Enterprise energy management

Enterprise energy management

EEEMS main aspects

EnergiSpeak’s Enterprise Energy Management Systems (EEEMS)

EnergiSpeak’s Enterprise Energy Management Systems (EEEMS) are software and hardware solutions designed to help organizations monitor, control, and optimize their energy consumption and efficiency. These systems help immensively large enterprises with complex energy needs, as they provide a centralized platform for managing and analyzing energy data.

The main aspects of EnergiSpeak’s Enterprise Energy Management Systems (EEEMS):

1. Monitoring and Data Collection:
   • It collect data from various sources, such as utility meters, sensors, and building management systems, to track energy consumption in real-time.
   • EnergiSpeak’s advanced metering infrastructure (AMI) and smart meters to capture detailed information about energy usage at different levels of an organization.
2. Data Analysis and Reporting:
   • EnergiSpeak’s EEEMS analyze the collected data to identify patterns, trends, and anomalies in energy consumption.
   • Its customizable reports and dashboards provide insights into energy usage; help organizations make informed decisions about energy efficiency measures.
3. Energy Efficiency and Optimization:
   • It helps organizations identify opportunities for improving energy efficiency and reducing consumption.
   • It has features such as demand response, load forecasting, and predictive analytics to optimize energy usage and reduce costs.
4. Integration with Building Management Systems (BMS) and IoT:
   • Integration with BMS and Internet of Things (IoT) devices allows EEEMS to control and monitor various energy-consuming assets within a facility, such as HVAC systems, lighting, and equipment.
5. Carbon Emission Tracking and Sustainability Reporting:
   • It includes tools for tracking and reporting on carbon emissions, helping organizations monitor their environmental impact and comply with regulatory requirements.
6. Compliance and Regulatory Reporting:
   • EnergiSpeak’s EEEMS assist organizations in adhering to energy-related regulations and standards by providing the necessary data and reports.
7. Cost Management:
   • By monitoring energy consumption and identifying areas of inefficiency, EEEMS contribute to cost reduction strategies for organizations.
8. User Engagement:
   • EEEMS include features that promote awareness and engagement among employees, encouraging them to adopt energy-efficient behaviors.
9. Scalability and Customization:
   • EEEMS are designed to be scalable to accommodate the diverse needs of large enterprises. They often offer customization options to adapt to specific industry requirements.
10. Security and Data Privacy:
    • Due to the sensitive nature of energy data, EEEMS prioritize security measures to protect against unauthorized access and ensure data privacy.

Implementing EnergiSpeak’s Enterprise Energy Management System can lead to significant cost savings, improved sustainability, and enhanced overall operational efficiency for large organizations.

EnergiSpeak EEMS Operational Features

EnergiSpeak has developed its EEMS as a comprehensive Enterprise Energy Management System (EEEMS) that aligns with the goals of enhanced energy efficiency programs.

Its Operational features include:

1. Detailed Energy Analytics:
   • EnergiSpeak's solution includes detailed energy analytics, allowing organizations to analyze energy consumption patterns comprehensively. This is crucial for identifying opportunities for improvement and optimizing energy usage.
2. Operational Maintenance:
   • EEEMS addresses the need for timely operational maintenance by providing insights into energy data on a day-to-day basis. This proactive approach helps prevent issues and ensures the smooth operation of energy-related assets.
3. Performance Against PAT Scheme:
   • EnergiSpeak’s EEMS solution is designed to meet the requirements of the Perform, Achieve, and Trade (PAT) scheme, indicating a focus on regulatory compliance and adherence to energy efficiency standards set by authorities.
4. Timely Information Delivery:
   • EnergiSpeak's system ensures that the right information is delivered to the right person at the right time. This is achieved through various means such as reports, alerts, and data signatures, enhancing decision-making capabilities within the organization.
5. Real-Time Data Presentation:
   • EnergiSpeak’s EEMS solution targets near real-time presentation of meter data, refreshing at a rate of 5 seconds per meter. This real-time capability is valuable for organizations seeking immediate insights into their energy consumption, allowing for quick responses and interventions.
6. Data Granularity:
   • EEEMS aimed at Gathering meter data at a 5-second refresh time which indicates a high level of data granularity. This fine-grained data can provide a more accurate and detailed picture of energy usage patterns, enabling organizations to pinpoint areas for improvement with precision.
7. User-Friendly Information Presentation:
   • EEEMS offer information in the form of reports, alerts, and data signatures, the system aims to present data in a user-friendly manner, making it accessible and actionable for stakeholders.
8. Comprehensive Monitoring:
   • EnergiSpeak’s EEMS solution's capability to present information in near real-time suggests that it provides continuous and comprehensive monitoring of energy-related metrics, supporting organizations in maintaining optimal performance.

