Smart Grid - IEEE Sudan
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Introduce Smart Grid Technologies to improve and utilize renewable energy resources in generating green electricity energy also provide an overview for IEEE standards in Smart Grid Technologies .
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It may be best to understood Smart Grid as the overlaying of a unified communications and control system on the existing power delivery infrastructure to provide the right information to the right entity (e.g. end-use devices, transmission and distribution, system controls, customers, etc.) at the right time to take the right action. It is a system that optimizes power supply and delivery, minimizes losses, is self-healing, and enables next-generation energy efficiency and demand response applications.
To have connections between suppliers, distributors and consumers.
In definition, Smart Grid is a form of electricity network utilizing digital technology.
Its delivers electricity from suppliers to consumers using two-way digital communications to control appliances at consumers' homes; which in deed will saving the energy, reduce costs and increase reliability.
A key feature of the smart grid is automation technology that lets the utility adjust and control each individual device or millions of devices from a central location.
A Smart Grid must functions as followings
1. Be able to heal itself
Smart Grid is designed with a control system that self-analyzes its performance using intelligent autonomous reinforcement learning controllers that are able to learn new strategies and successfully implementing such strategies to govern the behavior of the grid in the face of an ever changing environment such as equipment failures.
2. Motivate consumers to actively participate in operations of the grid
If consumers have freedom to control own usage of energy, they will be motivated to participate and be part of the system. They can monitor their usage and manipulate by the assistance of “smart appliances” and “intelligent equipment” in homes or businesses. Advanced communications capabilities equip customers with tools to exploit real-time electricity pricing, incentive-based load reduction signals, or emergency load reduction signals.
3. Resist attack
Most important issues of resist attack is the smart monitoring of power grids, which is the basis of control and management of smart grids to avoid or mitigate the system-wide disruptions like blackouts.
4. Accommodate all energy generation and storage options
Smart Grid integrates two power generation source; traditional power generation likes fossil fuel powered power plant with renewable power generations either generates from residential, commercial, and industrial customers that will improves reliability and power quality, reduces electricity costs, and offers more customer choice.
5. High quality power
Outages and power quality issues is common for any country especially for major industrial-based countries. Smart Grid provides more stable power provided that will reduce downtime and prevent such high losses because of
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The document discusses smart grids and their components. Some key points:
- A smart grid uses information and communications technologies to improve the efficiency, reliability, economics and sustainability of electricity production and distribution.
- It consists of applying digital processing and communications to the power grid, making data flow and information central.
- Smart grids allow for two-way communication between electricity producers and consumers, enabling functions like remote meter reading, demand response and outage detection.
- Advanced metering infrastructure, demand response, distributed generation and energy storage are some of the major smart grid applications and market segments.
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This document discusses smart grids and provides an overview presented by Ms. Sk. Rizwana. It defines smart grids as using two-way digital technology to control appliances and save energy. Key smart grid technologies discussed include advanced metering infrastructure, demand response, distributed generation, home area networks, communication networks, cyber security, electric vehicles, and energy storage. An overview of smart grid development in countries like China, US, Japan, Korea, Spain, and India's vision for renewable energy sources by 2050 is also provided. The advantages of smart grids like better power quality and renewable integration and disadvantages like network challenges and security issues are highlighted.
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This presentation summarizes key aspects of smart grid technology. It discusses topics that will be covered, including an introduction to smart grids, their implementation and explanation, advantages and disadvantages, and users. The presentation defines smart grids as using automatic reconfiguration and control through a combination of hardware, software and communication infrastructure. This allows consumers and utilities to manage and respond to energy issues. The presentation outlines pillars of smart grids and their benefits, such as reducing emissions and optimizing distribution, while also noting challenges and costs. Examples of implemented smart grids are provided.
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- R-APDRP aims to establish reliable baseline data and adopt IT in energy accounting to reduce losses before distribution strengthening projects.
