Total and state-selective cross sections for single electron capture(SEC)from the n = 2 excited state of helium colliding by protons are calculated in the energy range of 1.0-100.0 keV/u by using the two-center atomic orbital close-coupling method.The interaction of the active electron with helium ion is represented by a model potential.Total SEC cross sections show a monotonic decreasing trend with increasing collision energy,and display a different behavior compared with the case from the ground state of helium.It is also found that the dominant reaction channel is captured to the H(2p)state up to 40 keV/u,and then the capture to the H(1s)or H(2s)state becomes more pronounced.Moreover,the alignment dependence on the initial states is obtained for the electron capture from He(2p0)and He(2p1).