Sustainability

Brownfields, Butterflies, and Blooms of Algae: The Philosophy Behind Properly Sited Solar

As one of the most equitable and highly-customizable sources of renewable power, solar energy must be deployed with urgency in order to achieve the recommendations of groups like the Intergovernmental Panel on Climate Change (“IPCC”). But in the rush to deploy solar energy as quickly as possible, developers must be wary of excessive tree clearing or otherwise destroying the natural environment in order to build solar systems.

The space requirements of ground-mounted solar panels are such that if the United States were to meet all of its energy needs through the production of solar energy, it would demand 0.5% of the land area of the country, equivalent to 10.3 million acres.¹ A troubling consequence is that this space could end up being provided at the expense of pristine natural environments. Woodlands could be—and have been—cleared to make way for solar panels. Sixty-nine percent of all forest loss in the State of Rhode Island is due to solar development;² 150,000 acres of forest in Massachusetts could be lost as the state seeks to meet its climate goals;³ and in Maryland, concerns over land usage are leading counties to limit solar development⁴—in the middle of a climate crisis.

It is also a concern whenever solar arrays are placed on land that has other viable economic uses, such as farmland. Repurposing that land for solar energy can increase competition for limited space, encouraging further encroachment into the natural environment. To avoid this negative externality, solar developers like Ecogy are utilizing creative means to responsibly construct solar photovoltaic arrays.

Building on Brownfields

One way of limiting encroachment into the natural environment is to construct solar on brownfields, which are contaminated lands often unsuitable for other types of development. Solar developments are ideal on these properties because solar energy is economically and environmentally beneficial without requiring much in-person human management. Ecogy’s Wilmington Housing Authority project in Delaware is one example of a project located on a brownfield. The project reduces energy costs for the residents of multiple high rises which otherwise could not accommodate solar.

Ecogy’s Wilmington Housing Authority solar array, located on a brownfield.

Building on Water

A relatively new method of deploying solar without endangering forests is to make use of bodies of water, ideally those that are man-made and stagnant, such as reservoirs. There are few other productive uses for the surface area of reservoirs, and floating (but anchored) solar panels additionally help reduce evaporation and can potentially counteract toxic algae blooms.

A floating solar array in New Jersey. Ciel & Terre USA.

Building with Farms

Constructing solar alongside or above agricultural lands also doesn’t increase competition for land. This practice is known as agrivoltaics. Certain agricultural activities can continue virtually unimpeded even with the addition of stilted solar panels, allowing landowners to profit from both the proceeds of a solar system and from agricultural activity. Recent research from Cornell shows that agrivoltaics has the additional benefit of increasing the efficiency of the solar panels hosted on agricultural land. The crops and the soil below the panels provide a high cooling effect that allows the panels to operate more efficiently in hot weather. Additionally, some developers are hosting colonies of threatened pollinators and native wildflowers among their solar fields.

An agrivoltaic system. Insolight.

Solar on the Built Environment

Like other methods of responsible solar siting, placing solar above buildings and parking lots reduces the environmental impact of constructing solar systems.

There are a series of additional benefits to developing solar on the built environment. Perhaps most significantly, developing solar on the built environment generally reduces the distance that the energy has to travel from the site of production to the site of its consumption. Reservoirs, brownfields, and agricultural lands may be far removed from dense centers of population that have high energy demands. On the other hand, solar electricity produced on rooftops can often be fully consumed by the building on which it is located, or communities nearby. This usually reduces the final cost of the electricity that the solar system will provide.

Yet another advantage of producing solar energy on the built environment is that flat surfaces are ideal for solar development, and most rooftops in the commercial & industrial (C&I) space, which are large and usually located near operations with high energy demand, are perfectly flat. In many cases, rooftop solar does not even need to be racked: it can simply be ballasted, or just weighed down on the rooftop. From an aesthetic perspective, too, solar on the built environment is superior. Unless you’re like us, and you enjoy looking at handsome solar arrays, rooftop solar has the added advantage of being invisible to most passers-by, who might consider ground-mounted systems an eyesore.

Ecogy’s Maryknoll parking lot canopy in Westchester, NY.

Although solar on the built environment has its advantages, it is not always the cheapest way to go about providing solar power to communities. Sometimes, the expedient route for developers to take is simply to utilize pristine natural environments like woodlands or grasslands without consideration for the environmental consequences. It is the role of regulators to incentivize the responsible placement of solar arrays. There have been many successful state programs in the United States that have done just that. 

One, for example, is the Solar Massachusetts Renewable Target (SMART) program in Massachusetts, which encourages developers to site their projects on brownfields, landfills, rooftops, and the like. Another example is New Jersey’s June 2021 act which mandates that all newly-constructed warehouses over 100,000 square feet in size reserve up to 40% of their rooftop space for solar. And a recently proposed bill in Rhode Island would require almost all new construction to be outfitted with solar panels. Policies like these spur climate action and energy savings while minimizing the risk of further degrading the environment.

Ecogy’s Windsor system, hosted by 30 Cutler in Warren, RI.

Constructing solar arrays on the built environment is one of Ecogy’s specialities. Click here to peruse our full portfolio.

Contact us if you’re interested in being paid to host solar on your rooftop, parking lot, or brownfield. 

