The Complete Guide to Grid-Connected Renewable Energy Systems

The transition from burning fossil fuels like coal and natural gas to generate electricity to renewable energy sources like wind, hydropower, and solar is a global priority.

Both on the power grid and industrial level — and on a much smaller scale.

Solar photovoltaics are by far the most widely used grid-connected renewable energy system for residential use. 

But for some homeowners, small wind turbines and micro-hydropower may be viable alternatives.

What grid-tied electricity generation system is the best choice for you?

Read on to find out.

What Are Grid-Connected Renewable Energy Systems? 

All currently available sources of renewable energy are, by nature, intermittent.

Turbines don’t generate electricity when there’s no wind.

Solar panels don’t work at night.

Intermittency is a challenge both at the residential level and at a utility scale.

Wind farms, hydro turbines and solar farms generate massive amounts of electricity to feed the power grid. 

Utilities must either store the electricity that solar panels and turbines produce for times when demand or supply or supplement renewable energy with nuclear power or fossil fuels.

You’ll face a similar challenge if you want to switch to generating all or part of your household electricity with renewable energy.

One option is to store the electricity you generate with solar panels or a small wind turbine in batteries for later use.

The other alternative is to connect your clean residential system to the utility grid.

How Do Grid-Connected Renewable Energy Systems Work?

Residential solar power, small wind energy, and micro-hydropower systems solve the challenge of intermittency by connecting to the utility grid.

The mechanics of how solar, wind, and hydropower systems connect to the grid differ based on the type of system you choose.

But the basic principles are the same.

For example, with a residential photovoltaic (PV) solar power system, your home runs on the electricity captured by PV modules, like solar panels or shingles.

When your consumption exceeds the electricity supply from your solar power system, a bidirectional meter or transfer switch automatically toggles to draw electricity from the grid. 

In some locations, you may be eligible for net metering schemes.

(Source: Vermont.gov)

Net metering is a billing mechanism that allows you to sell and transmit the electricity you don’t consume directly to the grid.

In Australia, it’s frequently known as “feeding in.”

Feed-in tariffs aren’t available everywhere, but if you shop around, you can likely find a power company that offers a net metering scheme.

AER’s Energy Made Easy website is a free independent resource that can help you choose the right electricity company and plan for your needs.    

Feeding in is unlikely to turn a profit, but it can reduce the cost of electricity consumed from the grid and decrease your solar payback period.

Grid-connected renewable energy systems typically cost less upfront than off-grid power solutions.

Unfortunately, no matter which type of on-grid system you choose, they all have a substantial drawback.

Grid-tied solar, wind, and hydroelectric systems automatically shut down during a blackout and must remain offline until power is restored to the grid.

If one of the reasons you’re investing in clean, renewable power is to provide home energy security for you and your family, a hybrid solar system with battery backup is a much better solution than being tied to the grid. 

Different Types of Grid-Connected Systems

For most individuals, families, and small businesses, solar photovoltaic grid-tied, hybrid, or off-grid systems are the best choice for generating electricity from a renewable energy source. 

However, depending on your location and other factors related to your property, small wind turbines or micro-hydropower could be viable options.

All three types of systems may be eligible for federal and state government incentives.

Let’s take a closer look.

(Source: Energy.gov)

Micro-Hydropower

If you have a river or other fast-moving body of water running through your property, a small hydropower system may be able to power at least part of your home.

Micro-hydropower systems can produce up to 10 kilowatts of electricity, but according to the US Dept. of Energy, most “generate up to 100 kilowatts.”

Micro-hydropower turbines and generators are typically sold as a package by professional installers.

(Source: NREL)

Small Electric Wind Systems

Wind is an abundant resource in Australia, and utility-scale turbine farms generate an increasingly significant portion of the nation’s electricity.

However, small wind electric systems for residential or small business use are only viable for a tiny segment of property owners.

The US Department of Energy estimates that you need a minimum of one acre of unobstructed land to install a wind turbine that has the potential to produce 5kW-15kW of electricity output.

That pretty much rules out anyone in urban areas.

