Abstract
This investigation looks at the magnetohydrodynamic peristaltic flow of a viscous fluid occupying a porous space. Channel walls are compliant and the velocity, temperature and concentration slip effects are taken into account. Heat and mass transfer effects are present. Long wavelength approach is utilized in the mathematical description of arising problem. Expressions for stream function, temperature, concentration field and heat transfer coefficient are prepared. The role of key parameters is carefully analyzed. The velocity, temperature and absolute concentration distributions are found to decrease upon increasing the strength of magnetic field. This study reduces to the investigation of Kothandapani and Srinivas (Appl Math Comput 213:197-208, 2009) by neglecting the slip effects.