EnergiSpeak's solution is a robust and proactive EEEMS that aligns with industry best practices for energy efficiency and management. It addresses key aspects such as analytics, maintenance, compliance, and real-time monitoring, which are essential for organizations looking to optimize their energy usage effectively.

EnergiSpeak’s EEMS design aspects

EnergiSpeak has adopted a nuanced and adaptive approach to energy performance management, recognizing the limitations of a one-size-fits-all strategy.

Some of key design aspects are:

1. Multi-Faceted Nature of Energy Performance:
   • EnergiSpeak acknowledges that energy performance is multi-faceted and cannot be accurately represented by a single Energy Performance Indicator (EnPI). This aligns with the understanding that different organizations may have diverse energy needs and complexities.
2. "Fit for Purpose" Approach:
   • EnergiSpeak employs a "Fit for Purpose" approach, indicating a tailored strategy that evaluates various EnPIs. This approach considers the complexity spectrum, ensuring that the chosen indicators are relevant and effective in addressing the specific energy management needs of each organization.
3. Comprehensive Evaluation of EnPIs:
   • The software suite developed by EnergiSpeak evaluates various EnPIs, encompassing different angles of complexity. This comprehensive evaluation is crucial for providing a holistic view of energy performance and identifying meaningful measures for improvement.
4. Meaningful and Simple EnPIs:
   • EnergiSpeak emphasizes the importance of expressing energy performance in meaningful, simple-to-understand EnPIs. This approach is aimed at ensuring that energy-related information is accessible and actionable for various levels of management and staff within an organization.
5. Organization-Specific EnPIs:
   • The EEEMS solution's approach aligns with the idea that different organizational levels have specific responsibilities and spheres of control. By using a set of EnPIs tailored to each level, the system provides relevant information for effective management and improvement of energy performance.
6. Separation of Equipment Performance and Operational Effectiveness:
   • EnergiSpeak's system enables the separation of equipment and system performance from the operational effectiveness of the staff. This distinction allows organizations to pinpoint areas for improvement and allocate resources effectively.
7. Quantitative Relationship with Relevant Variables:
   • EnergiSpeak’s EnPIs are based on a quantitative relationship between energy consumption and relevant variables. This approach ensures that the indicators chosen are directly linked to factors influencing energy performance, such as production volumes or weather conditions.
8. Recognition of Varied Reliance on EnPIs:
   • The acknowledgment that even large and complex industrial plants may rely on relatively simple EnPIs highlights the practical understanding that organizations, regardless of size or complexity, may find value in EnergiSpeak’s EEMS straightforward formulations for energy performance measurement.

EnergiSpeak's EEEMS design aspects prioritize flexibility, relevance, and simplicity in energy performance management, acknowledging the diverse needs and complexities that organizations face in managing their energy consumption effectively.

EnergiSpeak’s EEMS operational Methodology

The methodology outlined by EnergiSpeak for configuring its software suite reflects a comprehensive approach to energy management.

