Intelligent power grids Sudan

Smart Grid vs. Intelligent Grid; Artificial Intelligence Takes the

This paper discusses the concept of intelligent power systems, particularly the distinction between smart grids and intelligent grids. Smart grids represent a convergence of various energy technologies and communication systems, enabling multidomain interactions. However, in such a grid, humans are still the ultimate decision maker based on the gathered information. By

South Sudan seeking to revive power sector | Energy Central

(JUBA) - South Sudan has embarked on power sector development in a bid to transform its electricity market as part of efforts to increase access to electricity across the country. The move, officials say, will involve the implementation of the South Sudan Electricity Master Plan to expand power distribution systems. South Sudan reportedly facing a deficit of

Smart Grid Solutions | Intelligent Grids | TRC Companies

TRC works with utilities and others to build and deploy intelligent grid solutions. Our assistance enables you to scale for the future, lower costs and increase efficiency in deployment and management. (DERs) on the power grid brings many opportunities and challenges to energy utilities. read more. News Locana Extends OpenStreetMap Support

Power in Sudan: Challenges and opportunities

Establishing off-grid electrification technologies including "Pay-As-You-go (PAYG)" models and the transactive energy distribution technology can offer a resilient energy supply to reduce the peak load at the national

A comprehensive exploration of IoT-enabled smart grid systems: power

1.1 Emerging smart grids. A smart grid represents an improved electrical grid system employing digital communication technology to oversee, assess, manage, and convey information throughout the supply chain from utility providers to consumers in a manner that is more efficient, dependable, and environmentally sustainable [] integrates modern information

Intelligent Reactive Energy Management for Industrial & Power Grid

Now, Reactive energy management is crucial for optimizing efficiency and stability in industrial and power grid systems. It explores the implementation of intelligent control algorithms and real-time monitoring to balance reactive power demand, minimize losses, and enhance overall system performance. By incorporating advanced technologies such as microcontrollers, capacitor

EMPOWERING BUSINESSES WITH INTELLIGENT MICROGRIDS: SOLVING GRID

Empowering Expansion: Embark on a journey through a distribution center case study to witness how hybrid microgrids drive innovation and growth by overcoming grid limitations. Conclusion: Discover how intelligent microgrids are reshaping the energy landscape and providing businesses with the tools they need to excel.

The New Generation of Grids (Smart Grid)

By, Mohammed Almutaman Abdalellah Fadalalmola, Student at Sudan University of Science and Technology The integration of advanced technologies into the smart grid has revolutionized the way electricity is generated, distributed, and consumed. The technology enables localized grouping of electricity generation, energy storage, and loads that

Intelligent Terminal of Power Grid Based on Trusted Computing

Therefore, it is of great significance to improve the security of intelligent terminals in power grids. Trusted Computing Technology is an information security solution that builds a secure and trusted computing environment. Based on the trusted computing technology, a new architecture of intelligent grid terminals is proposed in this paper.

Huawei Launches Intelligent Distribution Solution (IDS) to

At MWC Barcelona 2024, electric power customers and leaders from international organizations gathered to discuss the latest practices and innovations in digitalization and intelligence for the electric power industry. Huawei launched its Intelligent Distribution Solution (IDS) during the summit themed "Leading Infrastructure to Accelerate Electric Power Intelligence".

Integrated Intelligent Electric Power Grid Lab

Welcome to the Integrated lntelligent Electric Power Grid Lab (Intel 2 Grid) My interdisciplinary research includes works on energy and environmental markets, systems and policy modeling and analysis; optimization, decentralized algorithms, game theory and

Asset maintenance software for Intelligent Grid Management

Advanced Diagnostics, Intelligent Solutions. OFIL Systems'' Gridnostic is a cutting-edge grid diagnostics platform that seamlessly aggregates all data sources to deliver comprehensive, actionable insights. Developed based on research and guidelines from the Electric Power Research Institute.

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Feature combination analysis in smart grid based using SOM for Sudan national grid Z H Bohari, M A M Yusof, M H Jali et al.-The Internet of things and Smart Grid The development goals of the intelligent power grid are set in information, digital, and interactive. The use of advanced power electronic technologies in smart

Intelligent Power Grid: Applying AI in the Energy Industry

Intelligent Power Grid: Applying AI in the Energy Industry AI is transforming the customer lifestyle tremendously while benefiting enterprises across sectors. As the world moves to embracing and applying AI, the importance of fairness, accountability and transparency has only grown.

