Estimations of friction factor (F_f) in pipeline systems and fluid transport are essential ingredients in engineering fields and processes. In this paper explicit friction factor formulae (F_ff) were proposed and evaluated with an aim of developing error free F_ff. General F_ff that relate F_f, Reynolds number (R_e) and relative roughness (R_r) were proposed. Colebrook – White’s formula was used to compute different F_f for R_e between 4 x 10³ and 1.704 x 10⁸, and R_r between 1.0 x 10-7 and 0.052 using Microsoft Excel Solver to fix the F_ff. The fixed F_ff were used to compute F_f for R_e between 4 x 10³ and 1.704 x 10⁸ and R_r between 1.0 x 10^-7 and 0.052. Accuracy of the fixed F_ff was evaluated using relative error; model of selection (MSC) and Akaike Information Criterion (AIC) and compared with the previous F_ff using Colebrook–White’s F_f as the reference. The study revealed that F_f estimated using the fixed F_ff were the same as F_f estimated using Colebrook – White’s F_ff. The fixed F_ff provided the lowest relative error of (0.02 %; 0.06 % and 0.04 % ), the highest MSC (14.03; 12.42 and 13.07); and the lowest AIC (-73006; -64580 and -67982). The study concluded that modeling of F_ff using numerical methods and Microsoft Excel Solver are better tools for estimating F_f in pipeline flow problems.

Keywords: Friction factor, MSC; AIC; Reynolds number; Engineering Field; pipe flow, statistical methods