Here are key components of the methodology:

1. Executive Management Level Involvement:
   • The EnergiSpeak’s methodology emphasizes the importance of adopting an energy policy at the executive management level. This top-down approach ensures that energy management becomes a strategic priority for the organization.
2. Cross-Divisional Management Team Reporting:
   • The creation of a cross-divisional management team reporting system promotes collaboration and communication across different divisions of the organization. This ensures that energy management is integrated into various aspects of the business.
3. Energy Planning and Review:
   • Our methodology includes undertaking an energy planning process that involves an energy review. This step is crucial for understanding the current state of energy usage within the organization and identifying areas for improvement.
4. Baseline Establishment:
   • We create a baseline of the organization's energy use serves as a reference point for measuring progress. This baseline provides a starting point for evaluating the effectiveness of energy management initiatives.
5. Tracking Performance Indicators:
   • After the above, Tracking energy performance indicators against the established baseline allows for the measurement of progress over time. This is essential for monitoring the impact of energy efficiency measures and identifying areas that need attention.
6. Development of Objectives and Targets:
   • Further,The methodology involves developing energy objectives and targets for performance improvement at relevant functions, levels, processes, or facilities. This targeted approach ensures that energy management efforts align with specific organizational goals.
7. Action Plan Development:
   • Develops an action plans to meet the established targets and objectives to provide a roadmap for implementing energy efficiency measures. This step involves planning and detailing the specific actions required to achieve the desired outcomes.
8. Operating Controls and Procedures:
   • Establish operating controls and procedures for significant energy uses helps in maintaining consistency and ensuring that energy management practices are integrated into day-to-day operations.
9. Measurement, Management, and Documentation:
   • EnergiSpeak methodology emphasizes the continuous measurement, management, and documentation of energy performance. This iterative process is essential for ongoing improvement and the identification of additional opportunities for efficiency gains.
10. Resource Provision:
    • Provides necessary resources, including human resources, specialized skills, technology, and financial resources, underscores the importance of investing in the tools and expertise required for effective energy management.
11. Periodic Progress Reporting:
    • Regular reporting of progress to top management ensures transparency and accountability. This step allows organizational leaders to stay informed about the effectiveness of energy management initiatives and make informed decisions.

EnergiSpeak's methodology covers the entire spectrum of energy management, from policy adoption to continuous improvement, with a focus on collaboration, planning, and targeted action.

EnergiSpeak’s EEMS Salient Features

EnergiSpeak's Enterprise Energy Management System, as described, offers a range of features and capabilities designed to make energy management more effective and user-friendly. Here are key highlights of the system:

1. Comprehensive, Simple, and User-Friendly:
   • EnergiSpeak’s EEMS system is described as comprehensive, suggesting that it covers various aspects of energy management. Simplicity and user-friendliness are emphasized, making it accessible for users with different levels of technical expertise.
2. Built-in Energy Management Data Queries:
   • It includes built-in energy management data queries indicates that the system is equipped with pre-configured tools to extract relevant data for energy analysis. This feature can streamline the process of data retrieval and analysis.
3. Expandable in Network Size:
   • The system has the ability to expand in network size suggesting scalability, accommodating the growth and evolving needs of organizations. This is particularly important for enterprises with changing infrastructures.
4. Expandable in Functions for Energy Calculations:
   • The system is expandable in functions for energy calculations implies flexibility in adapting to different energy management requirements. This adaptability allows organizations to tailor the system to their specific needs.
5. Integration with Other Systems:
   • It can integrate with other systems such as PI Server, SCADA, and SAP/ERP enhances the interoperability of the Enterprise Energy Management System. Integration with existing systems can streamline processes and provide a more holistic view of operations.
6. Real-time Analytics:
   • EEEMS provides real-time analytics, allowing users to analyze and aggregate both real-time and historical data and events. This real-time capability is crucial for making prompt decisions and responding to dynamic changes in energy consumption.
7. User-Defined Actionable Information:
   • The system empowers users to define actionable information based on analytics. This customization allows organizations to focus on the specific insights that are most relevant to their energy management goals.
8. Key Energy Performance Indicators (KPIs):
   • It enables the derivation of Key Energy Performance Indicators (KPIs). These KPIs are likely to be essential metrics that provide a quick and effective way to assess and communicate energy performance.
9. Distribution of Information Across the Enterprise:
   • The EEEMS software distributes useful information across the enterprise in various forms. This feature ensures that relevant energy data and insights are accessible to different departments and stakeholders within the organization.
10. Configuration and Deployment by Non-Developers:
    • The system is designed for user-friendly, allowing individuals with little or no development experience to configure and deploy analytics. This ease of use broadens accessibility and reduces the barrier for users to leverage the system effectively.

