The Power Network Demonstration Centre (PNDC), a smart grid demonstration and testing facility, carried out an independent third-party validation of the Faraday Exchanger. The tests carried out by PNDC reconfirmed that the Faraday Exchanger does offer the intended functionalities (voltage regulation, power-factor correction and power-quality control) that are beyond what can be provided by one single technology to utilities and end-users of electricity. This means that wide adoption of the FG technology will result in improved power quality and reliability, increased equipment lifetime, and reduced-capital investment in mitigation technologies. Employing the key findings from PNDC validation report, this whitepaper by Jagadeesh Gunda summarises the capabilities of the Faraday Grid technology.
WHITE PAPER ATTACHED
Voltage dips are the most common supply disturbances that cause interruptions in production plants.
The engineers at Faraday Grid conducted tests on RMS and instantaneous voltage signals from a conventional transformer and a Faraday Exchanger and compared the effects of a voltage dip on both signals.
In the current hardware of electricity systems, the supply-demand-balance has a very important implication for maintaining the system’s frequency, which needs to be stable each second of the day for the system to function properly. Non-standard frequencies can harm both transformers and appliances in people’s homes. As the energy mix changes, the feasibility of utility-scale photovoltaics as a frequency response is an area of current interest and research. The Faraday Grid resolves short-term balancing issues by modulating power flows to reduce their noise, dynamically managing the voltage and the frequency in the electricity grid in doing so.