- It has two parts - Part A focuses on IT applications for energy auditing and consumer services. Part B covers network renovation.
- The Discoms of Rajasthan have taken steps like forming implementation committees and appointing an IT consultant to timely execute the scheme and avail grants.
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The document discusses smart grids, which integrate information and communication technology into the existing electricity grid to increase reliability, security, and efficiency while reducing environmental impacts. It compares the existing grid, which uses electromechanical and one-way communication, to the smart grid, which uses digital communication and sensors for self-monitoring and restoration. The smart grid works by integrating distributed energy sources and using continuous monitoring for fault prevention and control. This improves energy conservation during transmission, distribution, and transformation. India faces electricity demand and deficit issues that smart grids could help address through their advantages and various pilot projects.
The Benefits of Smart Grid Technology for Buildings, Cities, and Sustainability
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Audrey Zibelman's presentation from America’s Sustainable Future: How U.S. Cities Are Making Energy Work, an invitational conference of public-private partnership efforts from U.S. cities pursuing innovative energy management and smart grid initiatives. The assembled leaders in industry, research and policy-making will explore the diverse energy strategies emerging in Philadelphia and across the United States.
“We’re really looking forward to both learning from the great examples set by other cities represented in the conference, and showing off the groundbreaking work happening right here in Philadelphia,” says Laurie Actman, Viridity Energy’s director of strategic partnerships and public policy.
“With smart ideas and smart policy, we should be able to build support for smart grid projects and microgrids at the federal, state and local level.”"Energy technology is changing at such a rapid pace, it's crucial to examine who's doing it right in smart grid and microgrid projects all around the country," says Eugenie Birch, Penn IUR co-director.
"With the right policy moves—which we'll be exploring at the conference—Philadelphia can be a national leader in energy innovation," noted Susan Wachter, Penn IUR co-director.Smart Grid : A state of art
The document discusses smart grids, providing definitions and comparisons to traditional grids. It outlines key features of smart grids like reliability, efficiency, sustainability, and flexibility. Smart meters are defined as measuring electricity use and allowing two-way communication between utilities and customers. Security is an important aspect to protect smart grid data and ensure integrity, availability, and confidentiality. The document reviews recent literature on smart grid techniques and applications in areas like home energy management, electric vehicle charging, and grid control systems.
Technical seminar
seminar on SMART GRID is the best seminar of my branch
technology based on smart to integration of information technology on traditional power system
It may be best to understood Smart Grid as the overlaying of a unified communications and control system on the existing power delivery infrastructure to provide the right information to the right entity (e.g. end-use devices, transmission and distribution, system controls, customers, etc.) at the right time to take the right action. It is a system that optimizes power supply and delivery, minimizes losses, is self-healing, and enables next-generation energy efficiency and demand response applications.
To have connections between suppliers, distributors and consumers.
In definition, Smart Grid is a form of electricity network utilizing digital technology.
Its delivers electricity from suppliers to consumers using two-way digital communications to control appliances at consumers' homes; which in deed will saving the energy, reduce costs and increase reliability.
A key feature of the smart grid is automation technology that lets the utility adjust and control each individual device or millions of devices from a central location.
A Smart Grid must functions as followings
1. Be able to heal itself
Smart Grid is designed with a control system that self-analyzes its performance using intelligent autonomous reinforcement learning controllers that are able to learn new strategies and successfully implementing such strategies to govern the behavior of the grid in the face of an ever changing environment such as equipment failures.
2. Motivate consumers to actively participate in operations of the grid
If consumers have freedom to control own usage of energy, they will be motivated to participate and be part of the system. They can monitor their usage and manipulate by the assistance of “smart appliances” and “intelligent equipment” in homes or businesses. Advanced communications capabilities equip customers with tools to exploit real-time electricity pricing, incentive-based load reduction signals, or emergency load reduction signals.
