Optimizing Power Generation with ANSYS Emag at Kato Engineering
Technology Category
- Sensors - Voltage Sensors
Applicable Industries
- Electrical Grids
- Telecommunications
Applicable Functions
- Product Research & Development
- Quality Assurance
Use Cases
- Manufacturing System Automation
Services
- Testing & Certification
About The Customer
Kato Engineering is a division of Emerson Industrial Automation's Leroy Somer North America. The company, founded in 1926, designs and manufactures a complete line of precision-engineered, high-quality AC generators, motor-generator sets, and controls for prime, standby, and peak-shaving power generation. Kato Engineering employs about 325 people in its design and manufacturing facility in North Mankato, Minnesota. The company's generators are used worldwide in various industries, including oil, gas, coal, copper, iron ore, and lumber extraction. They also power ships, freighters, locomotives, aircraft, and mass transit systems. In addition, Kato generators are relied upon in places where dependable, controllable electric power is needed, such as hospitals, computer centers, and telecommunications stations.
The Challenge
Kato Engineering, a company that designs and manufactures a complete line of precision-engineered, high-quality AC generators, motor-generator sets, and controls for prime, standby, and peak-shaving power generation, faced a significant challenge. The subtransient reactance of an electrical generator, which is the generator internal impedance element that is effective during the first few cycles of a transient load event, was difficult to predict. This reactance is typically determined through factory testing of new generator designs after the design process is finished. This method was not only time-consuming but also inefficient as it delayed the identification of potential issues until after the design process was completed.
The Solution
To address this challenge, Kato Engineering turned to ANSYS Emag. This software was used to predict the subtransient reactance using two-dimensional transient circuit-coupled electromagnetic analysis. This allowed for the early prediction of the subtransient reactance, thereby eliminating the need for post-design factory testing. In addition to this, other key generator characteristics such as the open-circuit saturation curve and output voltage signal harmonic distortion were evaluated. Custom macros using the ANSYS Parametric Design Language (APDL) were developed to model the four-pole generator. This solution allowed Kato Engineering to understand the key generator characteristics at an early stage in the design process before physical prototypes were created.
Operational Impact
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