Abstract
Abstract The suitability of the motive force contributes to the efficient use of electrical energy. On the other hand, the inadequate size of electric motors is directly connected to increased investment and running costs. This article presents the theory and mainly the application of a methodology for the adequacy of the motive power. The research was conducted at the Federal University of Vicosa dairy factory. This methodology consists in measuring motor rotation, acquiring technical information from the manufacturer's manual, and identifying the type of motor load. In addition, it uses the linearization method to estimate the resistance torque in steady state. This step is achieved without the need for using additional equipment or sending the motor to a laboratory for measuring the torque. In this sense, the studies can be made during the production process. Thus, this relevant methodology has the advantage of allowing the studies to be carried out at the agro-industry facilities. After getting all the information described above, it was possible to determine whether each motor at the factory was oversized. Then, the suitable motor was selected according to the load type. The application of the methodology described herein could provide around 50.6% savings in the monthly electricity costs at the dairy factory, and an attractive internal return rate.
Highlights
The electricity production in Brazil in 2009 grew only 0.6 % compared to 2008, and 76.7% of that production came from hydro-power
This work was developed at the Energy Laboratories of the Agricultural Engineering Department (DEA) and the FUNARBE (Arthur Bernardes Foundation) dairy factory, both located on the Viçosa Federal University campus, Viçosa, MG, Brazil
We can observe that according to the methodology adopted, only motor 1 is well designed; that is, it is the only one with a load factor greater than 75%
Summary
The electricity production in Brazil in 2009 grew only 0.6 % compared to 2008, and 76.7% of that production came from hydro-power. Brazil is currently the third largest hydro-power producer in the world, the occurrence of blackouts is still a possibility. Delay in the investments in generation, transmission and distribution systems, especially the gap between economic growth and the demand for the expansion of the electrical system, as well as the possibility of prolonged drought may contribute to the occurrence of new blackouts. The history of delays in construction schedules of dams does not guarantee the supply after the year 2014. Many of these delays are due to environmental hindrances (Vichi and Mansor, 2009)
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