3. Resist attack
Most important issues of resist attack is the smart monitoring of power grids, which is the basis of control and management of smart grids to avoid or mitigate the system-wide disruptions like blackouts.
4. Accommodate all energy generation and storage options
Smart Grid integrates two power generation source; traditional power generation likes fossil fuel powered power plant with renewable power generations either generates from residential, commercial, and industrial customers that will improves reliability and power quality, reduces electricity costs, and offers more customer choice.
5. High quality power
Outages and power quality issues is common for any country especially for major industrial-based countries. Smart Grid provides more stable power provided that will reduce downtime and prevent such high losses because of
Smart Grid
1) The presentation discusses the smart grid, including its motivation due to issues with the current electric grid like fossil fuel scarcity and reliability concerns. It outlines the history and definitions of the smart grid.
2) Key requirements and characteristics of the smart grid are described, such as advanced monitoring and communication infrastructure to integrate renewable energy and provide two-way energy and information flow.
3) A case study of a smart grid deployment in Boulder, Colorado is summarized, including installing smart meters and fiber optic lines to provide customers with energy usage monitoring and more pricing options. Results showed potential cost savings and standardization needs.
Smartgrid
A power point presentation on smart grid : transforming the traditional grid including difference with traditonal grid ,components , advantage , disadvantages.
Smartgrid
The document discusses smart grids, which overlay communication and control systems onto existing power infrastructure to optimize power supply, delivery, and efficiency. A smart grid aims to be self-healing, enable demand response, and provide power quality while empowering markets. It faces challenges of financial resources, policy support, and absorbing new technologies, but implementing it could make the power sector more efficient and reduce greenhouse gas emissions by lowering power consumption.
SmartGrid System Report
This document is the first Smart Grid System Report to Congress mandated by the Energy Independence and Security Act of 2007. It summarizes the key findings of the report, which assess the status of smart grid deployments nationwide and any barriers. The report finds that while distributed energy resources and advanced metering infrastructure are growing, penetration remains low. It also finds that modernizing the electricity infrastructure is progressing, but understanding the business cases and policies is still emerging. Overall, the smart grid represents a significant technological and cultural change for the electric system.
[Smart Grid Market Research] Energy 2.0: Smart Grid Roadmap, 2012 – 2022, May...
[Smart Grid Market Research] Energy 2.0: Smart Grid Roadmap, 2012 – 2022, May...Zpryme Research & Consulting, LLC
The document outlines a methodology for developing a 10-year smart grid roadmap from 2012-2022. It describes using primary research through industry interviews and secondary research by reviewing documents from governments, research institutions, and companies. The roadmap will identify milestones for smart grid stakeholders and the drivers and challenges of smart grid development over the next decade.Smart Grids: An Introduction
The presentation gives an introduction to the concept of smart grids and compares it with the existing power grid. It provides a brief idea about the technologies involved in smart grids.
Smart Grid Mgmt
This document discusses smart management strategies for smart grids. It introduces concepts like unified energy systems (UES) with generation, transmission, and distribution nodes. It frames smart grids as logistics networks that can apply supply chain management (SCM) approaches. Key technologies mentioned include mixed linear programming, regression, benchmarking, and blockchain. The document outlines a portfolio of projects including modeling energy streams, demand forecasting, data management, and reference architectures. Overall, it argues that optimization models are core to SCM in smart grids and can create opportunities like improved operational management and forecasting across different time horizons.
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The document discusses smart grids and their components. Some key points:
- A smart grid uses information and communications technologies to improve the efficiency, reliability, economics and sustainability of electricity production and distribution.
- It consists of applying digital processing and communications to the power grid, making data flow and information central.
- Smart grids allow for two-way communication between electricity producers and consumers, enabling functions like remote meter reading, demand response and outage detection.
- Advanced metering infrastructure, demand response, distributed generation and energy storage are some of the major smart grid applications and market segments.
