화학공학소재연구정보센터
Energy Sources Part A-recovery Utilization and Environmental Effects, Vol.40, No.19, 2367-2377, 2018
Review of energy-consumption measuring techniques for the flotation process
Energy is of great theoretical and practical importance in flotation. Some progress has been achieved in recent years. However, the study of energy consumed in the flotation process is still not fully developed. In this review, we analyse the energy generation, energy detection, and influence of the energy level on the flotation effect, which remains a popular research category in flotation energy research. A theoretical model of flotation energy transmission and transformation is proposed. The techniques for measuring energy consumption in the flotation process are systematically summarized. The flow-field simulation method is confined to two-phase flows and is not fully suitable for three-phase flows. The motor power measurement method and dissipative structure theory analysis method are used to analyse the flotation process on the macroscopic level, while the Extended Derjaguin-landau-Verwey-Overbeek(EDLVO) theory and the flow-field test method can be used to study the microprocesses of flotation. This review provides more insight into the future research of flotation energy, and optimizes the flotation process and equipment. It is necessary to further develop flotation energy measurement technology, especially for microprocesses, in order to reveal the turbulent energy transfer efficiency in the flotation process.