A study of the scale effect on the reservoir permeability and porosity over a wide range of the void structure
appears to be a significant research task. In this work, we aimed to investigate the scale effect over a wide
range of alternating reservoir properties, depending on changes in the void structure, as well as to assess the
feasibility of using a whole core with a retained drilling diameter in determining the permeability and porosity of complex reservoirs. For the first time, core samples are proposed to be selected on the basis of space
zoning, which takes into consideration the void structure and the scale effect. Filtration studies using such
samples are expected to correctly reflect the physical and hydrodynamic characteristics of the reservoir, thus
being valuable for calculating reserves and designing project documentation. Based on the performed linear
discriminant analysis, the practical problem of dividing the D3fm object of the Tedinskoye oil field by the
type of productive sediment reservoir is solved. In addition, an analysis of the results of physical and hydrodynamic studies confirmed the significance of the scale effect when studying the porosity and permeability
properties of complex reservoirs. A significant effect of the void structure on the value of residual water-oil
saturation is demonstrated. The feasibility of using whole core samples is substantiated, taking into account
the quantitative measure of the scale effect differentiated over a wide range of porosity and permeability when
determining the boundary values of porosity for carbonate deposits of the D3fm object of the Tedinskoye oil
field. The obtained results show that the calculation of geological and recoverable reserves should take into
account both the scale effect and the structural features of the void.