatures Using Factorial Design. SPE 31st Nigerian Annual Conference and Exhibition, Abuja, Nigeria. August, 2007.
A. B. Oriji, O. F. Joel, (2012). Suitability of Beneficiated Local Starch under Elevated Temperature as a Fluid Loss Control Additive Used in Petroleum Industry. Scientia Africana. 11(1), 2012, pp. 77-83.
I. L. Egun, and A. M. Abah (2013). Comparative Performance of Cassava Starch to PAC as Fluid Loss Control Agent in Water Based Drilling Mud. Discovery. 3(9), 2013, pp. 36-39.
R. Samavati, N. Abdullah, N. K. Tahmasbi, S. A. Hussain, B. D. R. Awang, The Prospect of Utilizing a Cassava Derivative (fufu) as a Fluid Loss Control Agent in Water Based Drilling Muds. International Journal of Chemical Engineering and Applications. 5(2), 2014, pp. 161-168.
R. Samavati, N. Abdullah, N. K. Tahmasbi, S. A. Hussain, B. D. R. Awang, Rheological and Fluid Loss Properties of Water Based Drilling Mud Containing HCl-Modified Fufu as a Fluid Loss Control Agent. International Journal of Chemical Engineering and Applications. 5(6). 2014, pp. 446-450.
S. A. Akintola, S. O. Isehunwa, Temperature and Time-Dependent Behaviour of a Water Base Mud Treated with Maize (Zea mays) and Cassava (Manihot esculanta) Starches. Journal of Scientific Research and Reports. 5(7), 2015, pp. 591-597.
B. Maziya-Dixon, A. A. Adebowale, O. O. Onabanjo, A. G. O. Dixon, Effect of Variety and Drying Methods on Physico-chemical Properties of High Quality Cassava Flour from Yellow Cassava Roots. African Crop Science Conference Proceedings. 7. 2005. Pp. 635-641.
FAO, Save and Grow: Cassava. Available from: www.fao.org/publications, 2013.
IITA-International Institution of Tropical Agriculture. Nigeria Gets Improved Cassava Varieties. The Bulletin. January, 2011.
J. Eke, S. C. Achinewhu, L. Sanni, I. S. Barimalaa, B. Maziya-Dixon, A. Dixon, Seasonal Variations in Chemical and Functional Properties of Starches from Local and Improved Cassava Varieties in High Rainfall Region in Nigeria. Journal of Food, Agriculture and Environment. 5(3&4). 2007. Pp. 36-42.
M. O. Onitilo, L. O. Sanni, L. Daniel, B. Maziya-Dixon, A. Dixon, Physiochemical and Functional Properties of Native Starches from Cassava Varieties in Southwest Nigeria. Journal of Food, Agriculture and Environment. 5(3&4). 2007, pp. 108-114.
Ikegwu, O. J., Nwobasi V. N., Odoh, M. O. and Oledinma, N. U. (2009). Evaluation of the Pasting and Some Functional Properties of Starch Isolated from Some Improved Cassava Varieties in Nigeria. African Journal of Biotechnology. 8(10). 2310-2315.
O. A. Ashaye, O. L. Sanni, B. E. Arowosafe, Physicochemical, Rheological and Consumer Acceptability of Cassava Starch Salad Cream. Journal of American Science. 6(1), 2010, pp. 65-72.
R. M. Omodamiro, E. Oti, H. A. Etudaiye, C. Egesi, B. Olasanmi, U. J. Ukpabi, Production of fufu from Yellow Cassava Roots using the Odourless Flour Technique and the Traditional Method: Evaluation of Carotenoids Retention in the fufu. Advances in Applied Science Research. 3 (5), 2012, pp. 2566-2572.
L. Ajala, O. L. Otutu, A. Bamgbose, Effect of Delayed Processing on Some Physicochemical properties of cassava starch. American Journal of Food and Nutrition. 2(2).2012, pp. 31-36.
API 13A, Specification for Drilling Fluids – Specifications and Testing. API Specification 13A, 18th Edition., 2010.
O. F. Joel, Drilling Cement and Simulation Fluids. Amethyst and Colleagues Publishers, 2010 pp. 1-52, 63-108.
A. Mayyas, A. Qasaimeh, K. Alzoubi, S. Lu, M. T. Hayajneh, A. M. Hassan, Modeling the Drilling Process of Aluminum Composites Using Multiple Regression Analysis and Artificial Neural Networks. Journal of Minerals and Materials Characterization and Engineering. 11, 2012, pp. 1039-1049.
D. Afshartous, R. A. Preston, Key Results of Interaction Models with Centering. Journal of Statistics Education, 19(3), 2010, pp. 1-24.
C. Aniedu, R. M. Omodamiro, Use of Newly Bred β-Carotene Cassava in Production of Value- Added Products: Implication for Food Security in Nigeria. Global Journal of Science Frontier Research Agriculture and Veterinary Sciences. 12(10), 2012, pp. 10-16.
S. C. Ubbor, E. N. T Akobundu, G. Onwuka, Functional Properties and Cyanide Content of Starch and Flour of Selected Cassava (Manihot Esculenta Crantz) Mosaic Disease (CMD) Resistant Varieties. Journal of Raw Materials Research. 3(2), 2006, pp. 4-15.
S. J. Rao, R. Parimalavalli, Effect of Isolation Methods on Physiochemical and Functional Properties of Cassava Starch. International Journal of Advanced Research in Science and Technology. 3(2), 2014, pp.73-78.
A. M. Alsabagh, M. I. Abdou, A. A. Khalil, H. E. Ahmed, A. A. Aboulrous, Investigation of Some Locally Water-Soluble Natural Polymers as Circulation Loss Control Agents during Oil Fields Drilling. Egyptian Journal of Petroleum. 23, 2014 pp. 27-34.
A. L. Adejumo, A. F. Aderibigbe, S. K. Layokun, Cassava Starch: Production, Physicochemical Properties and Hydrolysation- A Review. Advances in Food and Energy Security. 2, 2011, pp. 8-17.
M. Omojala, Tacca Starch: A Review of Its Production, Physicochemical and Properties, Modification and Industrial Uses. African Journal of Food, Agriculture and Nutrition Development. 13(4), 2013, pp. 7972-7985.
R. Samavati, N. Abdullah, The Experimental Assessment and Study of Ubi kayu Starch as Fluid Loss Control Agent in Water Based Drilling Fluids. International Journal of Scientific Research in Chemical Engineering. 3(1), 2016, pp. 001-006.