adplus-dvertising
frame-decoration

Question

What is the primary purpose of phasor measurements in the context of the electrical grid?

a.

To assess the cost-effectiveness of power generation

b.

To measure real-time energy consumption

c.

To obtain representations of the magnitude and phase angle of electrical waves

d.

To predict future power outages

Posted under Big Data Computing

Answer: (c).To obtain representations of the magnitude and phase angle of electrical waves Explanation:Phasor measurements obtain representations of the magnitude and phase angle of electrical waves, helping assess the stability of the electricity grid.

Engage with the Community - Add Your Comment

Confused About the Answer? Ask for Details Here.

Know the Explanation? Add it Here.

Q. What is the primary purpose of phasor measurements in the context of the electrical grid?

Similar Questions

Discover Related MCQs

Q. How does the use of phasors contribute to increased power quality in the electrical grid?

Q. What equipment is required for the phasor measurement process, and why is it considered expensive?

Q. What is the main aim of load management in the context of electricity production and consumption?

Q. How does time-driven metering (TDM) differ from high-frequency sampling in electricity monitoring?

Q. How frequently do meters in the smart grid communicate electricity quantities to the utility company?

Q. What attributes are typically included in metering data packets?

Q. Why is the raw format of metering data rarely used in practice?

Q. What is the challenge posed by operating subsecond sampling in electricity distribution grids?

Q. What is the primary role of smart metering in power systems using renewable energy sources (RES)?

Q. How does the predictability of photovoltaic and wind energy production affect load balancing?

Q. What are some potential options for reducing data volumes from electricity meters in the smart grid?

Q. What does event-driven metering (EDM) focus on to reduce data volumes in metering?

Q. In the context of EDM, what defines an event?

Q. How does the EDM method handle energy variations in metering data?

Q. What are the conditions for an event to be detected in the EDM method?

Q. How does EDM change the timing of data transmission compared to frequent TDM?

Q. What is the primary advantage of EDM over TDM in terms of data volumes?

Q. How is data transmission handled in EDM regarding polling requests from the grid side?

Q. What is one of the main advantages of EDM over TDM in terms of information flow?

Q. How does the time-wrapping/compression property of EDM impact data analysis?