EnergiSpeak's Enterprise Energy Management System (EEEMS) prioritize simplicity, flexibility, and integration capabilities to provide organizations with a user-friendly and comprehensive solution for managing their energy consumption and efficiency.

EEMS Network Scheme

The diagram describes different ways that the components in EnergiSpeak’s Enterprise Energy Management System (EEEMS) are connected.

A standard EEEMS setup consists of:

1. EMS Meters:
   • These are physical devices that measure and record energy consumption data. They could be smart meters, Multi function meters, IEDs or other monitoring devices. These meters are typically installed at various points within a facility or across multiple facilities to capture energy usage data.
2. Software:
   • The EEEMS software is the central hub that processes, analyzes, and displays the energy data collected by the meters. It includes features for real-time monitoring, historical data analysis, reporting, and visualization of key performance indicators.
3. Communication Links:
   • Communication links facilitate the transfer of data between the EMS meters and the software. These links can take various forms, including wired or wireless connections. They enable the continuous flow of data from the meters to the software for real-time monitoring and analysis.

The ways these components can be connected may vary based on the system's design and the specific needs of the organization. Common connection configurations include:

• Direct Wired Connection: Meters are physically connected to the software via wired networks. This is a traditional and reliable method.
• Wireless Connection: Meters communicate with the software using wireless technologies like Wi-Fi, Zigbee, or GPRS cellular networks. This is useful in situations where wired connections are impractical.
• Gateway Integration: Meters may connect to a gateway device, which acts as an intermediary between the meters and the software. The gateway then communicates with the software.
• Cloud-Based Communication: In some cases, data from the meters is sent to a cloud-based platform, and the software accesses this data from the cloud. This allows for remote monitoring and management.

The choice of connection method depends on factors such as the scale of the system, the nature of the facilities being monitored, and considerations related to data security and privacy.

If you have specific questions or details about the connection configurations illustrated in the diagram, please provide more information, and we will do our best to assist.

EEMS with IOT Gateways – Advantages

The advantages of EnergiSpeak’s Cloud-Connected Intelligent Metering IoT (Internet of Things) devices in the context of power monitoring systems are outlined as below:

1. Multi-Functional IoT Devices:
   • These IoT devices serve as more than traditional meters. They are designed to not only measure energy consumption but also to store data and respond dynamically to new information. This multi functionality enhances their versatility and usefulness in various applications.
2. Continuous Data Gathering:
   • These IoT gateways act as the front line in a power monitoring system, continuously gathering data. This real-time data collection is crucial for monitoring and managing energy usage efficiently.
3. Task Consolidation and Cost Efficiency:
   • EnergiSpeak’s IoT gateways can perform monitoring tasks traditionally handled by multiple devices, such as relays, Programmable Logic Controllers (PLCs), and Remote Terminal Units (RTUs). This consolidation reduces the cost of materials, equipment, and commissioning time required to build a power monitoring system. It streamlines the infrastructure needed for effective energy management.
4. Data Storage and Processing:
   • The ability of these IoT gateways to store data locally is valuable for ensuring data availability and reliability. Additionally, their capability to respond to new information suggests some level of onboard processing, enabling them to carry out tasks based on real-time analysis.
5. Integration with Existing Metering Equipment:
   • The MDAS Module of EEEMS software associated with these IoT gateways is designed to integrate seamlessly with existing metering equipment that follows standard protocols such as MODBUS, DLMS (Device Language Message Specification), or IEC 104. This ensures compatibility and allows organizations to leverage their current infrastructure.
6. Cloud Connectivity:
   • These IoT Gateways can transmit data to cloud-based platforms. Cloud connectivity facilitates remote monitoring, data storage, and access to analytics, providing scalability and accessibility advantages.
7. Reduced Commissioning Time:
   • The consolidation of functions and the ability to integrate with existing protocols can significantly reduce the commissioning time required to set up a power monitoring system. This contributes to quicker deployment and operational efficiency.

