Artificial intelligence (AI) | Electrical Eng.
AI won't take your job but a person knowing AI will.
Truly saidπ―π
"AI is being used to solve various electrical engineering problems. AI Electrical! Stay tuned for informative videos about our latest projects, energy-saving tips, customer service updates, and insights into the electricity world in Artificial Intelligence.
From the latest research and developments in machine learning and natural language processing to practical applications and the ethical considerations surrounding AI, this channel is your go-to source for all things related to this exciting field. Subscribe now to stay up-to-date on the cutting-edge of AI and stay connected and empowered with reliable electricity knowledge.".
electrical, AI in renewable energy, AI for green energy AI for solar energy, Artificial intelligence, Energy efficiency, solar panel, Demand response Grid stability, AI for energy efficiency AI for demand response AI for grid stability AI for energy storage
Artificial intelligence (AI) | Electrical Eng.
11 months ago | [YT] | 3
View 0 replies
Artificial intelligence (AI) | Electrical Eng.
Importance of Maintaining Voltage Levels in Power Distribution
Maintaining proper voltage levels is crucial for efficient power distribution. Voltage fluctuations, whether too low or too high, can have significant impacts on the network and consumer devices. In Indian utilities with A+ ratings, there is a strong emphasis on maintaining voltage levels within the specified range to ensure reliable power supply and minimize abnormalities in the network
.
Low Voltage as a Symptom of Network Abnormalities
Low voltage is considered a direct symptom of abnormalities in the power distribution network. If the voltage is too low, it indicates that the network is susceptible to failure and may not be able to meet the demands of consumers effectively. It is a clear indication of insufficient capabilities and capacity of the network
.
Impact of Voltage on Consumers and Network Assets
Voltage at the consumer end is often compared to blood pressure. Both low and high voltage levels can have negative consequences. If the voltage is too low, consumer devices may not function properly, leading to low energy consumption and inefficiency. Motors, in particular, experience reduced efficiency when subjected to unbalanced or fluctuating voltages. On the other hand, high voltage can also cause damage to consumer appliances and result in wastage of energy.
Benefits of Maintaining Voltage within the Ideal Range
By maintaining voltage levels within the ideal range, several benefits can be achieved. These include:
Reduction in ATC (Aggregate Technical and Commercial) losses: Proper voltage levels help minimize losses in the power distribution system, leading to improved overall efficiency
.
Drastic reduction in asset failure and outages: Maintaining voltage within the specified range helps prevent failures and outages in network assets, ensuring reliable power supply.
Improved consumer experience: Consumers can expect proper functioning of their appliances and reduced power bills when voltage levels are within the ideal range
.
Lower technical losses: Maintaining voltage levels within the specified range helps minimize technical losses in the power distribution system.
Mission to Maintain Voltage Levels
To improve the efficiency of power distribution, it is proposed to establish a mission to ensure that the voltage provided to consumers does not fall below 180 V. This does not mean that high voltage is acceptable. The upper limit should be set at 245 V, with a possible exception of 250 V. This proposed mission aims to gradually achieve an ideal voltage range within +/- 6%
.
Importance of Voltage Level as a Top Priority KPI
Maintaining voltage levels within the specified range should be considered a top mission and a high-priority key performance indicator (KPI) in power distribution. This prioritization can help address power quality issues and harmonize standards, leading to improved efficiency and customer satisfaction
.
In conclusion, maintaining proper voltage levels is crucial for efficient power distribution. Voltage fluctuations can have significant impacts on the network and consumer devices. By prioritizing voltage level maintenance, utilities can improve overall efficiency, reduce asset failures and outages, and provide a better experience for consumers.
1 year ago | [YT] | 0
View 0 replies
Artificial intelligence (AI) | Electrical Eng.
ππ‘π ππ¨ππ¬ ππ¨π¬π ππ¦π©πππππ ππ² ππ
IT and finance sectors are projected to see significant AI impact, particularly in automating software quality assurance, customer support, bookkeeping, accounting, and auditing tasks.
1 year ago | [YT] | 2
View 0 replies
Artificial intelligence (AI) | Electrical Eng.
Flexible solar panels, also known as flexible photovoltaic (PV) modules or thin-film solar panels, are a type of solar technology that offers flexibility and versatility in terms of installation options and applications.
Flexible solar panels are typically constructed using thin-film solar cells, which are made from semiconductor materials such as amorphous silicon (a-Si), cadmium telluride (CdTe), or copper indium gallium selenide (CIGS).
The use of lightweight and flexible substrates allows flexible solar panels to bend, curve, and conform to various surfaces, including curved roofs, vehicles, boats, backpacks, and portable devices.
