Providing back-up power solutions during load shedding is an important part of any South African business’s security strategy. Despite the difficulty in determining which option is best, load shedding solutions by supplying inverters is both efficient solutions for keeping your business running during blackouts. However, the two devices differ in terms of size, capacity and functionality, so it is important to consider the needs of your organization when choosing the best solution.
Keeping effective security system features operational during load shedding
If your business is located in a region that experiences frequent power outages, such as South Africa, you may find it helpful to install a UPS system to keep critical electronic equipment running. However, the use of UPS solutions can also be problematic because they can cause a delay in the supply of electricity. In this case, an inverter system is a more appropriate option. In addition, an inverter will help prevent any damage to electrical equipment caused by power surges.
While UPS systems are an effective, environmentally-friendly way to protect your equipment from sudden electricity surges, the inverter can maintain the functionality of certain security features for longer periods of time. A good inverter will also have a larger battery bank than a UPS, meaning it will be able to run longer during a load shedding.
Load shedding has a negative impact on the safety of a building, so you will need to make sure that your security system is able to run even during long periods of load shedding. A security system that provides a reliable electrical supply can help you prevent crime and ensure your property is secure.
Buying a backup inverter on a limited budget
If you are on a budget and want to have backup power for your home or business, you can purchase a backup inverter with backup batteries. This can be more affordable than a diesel generator and a better option for people who are tired of power cuts.
Inverters come in a variety of types, and they can cost anywhere from a few hundred to several thousand rands. The typical home inverter will provide backup for your television, lights, Wi-Fi, laptop, or PC. The type of inverter is not particularly important, but you should look for one with a long warranty.
A backup power system can be a standalone system or can be automated. The size of the backup power system depends on how much power you need. Generally, it should be less than your power consumption. If you do need more power than this, you can build a power bank. This is a combination of multiple batteries with a higher capacity.
Storage of backup inverters
Regardless of the size of your business, you should consider installing backup inverters to provide uninterrupted power during times of load-shedding. These devices convert energy from one form into another and can be used for a variety of appliances. When you’re choosing a backup inverter, you should consider the number of electronic devices that will need to be powered, which will determine the size of the backup system.
Backup inverters come in several different types, and different models have different benefits and pitfalls. Some provide a single, three-phase, or five-phase backup. Others can provide off-grid solutions. Whichever you choose, you can be sure that the inverter will be able to provide power for your home or office for an extended period.
If you’re concerned about how to store your backup inverters, you’ll want to find an area that is well ventilated and free of any obstacles. Make sure your backup inverters aren’t too far away from any electrical devices, as they may need to be kept cool.
Using a 10-kWh battery as a backup power supply
A 10-kWh battery can provide enough power to run some appliances at once. This includes a refrigerator, lights, Wi-Fi router, and a security gate. It also can power some small devices like a microwave oven. It will run for up to 10 hours on a full charge. This means that even if you lose power for an hour or two, you can still keep using your appliances.
A battery backup system is a convenient and cost-effective solution for load shedding. It provides power for basic applications for up to two to four hours when power is cut. The price of a battery backup system varies according to the amount of power your household needs. For a low-usage household, a system could cost up to R70,000; for a medium-sized household, R95,000 to R120,000. Typically, a battery backup system wires directly into the DB board, providing seamless power switchover to backup power during a load-shedding situation.
To estimate the amount of power your appliances require during load shedding, you can calculate your daily power consumption in kilowatt-hours. If you plan on running power-hungry appliances, you’ll need a higher capacity battery. Typically, a 10-kWh battery will provide enough power for these appliances during a load-shedding event. However, you should also consider the size of the battery to be purchased and where it will be stored.