| At this stage, the national energy situation of China is still grim. The Chinese State Council issued the "The Twelfth Five Year Plan for energy development", in which it is proposed that, by 2015, the country’s total energy consumption should be limited in 40 million tons of coal, with an average annual growth rate of 4.3%, and the total electricity consumption should be limited in 6.15 trillion kWh, with an average annual growth rate of 8%. Energy consumption per unit of product in the key industries should be close to the level of the advanced world. In the Thirteen Five Year plan of China, the controlling of total energy consumption is likely to become the binding targets, by which the companies will strictly face the constraints of the total dual control mechanisms in the future, and it has not been work that the methods through the expansion of production capacity, or the new equipment to achieve the energy efficiency. Therefore, the only way to provide integrated solutions for mining industry with wide market prospects, to achieve emission reduction targets of the control of energy consumption, is that the scientific and technological means to achieve real-time monitoring and rational allocation of energy consumption.In this paper, the energy management system (EMS) is presented for the Mining industry enterprise, which is a low-cost energy monitoring solution based on ZigBee wireless sensor network for a mining complex enterprise application environments. ZigBee wireless networking technology has been used in the complex roadway with high reliability. The main purpose of this paper is to introduce the design and development of energy management system. In the research, the design element which can easily collect and flexible configuration options, is proposed to meet the needs of different levels of energy consumption monitoring, The method can’t only enhance the efficiency of data collection, but also be a corresponding IT resource conservation.This System development is based on the idea of OOP and UML2.0 technology.The CASE tools are employed for meeting the systematically related business requirements of gathering, analysis, and system design of the energy management process. According to the business needs, the system is functionally divided into data acquisition subsystem, and data analysis subsystem. Both of them are used C/S architecture and B/S architecture which centralized data storage mechanism. JavaEE-based system is implemented by using the well-known mature software development framework SpringMVC, the integrating ORM framework MyBatis, and the completed CURD operations of the business object. In this paper, the main achievement of the energy management system is that it has the functions of data acquisition, device management, data analysis, statistical reports and system permissions management complying with RBAC standards. After the system development, the system testing was used by industrial-grade system performance testing tool LoadRunner for the performance testing and stress testing. The results show that the system functions and performance has reached a certain level of quality, which can meet the current phase and basic control requirements of the mining industry in the energy management. Currently, the system has been successfully running on the line. The positive results has been achieved, which greatly promote the efficiency of management in energy enterprise. |
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