Cloud-Connected Intelligent Metering IoT Gateways play a crucial role in modern power monitoring systems by offering multi functionality, continuous data gathering, cost efficiency, and seamless integration with existing equipment. Their ability to connect to the cloud further enhances their utility in remote monitoring and management scenarios.

EnergiSpeak EEMS as EMS Software

EEEMS software serves as a comprehensive Energy Management solution designed for both energy-generating companies and industrial or commercial energy users. Its primary objective is to empower power plant personnel with the necessary information to optimize UI revenues. For energy users, the software provides insights into areas of energy losses and the contributing parameters, enabling the formulation of effective strategies to mitigate these losses.

This versatile software is compatible with a wide range of network medias, including RS 232, RS 485, Ethernet, and wireless technologies. It facilitates the automatic collection and storage of data from metering devices or control devices. The Web-enabled access of EEEMS allows for flexible sharing of Energy Information across various plant departments, such as electrical maintenance, operations, top management decision-makers, O&D, engineering, and commercial departments.

EEEMS's real-time monitoring capabilities enable users to observe power conditions, analyze power quality and reliability, and promptly respond to alarms, preventing critical situations. The software also facilitates the examination of historical trends, revealing insights into energy generated versus available capacity, and validating efficiency improvements. Leveraging the power of SQL query language, EEEMS enables customizable arithmetic and logical data analysis.

The EEEMS software offers the flexibility to develop the following applications at any time, incurring minimal additional costs:

1. Automatic Meter Reading System
2. Benchmarking and Cost Allocation
3. Energy Management System
4. Distribution Management System
5. Integration with any Substation Automation Applications

The key components of the EEEMS Software include:

• Network Management and Configuration Module
• Viewer for Front-end GUI
• Reporter Module
• Alarm Module for Pop-up Alarms
• Query Wizard Processor for Data Analysis
• SMS Server for Sending Alerts via Emails
• Web Server for Distribution of Viewer Views over LAN/WAN/WWW
• Schedulers for Report Generation and Distribution

These components collectively empower users to seamlessly implement various applications, enhancing the overall functionality and efficiency of energy-related operations.

EnergiSpeak's EEEMS software, designed for Windows, is a robust application with a range of functionalities. It efficiently performs the following tasks:

• Polls MFMs and DCUs at predefined intervals for energy data
• Polls a specific MFM or DCU on request
• Collects data from MFMs or DCUs
• Segregates data meter-wise
• Stores energy data into the meter database
• Allows input of operating parameters for loads
• Calculates and presents real-time information
• Generates set-point alarms based on arithmetic and logical functions applied to meter parameters
• Presents data in predefined formats on the front-end screen
• Provides online/historical data view of meters in a layered format
• Generates user-definable energy consumption reports in Microsoft Excel
• Exports data to SAP
• Analyzes data and presents insightful information
• Sends audio, video, and SMS alerts on events

This comprehensive suite of features ensures effective monitoring, analysis, and reporting of energy-related data, contributing to enhanced operational efficiency and informed decision-making.