Sources Cited:

¹ https://www.energy.gov/sites/default/files/2021-09/Solar%20Futures%20Study.pdf

² https://ecori.org/leveling-forests-for-solar-advocates-for-green-energy-square-off-over-trees-vs-panels/

³ https://www.massaudubon.org/content/download/41477/1007612/file/Losing-Ground-VI_2020_final.pdf

⁴ https://thedailyrecord.com/2021/07/23/maryland-counties-grapple-with-controlling-growth-of-solar-farms/


Demand Response: Building Resiliency, Supporting Sustainability, and Making Money

WHAT IS DEMAND RESPONSE?

Demand response programs pay individuals and companies to reduce their electricity usage during times of peak energy demand. The programs are run by utilities and grid operators with the aim of alleviating stress on the energy grid during these times of peak demand. On very hot or very cold days, when more electricity is demanded of the grid than normal, grid operators and utilities must deploy backup energy sources in order to cover the extra demand and ensure that the grid can handle customers’ needs. 

However, the extra energy that is provided during these times of peak demand costs more than usual for the grid to provide. Engaging latent natural gas plants or burning extra coal incurs costs beyond the source of fuel and normal operational expenses. It costs a lot of money just to get power plants up and running, only to shut them down again a few hours later.

Demand response programs exist because grid operators and utilities have calculated that it can be cheaper to pay participants not to use electricity during times of peak demand than it is to pay the steep costs that would be associated with actually providing that electricity.

During demand response events, when the grid decides it is willing to pay to reduce demand, participating consumers are notified to implement energy demand reduction strategies for the duration of the event. They are then paid based on the amount of electricity they did not consume.

A curtailment service provider (CSP), such as Ecogy Energy, plays a key role in this process by serving as an intermediary between the grid operator or utility and the energy consumer. Ecogy is one of the few CSPs with the capabilities to address both generation and demand-side initiatives on behalf of our clients.

WHO BENEFITS FROM DEMAND RESPONSE?

Most immediately, demand response programs benefit participating energy customers because they get paid, and the programs benefit grid operators and utilities because they save money compared to providing the excess electricity required during times of peak demand. But demand response programs carry an even greater array of benefits.

In the United States, the grid infrastructure is outdated in many places. One consequence of this is that the grid oftentimes cannot accommodate the amount of electricity that must move through it. This problem is most severe during times of peak demand. If more electricity is needed than the grid is capable of providing, rolling blackouts become a possibility, endangering lives and stifling economic activity. Therefore, demand response programs benefit society at large by increasing grid resiliency and reducing the likelihood of blackouts.

Additionally, the extra energy supplied by the grid during periods of peak demand usually comes from high-carbon energy sources. While extra natural gas and extra coal can be burned on demand if needed, solar panels and wind turbines are intermittent resources, producing electricity at the whim of the natural environment. Therefore, reductions in energy demand during demand response events are especially beneficial to the environment and the fight against climate change.

Battery storage offers a potential solution to this problem. Batteries can be charged by renewable energy sources when demand is low and discharged when demand is high. In fact, some programs exist that pay for the development of batteries for this very reason. However, battery storage technology has not yet been deployed at the scale necessary to void the need for demand response programs. 

IS DEMAND RESPONSE RIGHT FOR ME?

If your local utility or grid operator gives you the option, demand response programs can benefit energy consumers of any size. A single house can participate by turning off its lights or adjusting its thermostat by a few degrees. Such strategies would yield proportionally greater returns for an apartment building, an office park, or a skyscraper. The more electricity you can save, the more lucrative demand response will be for you.

Manufacturing facilities consume vast amounts of energy, and a series of other factors make them prime contenders for demand response programs. One step that electricity providers take in the event of an overburdened grid is reducing the voltage of the electricity they provide. This can damage critical equipment including variable frequency drives (VFDs), a central component of many commercial and industrial operations. Demand response programs allow facilities to insulate themselves from such fluctuations. During the demand response periods, facilities can use the time for things like routine maintenance or training—while simultaneously getting paid for reducing their electricity usage.

If your facility already has battery storage installed, it may be able to participate in demand response events while continuing normal operations, just drawing from battery power rather than from the grid.

Lastly, demand response is a green initiative, so participation in a demand response program can help your organization meet its sustainability goals, or help your organization fall in line with governmental sustainability regulations, such as those laid out by New York City’s Local Law 97

WHY ECOGY?

Ecogy is proud to be a trustworthy partner to a wide variety of organizations, from affordable housing communities and houses of worship to multinational corporations. With our extensive experience in the renewable energy space, we understand that there is both a proactive and a reactive side to energy. There’s more to sustainability than just renewable energy generation; the demand response side of our businesses represents our commitment to energy efficiency as well.

Our proprietary and advanced energy monitoring device, the Econode, makes us a particularly strong demand response partner because it allows your facility to monitor, in real time, how much your business’s electricity is being reduced during demand response events, in addition to a host of other benefits. Our experience in solar energy means that the Econode and its accompanying software are tried-and-tested products that will make your participation in a demand response program as seamless as possible.

To see if demand response is right for you, and to get paid to reduce your energy consumption, contact us.