Geopolymer systems are quite successfully used in such operations as industrial and civil construction, production of fire-resistant concrete, isolation and disposal of radioactive waste, etc. The oil and gas industry is no exception. She became one of the most promising alternatives to Portland cement in plugging operations. They allow achieving sufficiently high performances of well construction strength, corrosion resistance, and in some compositions these parameters significantly exceed those of Portland cement.  In recent years, a significant amount of research has been carried out aimed at the development of geo polymer compositions for cementing oil and gas wells, which showed that these systems have strength characteristics comparable to Portland cement, low permeability, resistance to drilling mud and reservoir conditions, and the ability to self-repair.  However, despite all the advantages of the geopolymer systems, their most significant disadvantage is poor regulation of rheological properties. Geopolymers (GP) with low ash content do not provide the proper rheological characteristics for the use in insulation operations. Low values of pumpability of solutions are still a serious restriction for wide practical implementation. The use of geopolymer solutions with the correct selection of the compositional combination capable of demonstrating significant improvements in strength and rheological parameters as a result of mixing with anhydrous drilling fluids is a very promising solution to this problem. The paper presents the results of the research on the additives of non-aqueous fluids such as oil-based and synthetic-based drilling fluids and inverted emulsion drilling fluids on rheology of geopolymers. The obtained results allow stating that the rheological parameters of geopolymer compositions  improve  up to comparable values with  Portland  cement, which considerably extends  the range of application  of  these solutions to use in operations of primary plugging opertaions, under-pressure cementing and well  workover