Solar Market Outlook in Armenia
The solar market industry in Armenia is strong and has showcased consistent growth over the past decade or so. In 2014, the government launched the Scaling Up Renewable Energy Program for Armenia (SREP Armenia) as part of its commitment to promote renewable energy sources.
This new program serves as an update to the Renewable Energy Roadmap that was launched in 2011. It specifies the targets for the deployment of renewable energy infrastructure in response to the aging conventional energy infrastructure in the country. At the same time, the government wanted to boost the country’s energy security, while also lowering the risk for potential renewable energy investors.
The target for the Armenian government is to achieve 26% of total power generation in the country from renewable sources. When it comes to the solar power market, it has been given a boost by the widespread use of solar farms. In 2019, the first micro solar farm was installed in Armenia and it produced one MW of power with the capacity to be expanded with an additional 0.5 MW of solar power. This solar farm paved the way for more solar installations in the country while also providing more jobs to the locals.
Solar Energy Equipment Supply Capacity in Armenia
There are plenty of solar panel and equipment manufacturers in Armenia, providing a variety of options for consumers and businesses looking to switch to solar power. There is also access to many other distributors and suppliers in neighboring European countries.
Top 8 Major Seaports & Logistics in Armenia
Ports are vital to the economy of Armenia since this is one of the ways that goods are traded and transported in and out of the country. The same goes for solar power equipment.
There are a few seaports available in Armenia for transporting solar equipment namely
When installing a solar panel system, you have to be familiar with the electric breakers and how it works with a solar PV system to avoid future electric problems. The electric breaker is one of the main components of a solar power system that provides safety mechanisms. If ever the electrical wiring of your system has too much current flowing through it, these breakers can easily cut the power until your solar installer can fix the system’s problem.
For today’s article, we will discuss electric breakers and their function in solar photovoltaic systems.
What is an Electric Breaker?
An electric or circuit breaker is an electrical switch designed to protect electrical circuits from damage caused by overloading of current or a short circuit. The basic function of an electric breaker is to prevent the current flow once protective relays detect a fault in the system.
Although it is frequently interchanged with a fuse, which is the simplest Over Current Protection device (OCPD) in electrical circuits, a circuit breaker, is a much-evolved type of device that interrupts the current flow. The main difference between the two is electric breaker is resettable and the fuse is not. The fuse sacrifices itself while protecting the system to overheat, while the circuit breaker can withstand hundreds and thousands of operations. Another difference is that electric breakers are used with relatively higher currents.
Components of Circuit Breaker
A circuit breaker system is composed of three parts. These three components are the sensing system, relay, and the combination of contacts and the contact actuator. A sensing system is responsible for detecting an overload situation, while a relay is responsible for transferring the information to the switching arrangement, and the combination of contacts and the contact actuator. This electric arrangement is usually observed in power transmission and distribution networks dealing with very high currents, voltages, and powers.
Circuit Breakers Calculation in Solar Panel Systems
When connecting circuit breakers to the PV system, you have to follow the recommended calculations to avoid future problems and damage to the entire system. The recommendations for using overcurrent protection devices including circuit breakers in solar modules against overloading conditions are given in IEC 60269-6 (volume 6 of IEC 60269-6) and also UL 248-19.
For circuit breakers, IEC recommends a 20% and 25% margin in voltage and overload current. Most of the time, the ratings are specified by the solar manufacturers at given ambient conditions. If the temperatures exceed this given value, derating must be applied according to the manufacturer’s specifications.
When it comes to breaker sizes for solar panels, NEC requires the breakers to be sized at 125% of the inverter’s rated output. So a 7680W inverter that outputs 240V, outputs 32A (7680W ÷ 240V = 32A). That requires a 40A breaker (32A x 125% = 40A).
If you owned a solar panel system at home, you have to understand how circuit breakers work to prevent catching fires at home. These devices are one of the major components of the PV solar system as they protect the system wiring from getting too hot and accidentally catch fire if short circuits occurred. Thus, understanding the breaker itself and its proper calculations in the PV system should be done.