Energy Storage Operating System

As per the International Organization for Standardization (ISO), an energy management system encompasses the creation and execution of an energy policy, establishment of attainable energy consumption objectives, and formulation of action plans to achieve them while monitoring progress. This may entail the adoption of innovative energy-efficient technologies, reduction of energy wastage, or enhancement of existing processes to minimize energy expenses.

An energy management system (EMS) refers to a computer-assisted set of tools utilized by individuals operating electric utility grids. Its purpose is to monitor, regulate, and enhance the efficiency of either the generation or transmission system. Additionally, it can be employed in smaller systems such as microgrids.

With the decline in cost-effectiveness of proprietary systems, EMS suppliers started offering solutions that relied on industry standard hardware platforms, such as those provided by Digital Equipment (later Compaq and then HP), IBM, and Sun. During that period, the prevailing operating systems were either DEC OpenVMS or Unix. By the year 2004, different suppliers of EMS such as Alstom, ABB, and OSI had initiated the provision of solutions based on the Windows operating system. Subsequently, by 2006, customers were provided with the option of selecting systems based on UNIX, Linux, or Windows. Several suppliers, such as ETAP, NARI, PSI-CNI, and Siemens, still provide solutions based on UNIX. It has become a prevalent practice for suppliers to incorporate UNIX-based solutions on either the Sun Solaris or IBM platform. More modern EMS systems that utilize blade servers take up significantly less space compared to previous versions. As an illustration, a blade rack containing 20 servers occupies approximately the same amount of space as a single MicroVAX server did in the past.

The EMS stack comprises various components, including devices, data services, and applications, which are tailored to cater to the user's requirements. The specific composition of the stack may vary based on the implementation of the EMS.

FlexGen's Energy Management System (EMS) software gathers energy data, conducts a comparison of these metrics across different locations, and assesses their effectiveness in relation to industry benchmarks. The software is capable of connecting to the gas and electricity markets, enabling it to procure daily pricing information from key energy indices. Additionally, it aids in budget oversight and the ability to forecast energy expenses.

Regularly observe the operational capability of the system and dynamically assess the equilibrium between system generation and load forecast.

The scope of EMS encompasses the entirety of integrated building systems and sources of data. These frequently encompass utility invoices, weather information, facility-related data, advanced metering infrastructure, automation systems for buildings, utility control systems, distributed energy resources, internet-of-things devices, charging stations for electric vehicles, and geographic information systems.

Energy management systems (EMS) are a diverse and swiftly developing collection of software tools that oversee, assess, and regulate the energy consumption and performance of buildings. Every implementation of EMS consists of three key components—capabilities, extent, and arrangement. This combination comprises a collection of equipment, data services, and software applications that consolidate facility information and enhance energy efficiency within a building, campus, or organization. The fourth component, operations, encompasses the individuals, organizational procedures, and suggested activities for effectively utilizing an EMS.

The Energy Management System (EMS) starter kit offered by UNIDO offers leadership teams a comprehensive perspective on the purpose and benefits of an EMS within your organization. This kit includes valuable input from UNIDO's international specialists, along with external resources such as suggested readings, real-life examples, instructional materials, and technical guides. Access the Energy Management System starter kit provided by UNIDO via download at this location.