Even on large plots of land, zoning and building permissions for wind turbines are strict for many reasons, including the elevation required and the substantial footprint.

If none of the above restrictions apply, a small electric wind system could be a workable option.

Solar Photovoltaic

At the utility-grid level, wind and hydropower generate more electricity than solar photovoltaic by a considerable margin.

Electricity Generation in Australia, by Source (2023, in Terawatt Hours)

(Source: energy.gov.au) 

However, when it comes to residential clean energy systems, it’s not even close.

A recent Guardian (UK) article said, “It’s difficult to overstate how rapidly Australians have embraced solar power — there’s now more rooftop solar than coal-fired power.”

According to The Clean Energy Council’s Solar and Storage H2 2023 Report: “Rooftop solar now accounts for 11.2 per cent of Australia’s electricity supply.”

Small wind energy and micro-hydropower systems provide only a fraction of the electricity that rooftop solar panels generate for homes. 

“The sheer scale and pace of rooftop solar in Australia is unparalleled anywhere else in the world due to an abundance of sunshine and the inherent benefits, including lower energy bills and feed-in tariffs,” said Con Hristodoulidis, Policy Director of Distributed Energy.

As the price of solar power systems continues to fall and electricity bills rise, the return on investment can be substantial. 

The popularity of solar photovoltaic systems for residential applications is largely due to their ease of installation, affordability, flexibility, and minimal regulations regarding their use.

Unlike small wind turbines and micro-hydro systems, many off-grid and hybrid solar power solutions don’t require professional installation or permission from government agencies.

However, all grid-connected renewable energy systems require professional installation and the cooperation of your power company.

We’ll get into the various additional requirements for each type of system below.    

What Equipment Is Needed for Grid-Connected Renewable Energy Systems?

All renewable energy systems require:

• Adequate supply of the requisite power source: wind, hydro, or sunlight
• A means of capturing energy: e.g., wind and hydro turbines or solar panels
• Balance of system to convert mechanical, rotational, or photovoltaic power into electricity and condition it for use by the consumer and (potentially) to be sent back to the grid
• A reliable connection to the utility grid
• Safety equipment
• A net meter, bidirectional meter, smart meter, or other instrument compliant with your utility provider
• Zoning and building permits

The actual components used in each type of system vary by energy source.

Here’s a summary of the typical components used in each.

Micro-hydropower System Components

• Water conveyance: A channel or pipeline to intake water and deliver it to the powerhouse
• Turbine, pump, or waterwheel: Captures rotational energy from flowing water
• Alternator: Transforms rotational power into direct current (DC) electricity
• Inverter: Converts DC to 120V or 240V AC (household) electricity
• Regulator: Monitors and controls the generator
• Cables and wiring: Transmits electricity to your home  

(Source: Green Mechanic)

Small Wind Electric System Components

As the diagram above shows, even small horizontal wind turbines have a substantial number of components.

Rather than describing what each individual part does, let’s focus on the essentials.

• Blades and rotor: The distinctive propeller-shaped turbine blades and rotor are spun by the wind to produce mechanical energy. 
• Pitch
• Brakes
• Low-speed shaft
• Gearbox
• Alternator (Generator): The alternator (or generator) works in a similar way to its equivalent in hydroelectric systems. It converts mechanical energy into electricity. 
• Wind vane
• Nacelle
• High-speed shaft
• Yaw drive
• Yaw motor
• Tower: To take advantage of the wind resource at your location and make a small wind electric system viable, the US DoE says, “Your turbine needs to be sited upwind of any buildings and trees, and it needs to be 30 feet above anything within 300 feet.”

