The New York Power Authority is leading a study to validate a technique that could potentially help the utility industry digitally monitor transformers to better detect problems without taking the units out of service, it said on Feb.22.
The research, co-led by New York University Tandon School of Engineering (NYU Tandon) and supported by a nearly $190,000 grant from the New York State Energy Research and Development Authority, will result in a detector prototype that will be tested in NYPA’s Advanced Grid Innovations Laboratory for Energy (AGILe), a simulation facility that helps develop new technologies and demonstrate new solutions for energy systems.
The study is intended to bring a technique that has proven effective in a university setting a step closer to industry adoption. The new technique has been validated by computer simulation and bench testing on small transformers.
“Unique research collaborations like this one with NYU Tandon, supported by NYSERDA, enable the Power Authority and New York State to innovate and modernize its electric grid for the benefit of all New Yorkers,” said Justin Driscoll, NYPA’s president and CEO. “As we upgrade our transmission system and plan the grid of the future, it is research like that this that will enable us to monitor and update our transformers so that the state power system is reliable and efficient.”
The prototype will be built by NYU Tandon and tested in NYPA’s AGILe lab.
AGILe simulates portions of New York State’s transmission grid and tests the impact of technologies and systems such as distributed energy resources, electric vehicles, energy storage, cyber security, sensors and automation.
The study will build 3D models for large power transformers and simulate deformations of the winding disks.
“The idea is to monitor online and continuously the voltage and currents of the transformer, and accurately calculate the leakage impedance of the transformer based on those measurements,” NYPA said.
The proposed platform will then send an alarm to the operator when the transformer leakage reactance has changed more than the recommended 3% by Institute of Electrical and Electronics Engineers standards. This enables early detection of deformation in transformer windings due to forces and stresses from the short circuit events, NYPA noted.
“We believe power utilities will be more open to adopting this technology if the concept is tested in an industry lab,” said Alan Ettlinger, NYPA’s senior director of Research, Technology Development and Innovation. “Through this study, we hope to be able to give utilities confidence that this technique is reliable and will work for full-size transformers in the field.”
Normally transformers need to be taken out of service for a Frequency Response Analysis test to be performed.
“The proposed winding deformation detection technique would avoid disrupting the system operation, which is an expensive process. If successfully implemented, this new technology would avoid the cost of taking transformers offline to perform diagnostics to detect winding deformation, saving approximately $15,000 per day as well as preventing the cost of larger equipment failures that can cost up to $1.5 million per incident,” NYPA said.
NYSERDA’s Electric Power Transmission and Distribution Future Grid Challenge program supported the project with funding from a New York State Clean Energy Fund. Projects awarded under this initiative help establish a pathway for products and services to gain market entry by addressing existing technical and economic barriers within a specific challenge area associated with creating a high-performing, future grid.
If the NYPA-NYU project is successful, future phases could focus on field demonstration and commercialization.