Grid-connected photovoltaic power system

A grid-connected, residential solar rooftop system near Boston, USA

A grid-connected photovoltaic power system, or grid-connected PV power system is an electricity generating solar PV power system that is connected to the utility grid. A grid-connected PV system consists of solar panels, one or several inverters, a power conditioning unit and grid connection equipment. They range from small residential and commercial rooftop systems to large utility-scale solar power stations. Unlike stand-alone power systems, a grid-connected system rarely includes an integrated battery solution, as they are still very expensive. When conditions are right, the grid-connected PV system supplies the excess power, beyond consumption by the connected load, to the utility grid.[1]

Operation

Residential, grid-connected rooftop systems which have a capacity more than 10 kilowatts can meet the load of most consumers.[2] They can feed excess power to the grid where it is consumed by other users. The feedback is done through a meter to monitor power transferred. Photovoltaic wattage may be less than average consumption, in which case the consumer will continue to purchase grid energy, but a lesser amount than previously. If photovoltaic wattage substantially exceeds average consumption, the energy produced by the panels will be much in excess of the demand. In this case, the excess power can yield revenue by selling it to the grid. Depending on their agreement with their local grid energy company, the consumer only needs to pay the cost of electricity consumed less the value of electricity generated. This will be a negative number if more electricity is generated than consumed.[3] Additionally, in some cases, cash incentives are paid from the grid operator to the consumer.

Connection of the photovoltaic power system can be done only through an interconnection agreement between the consumer and the utility company. The agreement details the various safety standards to be followed during the connection.[4]

Features

Solar energy gathered by photovoltaic solar panels, intended for delivery to a power grid, must be conditioned, or processed for use, by a grid-connected inverter. Fundamentally, an inverter changes the DC input voltage from the PV to AC voltage for the grid. This inverter sits between the solar array and the grid, draws energy from each, and may be a large stand-alone unit or may be a collection of small inverters, each physically attached to individual solar panels. See AC Module. The inverter must monitor grid voltage, waveform, and frequency. One reason for monitoring is if the grid is dead or strays too far out of its nominal specifications, the inverter must not pass along any solar energy. An inverter connected to a malfunctioning power line will automatically disconnect in accordance with safety rules, for example UL1741, which vary by jurisdiction. Another reason for the inverter monitoring the grid is because for normal operation the inverter must synchronize with the grid waveform, and produce a voltage slightly higher than the grid itself, in order for energy to smoothly flow outward from the solar array.

Anti-islanding

Diagram of a residential grid-connected PV system
Main article: Islanding

Islanding is the condition in which a distributed generator continues to power a location even though power from the electric utility grid is no longer present. Islanding can be dangerous to utility workers, who may not realize that a circuit is still powered, even though there is no power from the electrical grid. For that reason, distributed generators must detect islanding and immediately stop producing power; this is referred to as anti-islanding.

In the case of a utility blackout in a grid-connected PV system, the solar panels will continue to deliver power as long as the sun is shining. In this case, the supply line becomes an "island" with power surrounded by a "sea" of unpowered lines. For this reason, solar inverters that are designed to supply power to the grid are generally required to have automatic anti-islanding circuitry in them. In intentional islanding, the generator disconnects from the grid, and forces the distributed generator to power the local circuit. This is often used as a power backup system for buildings that normally sell their power to the grid.

There are two types of anti-islanding control techniques:

Advantages

Disadvantages

See also

References

  1. 1 2 Elhodeiby, A.S.; Metwally, H.M.B; Farahat, M.A (March 2011). "PERFORMANCE ANALYSIS OF 3.6 KW ROOFTOP GRID CONNECTED PHOTOVOLTAIC SYSTEM IN EGYP" (PDF). International Conference on Energy Systems and Technologies (ICEST 2011): 151–157. Retrieved 2011-07-21.
  2. "Grid Connected PV Systems". Acmepoint Energy Services. Retrieved 28 April 2015.
  3. "Homeowners Guide to Financing a Grid-Connected Solar Electric System" (PDF). DOE Office of Energy Efficiency & Renewable Energy. Retrieved 28 April 2015.
  4. "Grid Connected Solar Electric - Photovoltaic (PV) Systems". powernaturally.org. Retrieved 2011-07-21.
  5. "Grid-interactive Solar Inverters and Their Impact on Power System Safety and Quality" (PDF). eng.wayne.edu. p. 30. Retrieved 2011-06-10.
  6. "Grid-connected photovoltaic system" (PDF). soe-townsville.org. Retrieved 2011-07-21.
  7. "International Guideline For The Certification Of Photovoltaic System Components and Grid-Connected Systems". iea-pvps.org. Retrieved 2011-07-21.
  8. Steffel, Steve. "Challenges for Distribution Feeder Voltage Regulation with Increasing Amounts of PV" (PDF). DOE Office of Energy Efficiency & Renewable Energy. Retrieved 28 April 2015.
  9. "MIT Study on the Future of the Electric Grid" (PDF). MIT Energy Initiative. MIT. Retrieved 28 April 2015.
  10. Kaur, Gurkiran (2006). "Effects of Distributed Generation (DG) Interconnections on Protection of Distribution Feeders". Power Engineering Society General Meeting, 2006. doi:10.1109/PES.2006.1709551. Retrieved 28 April 2015.
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