Solar Photovoltaic System Components

• Photovoltaic modules (solar panels or shingles): PV cells — typically made from monocrystalline or polycrystalline silicon — capture sunlight and transform it into electricity using the photovoltaic effect. 
• Solar Inverter
• Solar battery*: Stores DC electricity for when your consumption exceeds production and for backup power during a blackout. Sealed lead acid (SLA), lithium-ion (Li-ion), and lithium iron phosphate (LiFePO4/LFP) solar battery chemistries are the most common, with LFP offering the best performance.
• Charge controller*: Regulates storage, prevents under and overcharging, and optimises battery efficiency
• Battery management system*: Maximizes battery performance and lifespan.
• Transfer switch or Smart Home Panel for integration with your home circuit board
• Auto-disconnect for power outages (or auto-switchover for hybrid systems)
• Bidirectional or smart meter
• Mounting hardware for rigid solar panels
• Cables and wiring

*For hybrid solar + storage systems

What Are the Planning and Installation Requirements for Grid-Connected Renewable Energy Systems?

Connecting a wind, hydro, or solar power system to the utility grid has its benefits.

It resolves the challenge of the intermittent nature of renewable energy sources — except during blackouts.

The fact that all grid-connected renewable energy systems must either shut down or auto-switch to battery power during an outage clearly indicates the dangers of an unstable or faulty connection to the utility grid.

Most grid-connected renewable energy systems are bidirectional.

You consume power from the grid when your electricity product is insufficient, AND you transmit electricity to the utility when you generate more than you need.

If you don’t supply electricity to the grid through dual metering or feeding-in, any excess power your system produces simply goes to waste.

In a blackout, electricity transmitted through the power lines from grid-tied systems could injure or kill workers trying to restore power or cause further damage to the utility infrastructure.

Off-grid and hybrid solar generators and portable power stations don’t require a direct connection to the grid and, in many instances, don’t require the involvement of your utility provider or planning authorities.

However, bidirectional grid-connected renewable energy systems are strictly regulated and typically require power company approval, building permits, and zoning permission.

Regulations vary by location, but here’s a brief overview of what you can expect.

Requirements for Micro-hydropower Systems

If you have a river or other fast-moving body of water flowing through your property, micro-hydro might be an option — if local regulations allow it.

(Source: Natural Resources Canada)

You can estimate the amount of electricity you can generate from flowing water on your property by measuring the following:

• Head: The height water falls from
• Flow: The volume of water falling

There are numerous ways to determine the head and flow at your occasion, including the weighted-float or the bucket method.

Once you’ve determined your electricity generation capacity, you can assess whether investing in micro-hydropower makes economic sense.

Be sure to factor in any available government incentives.

If the numbers add up in your favour, you’ll still have to do a considerable amount of legwork.

Unfortunately, most parts of Australia don’t have sufficient fast-running water sources to make microhydro viable for homeowners.

Luckily, we have bountiful supplies of sunlight and wind!

(Source: Creative Commons) 

Requirements for Small Wind Energy Systems

The two biggest requirements for residential small wind energy systems are a sufficient wind resource and space on your property.

The US DoE estimates that a wind turbine must provide at least 5kW-15kW of electricity generation potential to be financially viable.

A turbine that size requires about one acre of unobstructed land — a substantial footprint on almost any property.

If your property meets the above requirements, assess whether the electricity the wind turbine can generate will justify your investment over time.

There are numerous free online tools that everyone, from policymakers to homeowners, can use to estimate the wind energy potential by location.

Next, consult your state and local planning authorities to determine whether turbine construction and installation are allowed on your property.

Wind turbines require a considerable footprint on your property, and the tower on which the turbine blades and rotor are mounted must be a significant height.

According to the US DoE, “Your turbine needs to be sited upwind of any buildings and trees, and it needs to be 30 feet above anything within 300 feet.”

To install a grid-connected small wind power system, you’ll need permission from multiple authorities and compliance with numerous regulations. 

Unfortunately, it’s not a straightforward process.

Small wind turbine systems are regulated at the state or territorial level.

Here’s an example of NSW’s Small Wind Turbine Guide for Consumers.

Wind energy plays a crucial role in transitioning away from fossil fuels, but it’s much more practical at a utility-scale than for home installation.

Requirements for Grid-Tied Solar Photovoltaic Systems  

As with wind and hydro, the first step in determining your requirements for a solar photovoltaic system is assessing whether you receive sufficient energy at your location to provide a solid return on investment.