An intelligent power management system for developing a smart grid

The numerical outcomes demonstrate that the proposed grid-tied solar PV/battery system can achieve a significant reduction of grid power consumption yielding up to 54.8% and ensure prominent

Leveraging the Synergy of Digital Twins and Artificial

As outlined by the International Energy Agency, 44% of carbon emissions in 2021 were attributed to electricity and heat generation. Under this critical scenario, the power industry has adopted technologies promoting sustainability in the form of smart grids, microgrids, and renewable energy. To overcome the technical challenges associated with these emerging

Intelligent Power Grids of Tomorrow: Modeling, Planning,

This book discusses various aspects of future intelligent power grids, covering key topics including the operation of smart grids and microgrids, resource optimization, and energy management. Over the last few decades, the use of solar photovoltaics (PVs) and wind turbine generators has increased significantly in an effort to make future power

Disaster Intelligent Perception and Emergency Command of Power Grid

The content contains research on multiple information collection technology of power grid disaster loss, fusion analysis and prediction technology of power grid disaster loss information, and real-time information interaction technology between emergency site and command center in

Intelligent Detection Model for Power Grids Based on Graph

With the rapid development of artificial intelligence and machine vision technology, power grid inspection system based on vision is widely used. However, the power grid intelligent inspection system has the problem of unsatisfactory accuracy of small target detection. To address this problem, this paper proposes an intelligent detection model for power grids based on graph

Intelligent Power Management Control for Hybrid Wind Solar

In this paper, we propose an intelligent power management control for hybrid wind-solar-battery systems connected to micro-grids based on fuzzy logic. The proposed control approach addresses several specific challenges compared to conventional methods in the intelligent energy management of renewable hybrid systems. Bohra, S. (2023). Power

Intelligent Systems for Stability Assessment and Control of Smart Power

He also held academic and industrial positions with the University of Sydney, and Transend Networks (now TAS Networks), Australia. His research interest includes smart grid, power system planning, power system security, electricity market, and computational intelligence and its application in power engineering. Prof. Dong is an IEEE Fellow.

Future intelligent power grids: Analysis of the vision in the

This work is interesting for energy policy makers on both sides of the Atlantic, providing them with a panorama of key issues and a general understanding of the areas of research surrounding intelligent power grids; for decision-makers and researchers introducing them to parallel scenarios for the development of the future intelligent power grid concept; and

Frontiers | Intelligent power grid energy supply forecasting and

1 Introduction. The smart grid is a modernized power system based on advanced technologies and communication networks, aimed at enhancing the reliability, sustainability, and cost-effectiveness of the power system Mirza et al. (2023).With the growing global energy demand and the urgent need for environmentally friendly energy sources, smart

Intelligent Power Grids of Tomorrow

Intelligent Solutions for Sustainable Power Grids

Intelligent Solutions for Sustainable Power Grids focuses on emerging research areas, this book addresses the uncertainty of renewable energy sources, employs state-of-the-art forecasting techniques, and explores the application of AI techniques for enhanced power system operations. From economic aspects to the digitalization of power systems

Intelligent power grids Sudan [PDF]

6 FAQs about [Intelligent power grids Sudan]

Does Sudan have a problem with electricity supply?

Sudan is currently facing a major problem with electricity supply. According to the report “ Tracking SDG 7: The Energy Progress Report (2021) ”, only 54% of the population in Sudan have access to electricity; this indicates more than 20 million people aren’t connected to the national electricity grid .

What is power in Sudan?

Power in Sudan Sudan is a country with immense renewable energy potential, possessing a high hydropower potential based totally on its location on the river Nile and other watersheds, a high wind speed mainly in its northern and western region, and high solar radiation throughout the country.

Does Sudan have a low electricity access rate?

Even though the energy access rate is low; Sudan is making progress in electrification with annual growth over more than 3 percentage points after 2010; more than 70% of Sudan’s population was lacking access to electricity at that time . Table 1 below represents statistical facts about Sudan’s electricity access rate from (2000 – 2019).

Which sector consumes the most electricity in Sudan?

The largest electricity consumer in Sudan is the domestic sector, approximately 57%, and all different sectors consume less than 20% each.

Is Sudan a good place to use solar energy?

The location of Sudan as part of sub-Saharan Africa enriches the solar potential. The average temperature ranges from 28 to 39°C. The average solar insolation is 6.1 kWh/m2/day, indicating a high potential for solar energy use . The Northern State has been considered as one of the best parts of Sudan for exploiting solar energy.

What is the average solar insolation in Sudan?

The average solar insolation is 6.1 kWh/m2/day, indicating a high potential for solar energy use . The Northern State has been considered as one of the best parts of Sudan for exploiting solar energy. The climate in the Northern state is a typical desert where rain is infrequent and annual.

Solar Energy Resources