Users can effortlessly develop a variety of Energy Management applications at any time using the software, equipped with all the necessary tools for additions. Here are some potential Energy Reports:

1. Generation of Reports on Equipment-Wise Energy Consumption Analysis
2. Generation of Reports to Study the Effect of Electrical/Mechanical Maintenance on Energy Consumption
3. Generation of Reports on Comparison of Like/Different Types of Electrical Drives' Electrical Consumption Analysis
4. Comparison of Energy Consumption Reports of Equipment with Respect to Varying Operating Conditions
5. Finding of Energy Consumption Norms Based on Previous Data Analysis with Respect to Operating Conditions
6. Study of Energy Consumption Norms Based on Set Limits
7. Finding the Selection of Suitable Transformer Tap Position Based on General Load Analysis and Existing Voltage Profiles to Reduce Losses in Partly Loaded Motors
8. Finding the Duty Cycles of Dynamic Loads like Compressors
9. Automatic Fixing of Energy Consumption Norms to Electrical Loads Considering the Lowest Past Occurrence for Similar Operating Conditions

This software provides a versatile platform for users to conduct in-depth analyses, generate insightful reports, and optimize energy consumption across various operational scenarios.

Key Features of EEEMS:

1. Scalability and Flexible Architecture:
   • Scalable in network size and number of devices
   • Flexible architecture allowing the addition of hundreds of metering points, secondary servers, and workstation clients as needed
   • Utilizes MS Excel interface for complex data processing and control functions
2. Data Collection:
   • Collects data from power and energy meters using various communication methods (RS232, RS485, Ethernet, wireless - GSM/GPRS, and other industry-standard networking methods)
   • Integrates seamlessly with third-party meters, equipment, and web services
3. Integration and Compatibility:
   • Shares data with third-party SCADA, Plant automation, and Commercial business systems (e.g., PI servers, SAP/ERP)
   • Compliant with ODBC and OPC standards
4. Intranet Web Access:
   • Accessible over intranet web for customized system data screens, real-time and historical data, status indicators, and alarm messages
5. Reporting:
   • Modules for preconfigured and custom reports
   • Supports Microsoft Excel and other third-party reporting tools
   • Reports can be scheduled for distribution via email or web
6. Online/Offline Trends:
   • Provides online/offline trends, allowing the graphing of any combination of measured parameters and aggregate loads
7. Alarm Management:
   • Built-in Alarm Manager to trigger on complex conditions
   • Generates alarm messages and logs all relevant event data
8. External Device Control:
   • Built-in functions to trigger an application to control an external Modbus device
   • Set points can be operated manually or automatically
9. Database:
   • Utilizes postgre SQL for efficient and reliable data storage

EEEMS offers a comprehensive suite of features, ensuring adaptability, compatibility, and efficient management of power and energy-related data.

Real-time Monitoring Features

1. Single Line Diagram Visualization:
   • Display Single Line Diagrams (SLD) that visualize the main distribution system across one or more substations or PCCs.
   • Accessible from any workstation PC, both locally and over the intranet.
2. Power and Energy Measurements:
   • Display real-time power and energy measurements using meter templates or group-wise representations.
   • Access historical data with selectable queries and data logs.
   • Monitor alarm status and load status (on/off, temperature, pressure, etc.) through selectable menu items.
3. MS Excel Interface:
   • Utilizes the MS Excel interface for sophisticated data computations.
   • Displays and logs derived values based on real-time data.
4. Customized User Diagrams:
   • Easily design user diagrams for customized views, representing readings in numbers, bar or trend graphs.
   • Incorporate one-line diagrams with background elevation diagrams, maps, photos, and animations.
5. Diagram Switching and Detail Levels:
   • Effortlessly switch between diagrams for different perspectives.
   • Move to further levels of detail, starting with a substation overview, then opening a feeder diagram, and finally viewing a device template for real-time data.
6. Grouping Devices and Parameters:
   • Group relevant devices and parameters together for convenient status readouts.
7. Extraction and Analysis:
   • Easily extract and analyze selected ranges of information from the database using a query wizard.

