PurposeThe purpose of this paper is to study an extended hierarchy of nonlinear evolution equations including the sixth-order dispersion Korteweg–de Vries (KdV6), eighth-order dispersion KdV (KdV8) and many other related equations.Design/methodology/approachThe newly developed models have been handled using the simplified Hirota’s method, whereas multiple soliton solutions are furnished using Hirota’s criteria.FindingsThe authors show that every member of this hierarchy is characterized by distinct dispersion relation and distinct resonance branches, whereas the phase shift retains the KdV type of shifts for any member.Research limitations/implicationsThis paper presents an efficient algorithm for handling a hierarchy of integrable equations of diverse orders.Practical implicationsMultisoliton solutions are derived for each member of the hierarchy, and then generalized for any higher-order model.Social implicationsThis work presents useful algorithms for finding and studying integrable equations of a hierarchy of nonlinear equations. The developed models exhibit complete integrability, by investigating the compatibility conditions for each model.Originality/valueThis paper presents an original work with a variety of useful findings.