Flexible solar panels have a wide range of applications, including:
-Off-grid and remote power systems
-RVs, campers, and trailers
-Marine and boating applications
-Portable solar chargers and power banks
-Backpacks, tents, and outdoor gear
-Building-integrated photovoltaics (BIPV)
-Military and defense applications
1 year ago | [YT] | 4
View 0 replies
Artificial intelligence (AI) | Electrical Eng.
1 year ago | [YT] | 1
View 0 replies
Artificial intelligence (AI) | Electrical Eng.
India to spend $67 bn ( Rs. 11 trillion ) in the energy sector in FY25: PM Modi π
The (rapid pace of infrastructure creation in railways, roads, waterways, airways, and housing ) will need energy, leading to India's efforts to expand its energy capacity.
π I think this is a great move by the government to focus on the energy sector as it is the most important sector where India should grow now to become self-sustaining and also help other countries to sustain π
What do you think of this βοΈ
Source: Power Sector News
#indiangovernment #energyindustry #energyinvestment
1 year ago | [YT] | 1
View 0 replies
Artificial intelligence (AI) | Electrical Eng.
Exciting news π£
Introducing SolarGPTβa powerful tool for Open AI subscribers to inquire about Solar Energy and Storage in multiple languages. Join us on the journey towards advancing your knowledge in renewable energy. Stay connected for exciting developments!
#ASTORIOS #SolarGPT #news #solarpower #solarenergy
1 year ago | [YT] | 2
View 0 replies
Artificial intelligence (AI) | Electrical Eng.
π AI is revolutionizing businesses, automating tasks, and boosting efficiency.
π Organizations must adapt to changing job roles, emphasizing new skills like AI/ML literacy, data analysis, and programming.
π AI readiness empowers employees, making them valuable, marketable, and creating new opportunities.
π AI skills are essential across job functions, not just in technical roles.
π§ Focus on foundational AI/ML understanding, data analysis, adaptability to tech, and programming (e.g., Python).
π Stay updated on AI applications in your industry for ongoing success.
π A willingness to learn, adaptability, and tech skills are crucial for thriving in an AI-driven workplace.
π€ Organizations should provide training and development opportunities to build these capabilities in their workforce.
1 year ago | [YT] | 1
View 0 replies
Artificial intelligence (AI) | Electrical Eng.
π Electrification Revolutionβ‘οΈ: Unleashing the Power of Simulation Tools!
π From cars to ships, the electrification wave is surging! π But did you know the real heroes are behind the scenes? π¦ΈββοΈ Enter computer simulation tools, the unsung champions shaping the future of electric machines!
π§ Understanding Electromagnetic Transients (EMTs): Dive into the basics of EMTsβyour key to studying sudden changes in power systems. Math, trapezoidal rule, and RLC components unravel the magic! ππ
π Power Converters Modeling: Ever wondered about power converters in renewable energy? Dragan Jovcic introduces the rotating frame and average value modeling, ensuring accurate energy generation and distribution! π¬οΈπ
π Bridging Scales with Shift Frequency: Kai Strunz's shift frequency method is like a power system time traveler! Efficiently simulate transients across various frequencies, from minutes to microseconds! π°οΈπ’
π§ Electrical Machines Simulation: Electric machines are the heart of power systems. Erfan Mostajeran and team break down the essential transient behaviors, providing a roadmap for advanced modeling! βοΈπ
π’ Zero-Emission Marine Vessels: Fuel cells and batteries power the seas! Chengzhang Lyu emphasizes multidomain modeling and real-time hardware-in-the-loop emulation for accurate simulation studies. β΄οΈπ§
𧲠Computational Electromagnetics in EVs: Dionysios Aliprantis and Steven Pekarek shine a light on how computational electromagnetics fuels the EV industry. It's the unsung hero driving the clean energy revolution on wheels! πβ‘οΈ
π Unified Simulation for Power Systems: Jean Mahseredjian introduces a unified simulation environment, a powerhouse for power system engineers. From load-flow to time-domain simulations, it's the Swiss Army knife for efficient systems! π§π
π Automatic Data Generation: Taku Noda unveils a game-changerβautomatic generation of power system simulation data from utility databases. Saving time and boosting accuracy, it's a tech marvel! βοΈπΎ
π In conclusion, these simulation tools are the driving force behind electrification, unlocking the potential for sustainable energy and green transportation. π±π With their continued evolution, we're on the fast track to a greener, more electrifying future! β‘οΈπ
1 year ago | [YT] | 1
View 0 replies
Load more