Transformer Software & Technologies
Designing A Safe & Reliable Transformer Maintenance Program
Transient Analysis of Power Transformers Using Finite Element Method
Transformer Software & Technologies
Distribution Transformer DGA – The Future of Monitoring Distribution Systems
By Leon White and Traci Hopkins, H2scan Corporation
As distributed generation, electric vehicle load, and requirements for increased electricity reliability provide real-world challenges for electric utilities, asset managers must innovate to ensure their infrastructure is in good condition to deliver safe, reliable, and uninterrupted power to customers.
Distribution systems have been designed to transfer power from large remote generators to customers via radial distribution networks. This paper will discuss the progress that is being made...
Related Articles
Transient Analysis of Power Transformers Using Finite Element Method
A transformer relies on electromagnetic induction through coils to transfer electric energy between two or more circuits. Varying current in the transformer’s primary winding creates varying magnetic flux in the core, which produces varying electromotive force (EMF) or voltage in the...
New Complex Windings Configuration Set Up In Magnetic Programs
Read the full article in our Transformer Technologies Special Edition
Major Utility Implements Innovative Approach to Transformer Health Assessment with Reliability-based Dissolved Gas Analysis
One of the largest U.S. electric power utility companies, with nearly 50,000 megawatts of generating capacity,over 36,000 miles of high-voltage distribution lines, and over 7 million retail electricity customers, has an electric power network that includes close to 6,500 high-voltage...
Smart Transformers
Maximizing continuous and reliable power output, extending the life of a power transformer, and reducing maintenance costs are just a few of the benefits motivating electric utilities to move toward buying a “smart transformer”, electrical equipment integrated with Smart Grid-enabling software...
New Complex Windings Configuration Set Up In Magnetic Programs
Read the full article in our Transformer Technologies Special Edition
Special Power: ‘Flexible Transformer’ Could Become The Grid’s New Superhero
The world is mobilizing to meet net-zero emission targets over the coming decades, and it seems that everywhere you look, countries are erecting wind turbines in the fields and off the coasts, switching from coal to natural gas, adding hydropower storage, and studying the next generation of nuclear...
Major Utility Implements Innovative Approach to Transformer Health Assessment with Reliability-based Dissolved Gas Analysis
One of the largest U.S. electric power utility companies, with nearly 50,000 megawatts of generating capacity,over 36,000 miles of high-voltage distribution lines, and over 7 million retail electricity customers, has an electric power network that includes close to 6,500 high-voltage...
Hydrogen Monitoring in the Transformer Headspace Compared to Traditional In-Oil Monitoring
By Chris Rutledge, Product Manager, Dynamic Ratings, Inc. Introduction The utilization of online dissolved gas analysis monitoring has proven to be one of the most effective predictors of overall transformer health and condition. A wide range of monitoring systems are available, offering multiple...
The Distribution Transformer - Critical Power System Component
By R.W. Hurst, Editor A distribution transformer is a critical component of the electrical power system, used to reduce the voltage of electrical energy for electric power distribution to end-users. It plays a vital role in voltage regulation and load management, ensuring the efficient and reliable...
Grounding Transformers Explained
By R. W. Hurst, Editor Grounding transformers are used to provide a path to ground for unbalanced load current and for fault currents on systems where a suitable ground is otherwise not available. Grounding transformers are normally constructed with one of the two configurations: Zig-Zag (Zn) with...