The early events following photoexcitation of the nonplanar porphyrin 2,3,5,7,8,10,12,13,15,17,18,20-dodecaphenylporphyrin (H2DPP) have been examined using transient absorption spectroscopy. These studies were motivated by previous results indicating that photoinduced conformational changes underlie many of the perturbed photophysical properties of nonplanar porphyrins. It is shown here that H2DPP undergoes conformational/vibrational relaxation and equilibration in the (1)(pi,pi*) excited state that takes similar to 10 ps, and that this process is not observed for the nominally planar 5,10,15,20-tetraphenylporphyrin system. The relaxation dynamics in H2DPP likely involve out-of-plane deformations of the porphyrin macrocycle and motions of the peripheral phenyl rings and solvent molecules. The light-induced behavior of H2DPP can thus be described by the following sequence of events: photoexcitation produces the unrelaxed (1)(pi,pi*) excited state that evolves into the relaxed (1)(pi,pi*) excited state in similar to 10 ps, followed by decay to the (3)(pi,pi*) excited state plus the ground state in similar to 1 ns.