These real-time monitoring features provide a user-friendly and dynamic interface, allowing operators to efficiently navigate, visualize, and analyze data for informed decision-making.

Reporting Features

1. Manual and Scheduled Report Generation:
   • EEEMS Reporter includes a manual report generator for on-demand report generation.
   • Schedule report generator allows users to configure reporting schedules for automated generation.
   • Scheduled reports can be distributed automatically via email and saved into a folder accessible over the plant intranet.
2. Microsoft® Excel™ Integration:
   • EEEMS generates reports through Microsoft® Excel™, providing a familiar interface for users.
   • Excel sheets can be formatted according to user requirements based on queried data.
3. Variety of Predefined Reports:
   • Offers a range of predefined reports such as Daily EMS Reports, Shift-wise EMS Reports, Negative UI Analysis Report, and EMS GAP reports.
   • Reports are modifiable to cater to specific user needs.
4. Flexible Time Ranges:
   • Reports can cover a wide range of time intervals, including Block-wise, Hourly, Daily, Weekly, Monthly, Quarterly, or Yearly based on parameter logs.
5. Customization Options:
   • Reports are further customizable using VBA (Visual Basic for Applications) or any SQL Server reporting tools.
   • Integration with other databases is possible, allowing the combination of e-Tools data with external sources for advanced energy management reports.

These reporting features provide users with the flexibility to generate, schedule, and customize reports, ensuring that the information is presented in a way that meets their specific needs and preferences.

Trend Analysis Features

1. Multi-Parameter Diagrams:
   • Generate one or more parameters in a single diagram, with a maximum of eight parameters.
   • Display parameters on separate graph scales or on a single scale for comprehensive analysis.
2. Graph Generation:
   • Generate graphs for any measured or derived parameter, providing a visual representation of trends and patterns.
3. Aggregate Load Profiles:
   • Create graphs that aggregate load profiles from multiple metering points.
   • Compare related parameters from different areas or aspects of your enterprise.
4. Usage Profiles:
   • Develop usage profiles to uncover demand peaks, identify overload trends, or assess unused plant capacity.
   • Track and analyze energy-related costs on a plant-wide basis, breaking down the information for each substation, feeder, process, equipment, or specific area.

These trend analysis features empower users to visually interpret data, identify patterns, and gain insights into energy usage and performance across various parameters and areas within the enterprise.

Alarms and Events Features

1. Alarm Manager:
   • Utilize the Alarm Manager to generate alarms for various events such as blockouts, outages, load tripping, and equipment downtimes.
2. Configurable Alarms:
   • Empower users to configure alarms based on specific conditions, including power outages, power supply variations in voltage and frequency, overloads, and underload limit crossings.
   • Configure alarms for equipment conditions, ensuring timely notifications of any deviations.
3. Communication Failures:
   • Generate alarms for communication failures from metering devices or network component failures, ensuring prompt awareness of potential issues.
4. Alarm Distribution:
   • Distribute alarm messages through operator workstations, email, and SMS, allowing for multiple channels of notification.
   • Customize pre-configured message texts to convey specific information related to the alarms.
5. Combinational Logic Alarms:
   • Configure alarms using combinational logic in MS Excel to generate alerts based on complex or summary conditions derived from logged data.
   • Automatically generate notifications and upload all associated event data to create a comprehensive report.
6. Event Logging:
   • Log complete information for each event with accurate timestamps, providing a detailed record of occurrences and facilitating post-event analysis.

These features ensure that users are promptly informed of critical events, allowing for swift response and detailed analysis of incidents, contributing to overall system reliability and efficiency.

