Solar Power Generators
Solar power generators integrate photovoltaic panels, MPPT charge controllers, pure sine wave inverters, and lithium-ion battery storage to deliver off-grid backup power, efficient DC-AC conversion, and scalable kWh capacity for portable and residential systems.
Solar Power Generators Explained: What You Need to Know
Generators
A key component of off‑grid systems is the generator (Figure 1). Generators (also referred to as'en‑sets") are used to charge batteries during periods of low insolation. They are also used to equalize batteries and to provide power when extraordinary loads are used ‑ for example, welders ‑ that would exceed the output of the inverter. Finally, gen‑sets may be used to provide backup power if the inverter or some other vital component breaks down. Although a battery‑charging gen‑set may not be required in hybrid systems with good solar and wind resources, most off‑grid homes and businesses have one.
For a holistic view of how gensets support storage and load management, review this primer on off-grid solar power systems to see where backup generation typically fits.
Gen‑sets for homes and businesses are usually rather small, around 4,000 to 7,000 watts. Generators smaller than this are generally not adequate for battery charging.
Proper sizing also depends on the charger and inverter, and guides on solar power inverters can help align generator output with battery charging requirements.
Generators can be powered by gasoline, diesel, propane, or natural gas. By far the most common gen‑sets used in off‑grid systems are gasoline‑powered. They're widely available and inexpensive. Gas‑powered generators consist of a small gas engine that drives the generator. Like all generators, they produce AC electricity.
In many hybrid renewable energy systems, fuel choice is balanced against maintenance, emissions, and fuel logistics to keep overall lifecycle costs reasonable.
Fig.1: Portable gen‑sets like these commonly run on gasoline.
Gas‑powered generators operate at 3,600 rpm and, as a result, tend to wear out pretty quickly. Although the lifespan depends on the amount of use, don't expect more than five years from a heavily used gas‑powered gen‑set. You may find yourself making an occasional costly repair from time to time as well.
When paired with a well-designed solar PV system, generator runtime and wear can drop substantially during high-insolation seasons.
Because they operate at such high rpms, gas‑powered gen‑sets are also rather noisy; however, Honda makes some models that are remarkably quiet (they contain excellent mufflers). If you have neighbors, you'll very likely need to build a sound‑muting generator shed to reduce noise levels, even if you do install a quiet model. And don't think about adding an additional muffler to a conventional gas‑powered generator. If an engine is not designed for one, adding one could damage it.
Homeowners evaluating acoustic impacts often weigh the pros and cons of solar power as a way to offset run hours and neighborhood disturbance.
If you're looking for a quieter, more efficient generator, you may want to. consider one with a natural gas or propane engine. Large‑sized units ‑ around 10,000 watts or higher ‑ operate at 1,800 rpm and are quieter than their less expensive gas‑powered counterparts. Lower speed translates into longer lifespan and less noise. Natural gas and propane are also cleaner burning fuels than gasoline. Unlike gas‑powered generators, natural gas and propane generators require no fuel handling by you, but you could end up paying several times more for a natural gas or propane generator than for a comparable gas‑powered unit.
These fuels are common in standby configurations within broader alternative energy systems, especially where fuel delivery is reliable year-round.
Another efficient and reliable option to consider is a diesel generator. Diesel engines tend to be much more rugged than gas‑powered engines and tend to operate without problems and for long periods. Diesel generators are also more efficient than gas‑powered generators. Although diesel generators offer many advantages over gas‑powered generators, they cost more than their gas‑powered cousins. And, of course, you will have to fill the tank from time to time. They're also not as clean burning as natural gas or propane gen‑sets.
Comparing generator options alongside storage upgrades and PV expansion is a core consideration in renewable alternative energy planning for remote sites.
