The crystallization sequence during evaporation of a high concentrated brine collected from the solar evaporation ponds of Egyptian Salts and Minerals Company (EMISAL) was studied. The study included natural solar evaporation in the field at EMISAL site and also experimental isothermal evaporation at 35 degrees C in the lab. A crystallization path was simulated by the Janecke phase diagram at 35 degrees C involving the system Na+, K+, Mg2+/Cl-, and SO42-//H2O. The X-Ray Diffraction (XRD) and Scanning Electron Microscope (SEM) of the solid phases precipitated during the lab and filed works showed similar results where halite and hexahydrite were the real main solid phases precipitated from the brine. But, the crystallization sequence predicted by the Janecke diagram showed that halite, hexahydrite, kainite and kieserite solid phases should appear during evaporation of the brine. The absence of kainite and kieserite from the real precipitated solid assemblage was attributed to the metastability of kainite and the critical relative humidity conditions for kieserite. The precipitation of K-Mg salts from the studied brine was very sensitive to the climatic conditions. Economically, the present study proposed the optimum conditions at which NaCl salt and magnesium sulfate salts can be produced at high quantity and quality from EMISAL concentration ponds. (C) 2014 Elsevier B.V. All rights reserved.