The industrial energy diagnosis presented in this work occurred in a milk product cooperative, from an analysis of energy consumption in the main milk industrialization and a diagnosis of energy end uses of lighting and cooling systems. Almost all stages of milk industrialization are used hot water and steam generated in the boilers. The largest electricity consumption in this sector is by electric motors followed by cooling needed to maintain the quality of milk products. Because energy costs represent a significant portion of the monthly cost of the company, an analysis of the energy costs of the past two years to check the consumption of active and reactive energy and power demand contracted is performed. This paper presents the main results of an energy audit in a milk processing industry in southern Brazil.
Energy is one of the basic pillars of mankind’s evolution, being as important as water and today as well as information. At present, the economic growth of the vast majority of countries is directly proportional to the increase in energy consumption [
In the industrial context, the word “efficiency” can be defined as “producing more with less energy” [
Improvements in energy use can be obtained by means of guidelines, actions and control of human resources, with better materials and costs, reducing the amount of energy required to get the same results or products [
The work to implement measures allowing more efficient use of energy is arduous and the prior existence of public policies encouraging these actions can positively address this task, but lower costs for actions and a shorter time to return of investment always prevail as criteria for action feasibility [
A simple and straightforward way to obtain better efficiency in industrial processes is the process modeling and the subsequent optimization of production processes. Charan and Prasad [
Survey of data conducted in 2009 by the Brazilian National Confederation of Industries (CNI) enable an analysis of the potential for energy conservation as a function of the end use in various industrial sectors. The food and beverage industry has the seventh largest potential, in absolute terms, for the conservation of thermal energy and total energy consumption and the third largest potential, in absolute terms, for the conservation of electricity [
This paper discusses opportunities to use energy efficiency with energy diagnosis in a company of milk products that has two important points that should be considered. The first one is related to the administrative framework formed by employees of a public company that was privatized through the cooperative. The second point is that the profit does not belong to the company but to the State, therefore, any investment or technological change does not generate significant profitability for the cooperative.
The objective of this paper is to perform a diagnosis according to the reality of the company indicating possible changes. A data collection and analysis of energy consumption in each sector in the whole process of milk industrialization was done. An analysis on electricity bills was performed by checking the contracts with the supplier of energy. The energy consumption of active and reactive in accordance with the periods of the year and times of day and the demand of active power contracted and used was verified.
1Heating, Ventilation and Air Conditioning.
After that, the lighting systems and HVAC1 have been checked, the load installed and the main equipment used during processing. It was also evaluated the consumption of fuels for the generation of thermal energy in the boilers used in the process of pasteurization. After the survey data was determined, the potential for energy conservation for the final uses existing in the company through the identification of opportunities for deployment of measures that improve the use of energy.
An energy audit is a sequence of inspection, survey and analysis of energy flows in a process or system to reduce the amount of energy input into the system without adversely affecting the quality of the energy outputs. An energy audit is the first step in identifying opportunities to reduce energy expenditure and carbon footprints. Rather than simply identifying sources of energy use, an energy audit seeks to prioritize energy-saving opportunities in terms of cost-effectiveness.
One of the strategies of efficiency is the energetic diagnosis which consists in the data collection about the supply and the uses of energy in the production process. For the evaluation of the situation which allows the objective definition of improvement actions to be conducted [
The data feeding the energy audit process, in this case objectively, will be obtained by consulting documents, inspecting equipment and evaluating industrial processes. The electricity consumption accounts provided by the local concessionaire will allow the elaboration of a time series of energy consumption. The equipment inspection aims to determine the consumption information of each equipment used in the industrial processes and in the support sectors of the company. The evaluation of the industrial processes aims an evaluation of possible stages of the industrial processes that are demanding a consumption of energy greater than expected.
The industry has a variety of environments where can be observed the energy consumption, lighting system; HVAC; electric motors and compressors; boilers.
The industry has three lighting environments: offices (administrative), external (at night) and the lighting of the industrial area including the laboratory. Considering the three environments, there are 17.088 kW of power installed in the lighting system. The average daily consumption of 27,574 kWh 18% is used by the administrative sector, 35% used in environments of industrialization and 47% used for exterior lighting at night. Whereas twenty-two days in the administrative sector and thirty days in the industrial sector and external lighting,
there are an average consumption of 8126.28 kWh/m. Comparing this value with the sum of the monthly averages of active energy and outside edge, the sector of lighting accounts for approximately 4% of monthly consumption.
In the lighting system it is recommended to complement with fluorescent lamps on the laboratory benches to meet the minimum illuminance value indicated by the corresponding technical standard for this type of activity. In order to reduce lighting costs, it is recommended to reduce the power of the lamps in the administrative sectors, since in these places a value well above the minimum recommended by the corresponding technical standard has been verified and it is possible to have a good use of natural daylight. In outdoor lighting, it is recommended to shorten the time that the lamps remain lit at night by inserting light and motion sensors because the lamps used in this area represent 34% of the energy consumption in illumination.
The company has seven air conditioning equipments that represent a consumption of 27.26 kWh. Is there an average consumption of 6613.6 kWh/m which represents approximately 3% of monthly consumption of energy. It was verified that the refrigeration unit is regulated with temperature at 4˚C. The refrigeration unit is situated between the laboratory and the industrial sector of powdered milk without incidence of solar radiation this reduces considerably the heat load on the environment.
