Solar Market Outlook in Nicaragua
Nicaragua is constantly battered by extreme weather, which has forced the government to look into renewable sources as an alternative for energy production. The focus on renewable energy projects is part of a long-term plan for the government to counter the effects of climate change. Therefore, it is part of a broader discussion that will hopefully put solar power as one of the potential solutions.
There are other benefits to the continued push to make solar energy the primary source of power in the country: to reduce dependence on oil. Aside from solar energy, wind power is also currently being utilized in Nicaragua and is going through a phase of developmental boom.
While the primary reason for many investors delving into the renewable energy market is economically-motivated, it’s clear that the environmental benefits are set to follow. Therefore, the government is working closely with the private sector to boost the solar energy market in Nicaragua.
Currently, Nicaragua’s global emissions are one of the lowest at only 0.03 percent. The country is committed to reducing it further, especially as they joined the Paris Agreement.
Solar Energy Equipment Supply Capacity in Nicaragua
In Nicaragua, there is a good mix of local and global suppliers of solar power equipment. This has promoted more investors to put in solar power plants and production of other equipment for those looking to boost the solar installation capacity of the country.
Major Seaports & Logistics in Nicaragua
Puerto Corinto is the largest and busiest seaport in Nicaragua. It is the primary avenue for logistics and handling of goods for the distribution of solar equipment in the country.
There are a few other seaports that are available, too, such as the Port of Bluefields, Port of El Bluff, Port of Cabezas, Port of Sandino, Port of El Rama, and Port of San Juan del Sur.
Ground Fault Protection Devices
What are Ground Fault Protection Devices and Detectors?
Ground Fault Protection Devices and Detectors help people to rectify the faults that arise from ground faults. Ground faults are nothing but the inability of the grounding system to pass the extra current to earth.
Earthing is a common practice for all types of electrical systems. Earthing or grounding connects a conductor to the earth and protects the system from damage due to high current or voltage.
In large Solar arrays, grounding faults cannot be manually detected to their large size. Therefore devices and detectors are used to get warnings or alarms whenever there is a discontinuity in the grounding conductor. Timely detection of faults can save costly equipment and protect people from accidents.
Where are Ground Fault Protection Devices and Detectors used?
Ground Fault Protection Devices and Detectors are used in electric systems like Solar Plants with Solar panels or arrays.
Advantages of Ground Fault Protection Devices and Detectors
- Can be applied to single and multi controllers.
- Protects active devices like batteries and transformers.
- Used in place of fuses
- Complete isolation of the Solar Arrays or panels happens upon fault detection.
- Ground faults are easily traced
- Minimal battery power is required
- Compatibility with all kinds of PV arrays
How do Ground Fault Protection Devices and Detectors work?
Ground Fault Protection Detectors measure the voltage between the terminal and the ground potential. Based on the reading the fault is located. If the voltage is high in the grounded portion then the Ground Fault Protection Device acts as a circuit breaker to protect any hazard from happening.
What are some branded Ground Fault Protection Devices and Detectors?
GE is one of the biggest names in electrical instrumentation. GE makes grounding systems to protect the system from high current and voltage damages. Some other brands are
- NK Technologies
- Rockwell Automation
- Steven Engineering
- American Sun Components
- North Coast Electric Co.