Comparative studies on the effect of Synthesized and the imported retarder on the Thickening time of Cement Slurry

Comparative studies on the effect of Synthesized and the imported retarder on the Thickening time of Cement Slurry

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2020 by IJETT Journal
Volume-68 Issue-2
Year of Publication : 2020
Authors : Anaele, J.V, Otaraku, I.J
DOI :  10.14445/22315381/IJETT-V68I2P204

Citation 

MLA Style: Anaele, J.V, Otaraku, I.J  "Comparative studies on the effect of Synthesized and the imported retarder on the Thickening time of Cement Slurry" International Journal of Engineering Trends and Technology 68.2 (2020):21-23.

APA Style:Anaele, J.V, Otaraku, I.J. Comparative studies on the effect of Synthesized and the imported retarder on the Thickening time of Cement Slurry  International Journal of Engineering Trends and Technology, 68(2),21-23.

Abstract
This study was carried out using API recommended practice 13B-2 in a cement laboratory, and the essence was to compare the performance of the synthesized cement retarder and the imported retarder at various concentrations of 0.01gal/sk, 0.04 gal/sk, 0.07 gal/sk and 0.10 gal/sk on the setting time of the cement slurry. The test results obtained at various concentrations showed that thickening time at 100BC was 3:06 hrs, 4:06 hrs, 5:28 hrs 8:18 hrs while the imported retarder thickening time was as follows: 4:02 hrs, 5:13hrs, 6:53 hrs, 9:20 hrs for the respective increase in concentration. The study, therefore, shows that synthesized cement retarder can compare favorably with the imported cement retarder.

Reference

[1] B, Akin S (2013) Utilization of Supplementary Cementitious Materials in Geothermal Well Cementing Proceedings. Thirty-Eighth Workshop on Geothermal Reservoir Engineering Stanford University, California.
[2] (1997) American Petroleum Institute (API) Recommended Practice 10B for Testing Well Cements. American Petroleum Institute, Washington DC, USA.
[3] Recommended Practice 13B-2, Recommended Practice Standard Procedure for Field Testing oil-Based Drilling Fluid, Third Edition February 1998.
[4] Specification 10A.(1995). Specification for Cement and Materials for Well Cementing.22nd Edition. API, Washington, D.C. (January 1995): Addendum 1, October 1999.
[5] D.G. (2006). Preface. In: Nelson, E.B. and Guillot, D. (Ed.), Well Cementing, Schlumberger, Texas, pp. 1-11.
[6] V. Ebadi. T, Rabani. A.R, Ershadi L., Soltanian H. (2011),: The Effect of Nano silica on Cement Matrix Permeability in Oil Well to Decrease the Pollution of Receptive Environment. International Journal of Environmental Science and Development, Vol. 2, No. 2, April 2011.
[7] O. F (2009) The Secondary Effects of Lignosulphonate Cement Retarder on Cement Slurry Properties. Journal of Engineering and Applied Sciences 4: 1-7.
[8] D., He ?braud P., Le ?colier E., Van Damme H.(2004) Gelation, shear-thinning and shear-thickening in cement slurries, Oil Gas Sci. Technol.59, 1, 31-40.
[9] P, Azimipour S. S, Motamedi P, Samet M, Taheri S. A. (2009): Priority Assessment of Investment in Development of Nanotechnology in Upstream Petroleum Industry.-Society of Petroleum Engineers, Saudia Arabia Section Technical Symposium, Saudi Arabia.
[10] S., Sonny Irawan S., Bambang Ari W, Jasamai M ( 2010), Conductivity Dispersion Characteristic of Oilwell Cement Slurry during Early Hydration. International Journal of Engineering & Technology IJET-IJENS Vol:10 No:06
[11] KK, Arinkoola AO, Ajagbe B, Sanni O (2013) Evaluation of Thickening Time of Oil Field Class G Cement Slurry at High Temperature and Pressure using Experimental Design International Journal of Engineering Sciences 2: 361-367.
[12] J. F. and Hansen W. 1987. Volume relationship for C-S-H formation based on hydration stoichiometry Microstructural Development during Hydration of Cement. Mater. Res. Soc. Symp. Proc. (Boston, MA, 1986) Ed L.J. Struble and P.W. Brown (Pittsburgh, PA: Materials Research Society). pp. 313322.
[13] E.B.1990. Well Cementing. Elsener, New York. pp. 9-14.
[14] P., Sun G. K. and Young J. F. 1993. The phase composition of hydrated DSP Cement Pastes. J. Am. Ceram. Soc.

Keywords
Thickening time, Synthesized, Rheology.