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This document discusses smart grids and provides an overview presented by Ms. Sk. Rizwana. It defines smart grids as using two-way digital technology to control appliances and save energy. Key smart grid technologies discussed include advanced metering infrastructure, demand response, distributed generation, home area networks, communication networks, cyber security, electric vehicles, and energy storage. An overview of smart grid development in countries like China, US, Japan, Korea, Spain, and India's vision for renewable energy sources by 2050 is also provided. The advantages of smart grids like better power quality and renewable integration and disadvantages like network challenges and security issues are highlighted.
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The International Institute for Science, Technology and Education (IISTE) , International Journals Call for papaers: http://www.iiste.org/Journals
Advantages and recent advances of smart energy grid
Smart grid is widely recognized technology used to improve the stability and losses of the electric power system. It is encouraging reliability, efficiency, and effective control of the supply of electrical energy. However, it is a hot topic for recent publications and still has a limited understanding among researchers. This review work is to provide insight and support to the beginner researchers since this topic needs a multidisciplinary background knowledge. The conventional electric transmission system and distribution networks struggle to provide resilient performance and reliable service and real-time data. Also, smart grid id a promising network maneuver to stabilize the system once any disturbances break out by using the distributed renewable energy generators, while the conventional networks lack for flexibility to integrate with renewable energy generators or microgrids. This comprehensive work is conducted to map previous controbution in a coherent manar, including the specifications, features, and fundamentals that are presented to benefit the interested readers interested in smart grid development.
Substation communication architecture to realize the future smart grid
This document discusses the role of substation communication architecture in realizing the future smart grid. It proposes exploiting the technical features of IEC 61850, the standard for communication networks and systems in substations, to make the substation communication architecture ready to accommodate smart grid applications and goals. IEC 61850-based substation automation can support smart grid functions by providing seamless communication, interoperability, and integration of distributed energy resources at the distribution level. The substation architecture needs to be resilient and accommodate a large number of components from the distribution side like feeder automation and smart meters to achieve the objectives of a smart grid like improved reliability and power quality.
A survey on smart grid technologies and applications
This document provides a survey of smart grid technologies and applications. It defines smart grid and discusses its key characteristics and functions. The smart grid uses digital technologies to provide a two-way power flow system that is self-healing, resilient, and sustainable. It allows for integration of renewable energy and distributed generation. Smart grid technologies discussed include smart meters, smart sensors, vehicle-to-grid, and home and building automation. The document also explores smart grid applications for metering, communication, and substation, feeder, and home automation. Overall, the smart grid is expected to provide economic and environmental benefits through improved efficiency, reliability, and integration of renewable energy.
Batch 14.pptx
This project document describes an IOT based sensor network for smart grid communication. The network monitors voltage, current, and temperature readings from the power grid and transmits the data to ThingSpeak, a cloud-based software. Sensors are placed throughout the power generation, transmission, and distribution systems. If faults are detected, notifications are sent. Readings from the sensors are displayed on ThingSpeak and can be used for power monitoring and control. The project was successfully designed and tested with advanced ICs to integrate all hardware components. It could potentially be used for improved power monitoring and control methodologies in the future.
Smart grid problems in general
On Going research on Problems Faced In smart grid in general. Yet Work is in progress Just a light notes on General issues in smart grid, Technically work is to be on target in smart grid.
Smart grid
The document discusses key aspects of smart grids including their importance, structure, and communication techniques. A smart grid uses advanced sensing, communication, and control technologies to modernize electricity delivery systems. It allows two-way communication between utilities and consumers to save energy, reduce costs and emissions. The smart grid consists of home, neighborhood and wide area networks connected by various wireless and wired technologies. Efficient data centers and renewable energy integration are also discussed along with challenges in fully realizing smart grid benefits.
Smart grid
The document discusses key aspects of smart grids including their importance, structure, and communication techniques. A smart grid uses advanced sensing, communication, and control technologies to modernize electricity delivery systems. It allows two-way communication between utilities and consumers to save energy, reduce costs and emissions. The smart grid consists of home, neighborhood and wide area networks connected by various wireless and wired technologies. Efficient data centers and renewable energy integration are also discussed along with challenges in fully realizing smart grid benefits.
