Before we get to know how to use vacuum degasser in the entire Solid control equipment, we have to understand its working conditions and operating temperature. According to the Solid control equipment experimental results, the usage and special attention points can be concluded as using single treatment agent so as to achieve optimization of the filtrate reducer as well as the oil layer protective agent. A numerical model concerning the entire Solid control equipment system has been proposed to describe the process of drying the oil shale particle with the help of different equations according to the shapes of the particle so as to achieve the objective of the developing a Solid control equipment system computer program. This program can be used to estimate how to use vacuum degasser and the moisture content of an oil shale particle and its function of time and position as long as the entire Solid control equipment system model takes into account the migration of water within the drilling solid at the interface. The entire Solid control equipment system model results will be compared to experimental data from an apparatus which measure the mass loss of a particle by the electronic balance that is attached inside an incubator. Oil shale is a sedimentary rock that contains organic matter in the entire Solid control equipment system without any doubt and it is scattered throughout a mineral matrix with special thermal properties that will convert the solid organic material of the shale into liquid fractions and residue even though its moisture might consume the available heat in the kinetics of moisture removal.
It is a truth universally acknowledged that the particles in the entire Decanter centrifuge are obtained from the feedstock that has been operating for almost fifteen years and the retorting process particles have near the same shape so as to how to use vacuum degasser and improve the thermodynamic efficiency of the overall process by preheating the shale rock in oil drilling practice. To be more specific, the aim of the entire Solid control equipment system is to develop a three dimensional model to estimate the moisture content of the solid particles and to describe the drying of these particles on the basis of such assumptions as the moisture content is uniformly distributed and the diffusion coefficient is constant as long as the environmental conditions remain the same. It has been proven that an incubator of the entire Solid control equipment system can be placed in the incubator and attached to the bottom of an electronic balance that is shielded by a metal wall to avoid the effect of air circulation.