The total electrical load installed (610 kW) of electrical motors and compressors used in the main processes of industrialization of milk is higher than the total demand for electrical power employed by the company (550 kW), however, the electric motors do not operate in all of its power and not all equipment operate simultaneously.
In the air conditioning sector, the main recommendation for cost reduction is the replacement of window-type air conditioners for split models that are more efficient and economical. It is recommended that in the acquisition of new appliances that verify the power according to the facilities and activities, therefore, it was verified equipment with power well above the necessary for thermal comfort in the administrative premises, caused unnecessary costs in air conditioning. Although no measurements of electrical quantities were made directly on the motors, the load factor and power factor analyzed from the electric power invoices allow concluding that some modifications of operation in the motors would bring significant reduction of energy consumption. Therefore, it remains as the main recommendation to increase the energy efficiency of the industry to perform such measurements and corrections.
The industry uses two fire tube boilers with each capacity for 6000 l/h of steam. Are burned daily about 90 m3 of wood. The wood used is, generally, eucalyptus or pine trees, which are, on average, lower calorific value of 3500 kcal/kg and specific weight of 500 kg/m3 [
The tariff analysis showed that the company is correctly framed in the billing option and that the contracted power demand is in line with the needs of the industry. The analysis of the active and reactive energy consumption at the peak and off-peak times showed that it is not economically advantageous to use the generator at peak hours, as the company reduces the activities at that time.
Considering the process of milk industrialization, the largest source of energy used is of thermal origin, coming from the burning of wood in the boilers. Thus, reusing the water withdrawn in the process of manufacturing powdered milk to clean the machinery and treat it for use in the boilers represents a significant reduction of costs as well as shows the concern of the company with the environment.
For an industry of this size it is recommended the creation of an Internal Energy Conservation Commission (CICE) or some other group with specialized people whose task is to analyze the energy performance of the facility. The energy consumption data presented here may be used by the company for a complete program of rational energy use, including an economic feasibility analysis and time of investment return of the measures proposed here.
The electric bills of the company from December 2011 to November 2013, including two complete cycles of wet and dry seasons, were evaluated. This allowed an energy analysis of the consumption of electric and power demand. In July 2012, the company reduced the contracted demand of 730 kW to 550 kW and, even so it can be verified that this two-year period the company has exceeded the value contracted only on two occasions. Evaluating the seven months that the company hires 730 kW, the maximum demand was 524 kW off-peak times. After the reduction to maximum demand recorded, was 560 kW at peak times and 561 kW at off-peak times. Even so, it remained within the 10% allowed by legislation so that it will not be charged for demand for overtaking.
Even the unitary value of kW cheaper for contracts for the larger demands the reduction of demand was important and represented a savings of 11.7%, equivalent to approximately $1175.00 per month.
In the graph in
drought, which were in the region, which has done serious damage to agriculture and, consequently, the production of milk. The high consumption of July and August of 2012, in the offseason, is justified by the outsourcing of services.
0.92. This indicates that there is a concentration of power in a short period of time, however, the average of 0.51 for the off-peak times and 0.39 for the peak times, respectively, are within the typical value for this industrial activity.
This paper presented the main results of the application of a basic energy audit methodology to a dairy industry. From the visits carried out to accompany the industrialization of milk, the transformation of electric and thermal energy during the production process was studied, as well as a diagnosis of the end uses in the company, such as lighting, air conditioning and power. In general, the analysis of the data allows concluding that the company makes good use of electric energy and that has been developing actions in order to increase energy efficiency.
Based on requests made and the analysis performed in relation to the energy consumption of the main processes of industrialization of milk, a diagnosis in accordance with the energy consumption of the company in each sector was performed. There were components of the industry where the energy consumption was greater than that required for the realization which each stage of the production process of milk from this point was proposed new suggestions to be avoided this consumption in excess.
On the lighting sector, the tubular fluorescent lamps were replaced by fluorescent TL5 HO, reducing energy consumption. In the sector, air conditioning was recommended to be installed an automatic switch so the lamps were turned off automatically, so when they had people on site that would be avoided. The sector of electric motors and compressors can realize the total load installed is greater than the total demand of power employed by the company, but taking into account that the facilities are not used simultaneously. There are major concerns. The boilers had a considerable increase in the use of heat, when it was replaced coal for firewood, which was usually eucalyptus or pine wood. Therefore, from all aspects raised in the house process of industrialization, one can conclude that the company may still reduce more excessive consumption of energy.
This work was developed as a part of research activities on energy engineering at the Universidade Estadual do Rio Grande do Sul (UERGS). The authors acknowledge the support received by the institution. The fourth author acknowledges the financial support received from CNPq for his research work (proc. n. 309021/2014-6).
Gonçalves, R.G., Rossini, E.G., de Souza, J. and Beluco, A. (2018) Main Results of an Energy Audit in a Milk Processing Industry in Taquara, Southern Brazil. Journal of Power and Energy Engineering, 6, 21-32. https://doi.org/10.4236/jpee.2018.61003