(Source: Australian PV Institute)

The Australian PV Institute provides a wide assortment of maps and other tools to help you estimate how much sunlight you can expect to receive at your location based on historical data.

You can even check out real-time data on how much electricity rooftop PV systems are generating near your location.

Because PV modules collect photons from sunLIGHT using the photovoltaic effect — not from heat — your solar panel array will generate the most electricity under direct sunlight.

Extreme temperatures actually have a negative effect on solar panel efficiency. 

Once you’ve estimated your electricity generation potential and the cost of your system, you can determine whether it makes financial sense.

The legal and technical barriers to installing solar photovoltaic systems are substantially lower than those of wind turbines or micro-hydropower.

Many homeowners choose rooftop installations with rigid solar panels, as they leave no additional footprint on your property.

Ground installations with rigid or portable solar panels may also be viable.

Off-grid solar generators that provide whole-home backup power, like EcoFlow DELTA Pro, don’t require professional installation or permits—unless you’re connecting one to your home circuit board with a transfer switch.

EcoFlow DELTA Pro is a hybrid solar + storage system that provides multiple charging options, including solar panels and utility grid (AC) power.

However, it’s not eligible for net metering programs as it doesn’t transmit electricity to the utility grid.

Grid-tied solar photovoltaic systems that consume and transmit electricity to your utility provider have additional requirements.

But far less than wind turbines or hydropower.

Here’s what you’ll need to do to install a grid-connected solar photovoltaic system:

• Check with your utility provider or power company to make sure they offer grid connection for solar
• Thoroughly examine your power provider’s requirements
• Ensure that the photovoltaic modules, solar inverter, and other balance of system components meet your utility provider’s compliance standards
• Is net metering or feed-in tariffs available at your location?
• Does your local authority have restrictions on rooftop or ground solar panel installations?
• It may or may not be mandatory in your location (yet), but it’s a best practice to ensure your system and installation follow one (or more) of the following standards.
  • IEEE Standard for Interconnecting Distributed Resources with Electric Power Systems (IEEE 1547-2003)
  • Underwriters Laboratories certification for solar inverters and other balance of system components (UL 1741) 

• If you plan to participate in the Small Renewable Energy Scheme (SRES), the Clean Energy Council maintains a public database of eligible components, such as solar panels, inverters, and batteries.
• Apply for building permits (if required)
• Hire a professional installer to help ensure compliance and optimise performance
• Hire a licensed electrician to connect your PV system to the utility meter and your home wiring
• Follow any certification and inspection requirements

Many of the steps above can be simplified or avoided if you opt for an off-grid or hybrid solar photovoltaic system rather than a traditional grid-tied setup.

The CEC publishes free consumer guides for buying rooftop solar and home battery storage.

Connecting to the Grid

Australia has one of the world’s largest interconnected energy grid systems.

It’s actually comprised of three primary grids:

• National Electricity Market (NEM)
• South West Interconnected System (SWIS)
• North West Interconnected System (NWIS)

And over 30 smaller grid systems.

Navigating the regulations and requirements at your location is a significant challenge that faces all homeowners who wish to connect a small energy system to the grid.

Depending on your power company or utility provider, the following may be required:

• Net metering or feed-in tariff agreements and other billing arrangements
• Liability insurance requirements to protect your power provider in case your grid-connected system causes accidents or damage
• Schedule of fees for permitting, inspection, meter costs, etc. 
• Small-scale technology certificate (STC) compliance

It is time-consuming to complete paperwork and navigate grid-connection regulations, but energy companies are working to standardise and streamline the process.

Energy Network Australia publishes national grid connection guidelines for residential rooftop solar and other distributed energy resources (DERs) like hydro and wind. 

Final Thoughts

Renewable energy is rapidly growing as an electricity generation source — both at the utility and the residential level.

Solar photovoltaic systems are by far the best option for most home applications.

Whether you connect to the grid directly or opt for a hybrid solution like EcoFlow DELTA Pro 3 + 400W rigid solar panels, it’s never been a better time to switch to solar.

Save money on electricity bills and enjoy home energy security…

Check out EcoFlow’s solutions today.