The size-energy relationships in comminution have been the subject of much thought. One of the first theories, developed by Rittinger, postulated that the energy dissipated by the process is proportional to, the new surface area generated. By incorporating a fractal description of the surface area - a scaling law - to Rittinger's theory, it is demonstrated that a generalized size-energy relationship, consistent with Hukki's generalized form, is the result. All the parameters required by the model are measureable, including the exponents. The model finds that the 80% passing size, commonly used by size-energy models such as Bond, is inappropriate; smaller particle sizes must be used in energy-size models to properly represent the particle distribution, as required by the Mean Value Theorem. The model includes a definition of the work index and efficiency, based on physical parameters, notably the feed and product temperatures. A discussion of the theory and topics of further investigation is presented. Finally, the properties of several minerals are tabulated. (C) 2016 Elsevier B.V. All rights reserved.