For implementation of huge structures, in addition to the various issues that arise in their calculations and design, manufacturing technology is also an important issue that can have a huge impact on design. Reinforced concrete structures are not excluded from this issue. During years’ different new methods have been developed in order to simplify shuttering: one of these methods is the use of Slip form, which are more commonly used for tall structures implementation. The sliding formwork technology has been used for more than half a century, but this technology has been designed in order to run concrete shells and walls such as silos, airport towers, chimneys, cooling towers, power plant and holes in elevators and in this field is the most practical method. The cost of this framework is more expensive, and the implementation of openings, bumps, and expansion joints is more difficult than classical methods, and in general it requires more power and need more consideration. In this way, construction speed of the structures is very high and it is very economical for buildings more than 20 meters. The implemented structure is completely integrated and free of horizontal and vertical joints and in case of precision in execution, the concrete view will be quite good and acceptable. According to the results of this paper, the use of new and special methods in accordance with the specific project conditions and available resources can lead to significant savings in cost, time, execution quality, pay back investment, saving on materials consumption, reduction of manpower, adaptability Eco-friendly, more stability and durability, integrated structure, high flexibility and employee safety. Therefore, in similar projects can create value engineering by examining the conditions and analyzing the cost and time of new and innovative execution methods. In this research, a case study of silos construction (referring to a simulation model for silo execution by slip form), a component of the slip form, and a table and comparative graphs of how to implement all kinds of silos 1, 3, 4, 6, and 9 of the hive have been analyzed and investigated. The result Years of activity and field training in projects for the construction of silos and cooling towers of power plants in the country using a slip form, which is the achievement of this treatise.
