Demand Manager for Energy Consumer with Local Storage and Microgeneration

Abstract The current reality of the energy market requires generation, control, distribution and consumption to become more efficient. Recent arrangements with electric energy stored in accumulators appear as strategic tools in the environment where the cost of energy supplied by the concessionaires and permission holders has accumulated successive increases, indirectly enabling the control and management of applications of micro or local minigeneration, from renewable sources in general. Systems with energy storage (e.g. batteries) and local demand management (many consumer units) achieve great efficiency by allowing the optimized consumption of the available energy, both by the local power grid and by the accumulated grid. Other advantages are presented for the distributors, allowing the relief of the electricity network, remunerating the investment in reduced intervals of time. Consideration should be given to the possibility of local autonomy, even if partially, by providing energy from the storage to the local loads in eventual failures in the supply of energy by the distribution network or at times where supply has a higher cost.

State of the Art of the Application of Energy Storage Systems in Photovoltaic Buildings

Abstract Photovoltaic (PV) buildings are increasingly present in urban centers and can generate their own energy becoming independent of the grid, depending on their consumption profile. However, most residential and commercial consumers show their peak demand at night, when there is no photovoltaic generation, needing the electricity grid to meet the demand of these facilities. Peak demand lead to increased costs for these consumers and end up disrupting the power quality of the grid. One possible solution for these listed problems is by applying storage systems to these buildings, which is already being done in some countries and can increase the PV generation. Aiming to seek the state of the art of these systems, this article brings a review of the literature, highlighting the possible modes of operation and a real case of application in PV buildings in the world. Also are described the storage technologies most appropriate for applications in these buildings, highlighting their advantages and disadvantages. It is expected to gain greater knowledge of these systems, in order to overcome the challenges of intermittence generated by renewable sources, enabling the reduction of energy demand costs in these customers so that it can also be applied in the Brazilian scenario.

Energy Management in Industry: An Enterprise Engineering Approach

ABSTRACT Companies have needs and experience new opportunities to build their structure and align organizational process to achieve energy management with higher priority facing economic and environmental issues. The objective of this paper is to present the design and modeling of the Energy Management System (EnMS) in energy-intensive industries in an enterprise engineering approach, according to the management discipline called Business Process Management (BPM). The design of the process is based on the ISO 50001 standard and in good practices cited in the scientific literature. The methodology is characterized as basic, experimental, qualitative, and oriented according to the BPM development cycle. The process design created in the "should be" format presents a framework based on the Plan, Do, Check and Act (PDCA) cycle. The process is described in a necessary and sufficient way, arranging activities, actors and roles to establish an energy management process. The key process model of the energy review was developed in the Business Process Model and Notation (BPMN). The design and modeling allows to: analyze the EnMS as a process for understanding the activities; assist decision making; automate processes; enable collaboration; allow alignment of the process with the strategy; support the change and assisting with the evaluation of the organizational potential to implement the EnMS.

Development of a Prototype for Measurement of Electrical Energy

ABSTRACT The present work presents the development of a system of measurement of electric energy consumption. This system shows the consumer the amount of energy consumed and its respective monetary value in real time. The prototype was used in a case study to validate its operation. Data were collected to discuss the results obtained. In order to verify if the results obtained in the prototype were correct, several measurements of energy consumption were made in different residential equipment. The consumption values measured by the prototype were compared with the values obtained by the certified and calibrated energy meter provided by COPEL and were satisfactory.