Data transmission through power line
This document summarizes research on transmitting data through power lines. It discusses how power lines can be used as a communication medium by transmitting digital signals over them using power line communication interfaces and modems. The researchers developed a system where data is encoded by a transmitter modem and sent over power lines, then received and decoded by a receiver modem. They simulated an amplitude-shift keying modulation circuit to demonstrate how digital data can be modulated onto a carrier signal for transmission. The outcome of this work could enable high-speed data transmission over existing power lines for applications like home automation and integration of smart devices on a single network without additional cabling infrastructure.
Smart Grid Technology Paper (SGT) SM54
1. The document discusses smart grid technology, which involves upgrading electrical infrastructure to allow for two-way communication across power grids. This will enable more efficient distribution of power from diverse energy sources like wind and solar.
2. Key components of smart grids include advanced metering infrastructure for two-way utility communication, distribution management systems to model the power network, and geographic information systems to manage critical infrastructure data.
3. While smart grids promise benefits like increased reliability and efficiency, challenges include potential privacy and security issues if communication networks are hacked and ability to control individual buildings' power supply is gained. Increased intelligence is also needed to control the middle portions of grids as more distributed energy sources are added.
National green building code 2021 india kaya kool hey hum by link vue system
National Building CODE 2021 by Bureau of Energy Efficiency
(Ministry of Power, Government of India to ensure Utilization of Power by Building and Infra with use of Automation Help Monitor , Controls and Networking to easy and freedom to know and control their Electrical and Electronics using Mobile/TAB if they are away from their Facilities.
To Support Carbon Free Green Environment Installation of Solar PV Power and High Energy Battery Storage establish Electrical Vehicle Charging in every Large Building and Housing Society Compulsory with ensure 25% free and Reserve Parking for Electric Vehicles .
Rating for Green Building Start from Power Supply Incomer Transformers, Low Voltage Power Distribution Controls Panels and Supply to all Building ,Flats using Power Distribution Junction BOX installation of Surge Protection and RCD with Load and Application base type of MCB's.
For Networking maximum installation and Laying of Fiber Cable and Turn to Electrical when enter into premises Indoor ,this help to protection for Surge threat any because of Lighting Discharge and may be chance to enter into System by Power Line or through Communication Cables.
Maximum Product which we use in our Building should be 5 Start Rating (Energy Efficient Products) along with possible to Connect to IBMS.
The Circular issued by Ministry of Power and Bureau of Energy Efficiency to CPWD/PWD/Project Engineering Division Center and State with advise to Architects ,Electrical, MEP Consultants to implements without fail these Advise for all upcoming new Buildings Infra for Government and Large Private Infra Project , Metro Station Building , Depot ,Railway Station Building , Hospitals,Universities, Airports Infra along with who want to have Green Building and Star Rating for Buildings.
Plz go through presentation
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Link Vue System Offer Components , Design , Engineering Selection of Right and Genuine Products , Supply of BOQ extend support for Installation.
Smart Data Logger , RTU's ,Protocol Converter BACNet .Modbus RTU, MODbus TCIP, Ethernet , Lon-works , IEC61850.
Networking LAN,Fiber ,Wireless , GSM Solution
Protocol to Fiber Optic Converter
CCTV ,Fire Alarm,Access Controls,Security Systems
Building Electrical Free Connectors
Industrial Plug Sockets EV Connectors and Harness
EV Charger 3 KW-300 KW AC /DC Public Chargers
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Smart grid iit-jodhpur-apr10
The document discusses key aspects of smart grids including how they allow two-way communication between utilities and consumers to save energy and reduce costs and emissions. It also discusses how smart grids optimize the operation of interconnected grid elements and integrate renewable energy and energy storage. Challenges to smart grids include upgrading aging infrastructure and developing regulatory policies to accommodate features like time-of-use pricing.