Manual and Automated Control Features

1. Manual Control:
   • EEEMS provides the capability to manually send control signals through on-screen command buttons.
   • Users can operate remote breakers, relays, and equipment using Modbus-communicated I/O devices.
2. EMS Calbook Feature:
   • Utilize the EMS Calbook feature for automated control over distributed equipment, streamlining operational processes.
3. Wide Range of Applications:
   • Support a diverse range of applications through manual and automated control:
     • Switch on/off non-priority loads to maintain demand within limits.
     • Control remote loads for operational adjustments.
4. Capacitor Bank Control:
   • Automatically switch On/Off capacitor banks to:
     • Correct power factor.
     • Optimize demand.
     • Avoid penalties associated with power factor deviations.

These features empower users to have both manual and automated control over the system, facilitating efficient operation, load management, and power factor correction to meet operational and regulatory requirements.

Advantages of EnergiSpeak EEEMS Energy Management System Software (EEEMS EMS)

1. IED/MFM Independence:
   • Independent of IED/MFM (Multi-function meter) types, utilizing meter templates for data collection. Allows flexibility in collecting data from various types and makes of IED/MFM.
2. Protocol Integration:
   • Integrates seamlessly with meters communicating on MODBUS RTU , DLMS, IEC 104 etc, providing versatility in data integration.
3. DI, DO, AI, and AO Module Integration:
   • Integrates with DI, DO, AI, and AO modules using the mentioned protocols, expanding the system's compatibility with various devices.
4. Control Signal Generation:
   • Integrates meter data and status data of DI/DO modules to generate control signals, enhancing the system's control capabilities.
5. Upgradability and Configurability:
   • Easily upgradeable, allowing for changes in network configurations in the field.
   • Configurable for various applications like demand management, PF optimization, power quality, etc., without incurring extra costs.
6. Flexible Application Enablement:
   • Applications can be enabled or disabled based on operating conditions or manually operated soft keys, providing adaptability to different scenarios.
7. Integration with Pulse Type Energy Meters:
   • Can be integrated with pulse-type energy meters for load-end energy accounting, enhancing data accuracy.
8. Energy Consumption Limits:
   • Enables the setting of limits for energy consumption, supporting efficient energy management practices.
9. Report Generation:
   • Event-driven or scheduled reports can be generated, allowing for timely and organized data analysis.
10. No Tag/Meter Limits:
    • No limitations on the number of tags or meters, offering scalability to meet varying requirements.
11. User-Definable On-Screen Formats:
    • On-screen formats are user-definable at any time, enhancing user customization and experience.
12. Multi-Level Password Protection:
    • Incorporates multi-level password protection, ensuring data security and access control.
13. Readily Available Web Server:
    • Includes a readily available web server at no extra cost, facilitating easy access and data sharing.
14. Optional OPC Server:
    • Optional OPC Server for exporting data to other Distributed Control Systems (DCS) and Supervisory Control and Data Acquisition (SCADA) systems.
15. Redundancy and Data Integrity:
    • Can run simultaneously on another server for redundancy purposes and can switch between servers without data loss, ensuring data integrity and system reliability.

Possible Future Expansions with EnergiSpeak EEEMS Software

1. Online Energy Auditing:
   • The software's capability to read various energy meters and integrate with third-party devices allows for the implementation of online energy auditing. This feature enables continuous monitoring and analysis of energy consumption patterns, supporting proactive energy management strategies.
2. Distribution Transformer Metering:
   • EEEMS software can be expanded to include distribution transformer metering without incurring additional software costs. This expansion facilitates detailed monitoring and analysis of energy usage at the distribution transformer level, contributing to improved operational efficiency.
3. Energy Cost Allocation:
   • The software's flexibility enables the implementation of energy cost allocation without extra software expenses. This application allows for the accurate distribution of energy costs among different departments, processes, or users, enhancing transparency and accountability.
4. Distribution Loss Analysis:
   • EEEMS software can be utilized to perform distribution loss analysis as part of its future expansions. This feature allows for the identification and assessment of energy losses in the distribution system, aiding in the implementation of measures to optimize efficiency and reduce losses.

These potential future expansions of EnergiSpeak EEEMS software provide users with the capability to adapt and expand their energy management capabilities without additional software costs.