This article presents the outcome of experimental study of Nusselt number (Nu(rs)) and friction factors (f(rs)) in a solar air passage with multiple type V-pattern dimpled obstacles. Investigation has been performed to examine the thermal and hydraulic data from a solar air passage with multiple type V-pattern dimpled obstacles on the heated wall. The Reynolds number (Re) base on the hydraulic diameter of the solar air passage varied from 5, 000 to 17, 000, relative dimpled obstacles width (W-c/W-d) varied from 1.0 to 6.0, ratio of dimpled depth to print diameter (e(d)/d(d)) from 0.50 to 2.0, relative dimpled pitch (P-b/e(d)) from 8.0 to 11.0, relative dimpled height (e(d)/D-h) of 0.037 and the angle of attack (alpha(a)) varied from 35 degrees to 75 degrees. The optimum data of thermal and hydraulic performance obtained at W-c/W-d = 5.0, e(d)/d(b) = 1.0, P-b/e(d) = 9.0, e(d)/D-h = 0.037 and alpha(a) = 55 degrees. The current study shows that the thermal hydraulic performance of multiple type V-pattern dimpled obstacles pattern is around 7.0% higher as compared to other obstacles shapes solar air passage. Correlations of Nu(rs) as well as f(rs) are established in term of Re and geometrical parameters of multiple V-pattern dimpled obstacles solar air passage can be used to predict the values of Nu(rs) and f(rs), with considerably good accuracy. (C) 2017 Elsevier Ltd. All rights reserved.