Energy is a very important aspect for any household, industries, agriculture and so on. Managing the energy efficiently and conserving it intelligently for appliances is very important. The energy usage is directly affected by coal, oil and power generation. Due to this, there has been lot of research work carried out in developing some smart lighting systems pertaining to classrooms for conserving energy. Researchers have developed Android based smarthome systems for monitoring the usage of power to avoid any kind of anomaly. Researchers have worked toward automating appliance control to conserve energy. Most of them concentrate on controlling the appliances using Android devices. With upcoming machine-to-machine communication where devices can be connected wirelessly leading to IoT, we have developed an IoT-based Smart Energy Management system where appliances like fans and bulbs to start with are controlled wirelessly based on humidity and light intensity information. These inputs are used for controlling appliances intelligently rather than just switching on or off. In addition, the system also keeps computing power consumption of the appliances throughout the day, which helps the user know how much power is being consumed for how long. These details are updated in the Cloud server. This prototype system developed has achieved energy conservation in every household.
Energy is one of the crucial resources for any business. Rising energy costs, increasing demand, volatile energy markets, and strict enforcement of government policies are some of the propelling factors that have led many organizations to find smart ways for monitoring, controlling, and saving energy. Monitoring energy usage across your whole organization is a daunting task and often ends up in an excess of data. In today's connected world, the energy future will be inexorably linked to Internet of Things (IoT). The need of the hour is an intelligent Energy Management System (EnMS) that can contribute to cutting the costs, improving efficiency, and meeting your energy demands.
IoT Energy Management Solution is the solution to customers’ woes and an enabler of digital transformation. Our solution can be utilized to better manage your energy consumption patterns in commercial and industrial sectors by taking complete control of your energy data at a fundamental and granular level.
"Energy savings are realized through enhanced visibility. Data visibility drives appropriate energy saving actions, thereby achieving organizational objectives."
Our intelligent energy management system is designed to optimize energy consumption thereby improving utilization, reducing costs, predicting maintenance needs, and increasing the reliability of energy assets. It meticulously acquires energy data, which can enable enterprises to illustrate dynamic performance against defined targets to identify deviations. This in turn, will ensure well managed and controlled operation to deliver the most energy and emission efficient level of productivity.
Importance of Energy Measurement for Monitoring
Measurement can range from only utility meters for small organizations up to complete monitoring and measurement systems connected to a software application capable of consolidating data and delivering automatic analysis. It is up to the organization to determine the means and methods of measurement.
Measuring energy data is a key component for implementing an energy management plan. To be done effectively, a manager needs to:
- Establish an energy data measurement system;
- Designate staff in charge of monitoring energy use;
- Ensure proper use of energy measuring instruments and ensure safety of meters; and
- Provide energy data in a complete and timely manner.
Designating staff members to implement energy measurement is important in creating an effective system. Preparing a document that details ways the company measures energy is essential.
Although measuring energy data only reflects "overall consumption" rather than energy efficiency, it is still fundamental in evaluating energy efficiency and energy-saving opportunities.
Companies should measure energy consumption by considering:
- Overall energy consumption.
- Energy consumption of power lines and departments.
- Energy consumption of office and production equipment.
Implementation of Industrial Energy Monitoring
Energy efficiency monitoring and benchmarking are important for energy management, as they enable decision makers to identify improvement opportunities and to keep track of the effects of their decisions on energy use. Monitoring and analysis of machines’ energy consumption and support and manufacturing processes is the first step toward increasing energy efficiency. Insufficient monitoring may result in companies not being aware of their potential for profitable energy investments. Moreover, monitoring of energy consumption of the enterprise supports the judgment as to whether anticipated energy savings could be achieved or not.
Monitoring also helps identify the most energy intensive processes. In this section, all aspects of energy monitoring such as data collection, analysis, presentation and measures of performance will be covered. This section also analyzes existing techniques for data collection, analysis, display and performance measures.
Collecting data with standard methods is very important. One of the recent standards for a data exchange device is ELB-REV4, which was used to monitor energy consumption. Energy consumption data can be gathered using statistical data, energy audits, energy balance sheets and questionnaires. All big industry companies and energy providers are collecting historical energy consumption for statistical data. Energy audit includes survey and analysis of energy flows for energy conservation in a building, process or system to reduce the amount of energy input into the system without negatively affecting the output(s), identifying the sources of energy use and the interactions with weather, occupancy and operating schedules. Data collection using energy balance sheets, where it shows the relevant energy input and output and break down of energy used in various processes to identify the “energy centers,” may then be analyzed for energy saving potential.
Energy Profiles Analysis
Typically, machines consist of several energy consuming components that generate a specific energy profile when producing. Analysis of energy profiles from different temporal production levels provides detailed information about energy consumption and helps to identify problems and potentials for energy efficiency improvement.
From the reviews and case study mentioned, it is proven that the energy management standard is a powerful tool to adopt and implement desired energy efficiency and energy use reduction. The energy management system should be integrated into the overall development strategy of the company development with strong commitment, as this will resolve the problems of strategic management, including strengthening the company’s market position and engaging in new strategic economic areas, growth of the enterprises’ competitiveness, the use of new energy sources, including the alternative sources of energy, the organization of new business processes, as well as the restructuring of the company in the light of the energy management systems. Government support that includes incentives in implementing the standard is essential and an important aspect in promoting and encouraging the use of energy management system standard among industries or companies.
Nick Kadanvar works at SIERRA SOFTWARE LTD, an innovation embedded systems developer with 15 years of experience in design and development of multiple embedded projects. He has also been involved in many control algorithms for robots, IoT devices and sensor network designs. He is actively involved in designing machines of various projects and has experience working with telecom, oil & gas, automotive, logistics and medical industries.