Cite this paper
Li, S. , Wang, P. and Zhang, L. (2015) Daqing Oilfield Liquid Phase Underbalanced Drilling Improving Drilling Speed Evaluation Method. Journal of Minerals and Materials Characterization and Engineering
, 37-40. doi: 10.4236/jmmce.2015.31005
 Qu, Y.Z., Sun, J.S. and Su, Y.N. (2006) Rapid Advances in Drilling Fluid Technology. Journal of Drilling Fluid and Completion Fluid, 23, 68-70.
 Sugden, S. (1922) Determination of Surface Tension from the Maximum Pressure in Bubbles. Journal of the Chemical Society, 121, 858-866.
 Sun, J.S., Yang, Y.P. and An, S.M. (2009) Improve the Penetration Rate of Drilling Fluid Theory and Technology Research. Journal of Drilling Fluid and Completion Fluid, 26, 12-15.
 Li, Z.G. (2011) The Best Method of Optimization Design of Rate of Penetration. Journal of Drilling Technology, 34, 14-16.
 Fan, X.Y., et al. (2007) Based on Seismic Data of Drilling Rate Prediction Research. Journal of Daqing Petroleum Geology and Development, 26, 121-124.
 Gao, C.L. and He, Y.R. (1992) Use the Multiple Regression Analysis Method to Establish Deep Well Drilling Rate Equa- tion. Journal of Drilling Technology, 20, 30-32.
 Grocock, F.B., Sinor, L.A., et al. (1994) Innovative Additives Can Increase the Drilling Rates of Water-Based Muds. Society of Petroleum Engineers 28708.
 Li, H.Q., Gao, C.L. and Ren, Y.X. (1995) Pressure Difference on the Influence Law of Rate of Penetration. Journal of Drilling Technology, 19, 10-15.
 Lin, Y.H., Bao, Y.Y., Liang, Z., et al. (2004) Oil Drilling Mechanical Drilling Rate Prediction Research Progress. Oil Drill- ing Technology, 32, 10-13.
 William, D., Ken, D., et al. (2005) New Water-Based Mud Balances High-Performance Drilling and Environmental. Society of Petroleum Engineers 92367.