Smart grid ppt
This document discusses managing smart grid power systems using Zigbee technology. It begins with an introduction to smart grids and their benefits like more efficient and flexible power system operation using new communication technologies. It then discusses the need for smart grids due to increasing energy demands and inefficiencies in conventional grids. The document outlines the benefits of smart grids like improved efficiency, reliability, and support for renewable energy integration. It describes how Zigbee can be used as a wireless technology for smart grid communication. It provides a block diagram of a smart grid system and discusses challenges like costs and security issues. In conclusion, it states that smart grids can provide electricity more efficiently through better allocation of power.
Report on smart metering& control of transmission system
This document provides an overview of smart metering and smart grid infrastructure. It discusses key components of a smart metering infrastructure including smart meters, communication systems, meter data management systems, and home area networks. Smart meters can record and store energy usage data at intervals, communicate bidirectionally, and support time-of-use pricing and demand response. Communication systems enable transmission of data from smart meters to utilities. Meter data management systems collect, store, analyze and utilize energy usage data. Home area networks allow customers to access their energy usage data and receive signals from utilities. The document also compares automatic meter reading and smart metering infrastructure and examines smart meter communication technologies suitable for the Indian context.
The Smart Power Grid
The document discusses the key aspects and technologies of the smart grid, including smart meters, demand response, renewable energy integration, energy storage, wide area monitoring, and standards development. It outlines the vision of a highly instrumented and interconnected grid that can better accommodate new technologies and optimize operations.
Similar to Smart Grid - IEEE Sudan (20)
Innovative technologies and challenges in the field of smart grid
Innovative technologies and challenges in the field of smart grid
Advantages and recent advances of smart energy grid
Advantages and recent advances of smart energy grid
Substation communication architecture to realize the future smart grid
Substation communication architecture to realize the future smart grid
A survey on smart grid technologies and applications
A survey on smart grid technologies and applications
National green building code 2021 india kaya kool hey hum by link vue system
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Report on smart metering& control of transmission system
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SDN/NFV Sudanese Research Group Initiative
Initiating a research body for Software Defined Networking (SDN) and Network Functions Virtualization (NFV). This group aims to put Sudan on the map of SDN/NFV technologies and guide Sudanese researchers in these areas to conduct advance and high quality scientific research, also exchange knowledge, resources and experience with local and international research entities.
Curriculum vatiee - Best Practices
Short Presentation about Curriculum Vatiee common mistakes and some tips for successful online present for a job seeker.
powerline communication system
This document summarizes a project on power line communication systems submitted for a BSc in Electronic Engineering. It discusses using power lines for data communication, avoiding additional wiring. Power lines were not designed for data transmission, causing impairments like high attenuation and interference. The project applies OFDM modulation to optimize data rates over power lines. It simulates a basic PLC system and finds OFDM can deliver high data rates with low errors. The document recommends applying smart grid concepts and security methods to improve power line communication networks.
Bluetooth v3+HS
Bluetooth 3.0+HS provides faster speeds of up to 480 megabits per second, operates in the 6-9 GHz range to avoid interference, and maintains backwards compatibility. It features a new architecture with an AMP layer to interface with alternate MAC/PHY controllers for additional radios, and separates the host and controller layers. Data can be transported either framed via L2CAP channels or directly over baseband links.
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5th LF Energy Power Grid Model Meet-up Slides
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Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
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Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
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Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
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Smart Grid - IEEE Sudan
- 1. Smart Grid Back to the Future Prepared by Eng.Ahmed Ali Mohamed Hassan
- 4. 09/02/11 Optimizes assets and operates efficiently Accommodates all generations and storage options Self Healing Electricity Markets Power for 21 st century needs Demand response Variety of generation options
- 9. Smart Grid Future Vision 09/02/11