Tag Archives: solar power

Solar Power and Wineries: A Match Made in Heaven…and California

As the amount of power generation from solar energy continues to rise in the United States, more and more businesses are realizing the benefits of utilizing solar energy on their own properties. This type of small-scale solar generation is rising across industrial and commercial sectors, and no where is it more prevalent than in California, home of 43% of the nation’s small-scale solar output in 2016. California also leads the nation in another crucial area– wine production! If California were its own country, it would be the fourth largest producer of wine, accounting for 90% of wine produced in the United States.

Seeing as California tops the list in solar power and wineries, it only makes sense that vineyards in the state have been rapidly adopting the renewable energy source on their properties. Exactly how much solar power is being captured on these wineries, and what wineries are doing the most to implement solar systems? This article will answer those questions. Also, I’ll be the first to admit that I’m more of a beer drinker than a wine connoisseur (see this write up on which breweries use the most renewable energy), but the last part of this article outlines a California wine road trip that hits the top 10 wineries by solar energy capacity that has me already looking at flights to the West Coast.



Why solar and why California wineries?

Many wineries across the country and the world, not just in California, have realized the benefits of solar power and installed solar systems to meet part of or all of their energy needs. For example, Lakewood Vineyards in New York,Tenuta Delleterre Nere in Sicily, and Domaine d Nidoleres in France have all installed solar power systems on their wineries.
But this article focuses just on those wineries with solar power in California, as it is the region foremost afforded with the scale, climate, and policy to really promote both the solar and wine industries.

Solar power in California

California is not the only state to be embracing solar power at breakneck speeds, but there are a number of reasons why the state was always primed to become the nation’s leader. California tops the United States as a solar energy generator  so much, in fact, that it’s had to pay other states to take the excess generated power off its hands. California’s dominance in solar power can be attributed to the following:

Wineries in California

California is obviously also not the only state in the wine business, but it completely dominates the U.S wine industry in terms of volume of wine produced, as well as reputation for quality. Not only does 90% of total U.S. wine come from California, but the quality of California wine is considered today to be at it’s highest ever stature in quality according to many experts. The modern boom of the California wine industry has a number of causes, including the following:

Putting the solar and wine industries together

When you look at the massive advantages California has when it comes to cultivating a solar power sector and a wine industry, having the two fields overlap appears to be an obvious marriage throughout the state. Fortunately, the integration of solar power into winemaking is a natural fit.

With California being such a hospitable region for both solar power and winery, the logical question becomes how can the two be combined into a symbiotic and fruitful relationship. Wineries have been installing and taking advantage of solar power for years now due to the various benefits it provides the winery business. Fetzer Vineyards has run on 100% renewable energy since 1999, while Shafer Vineyards have fulfilled all their energy needs with solar power since 2004.
In terms of why solar power works perfectly as a energy source at wineries and related facilities, there are a number of reasons. For one, solar panel technology is at its most efficient at about 77 degrees Fahrenheit and can absorb sunlight even on cloudy days— this warm/temperate climate that optimizes solar technologies also happens to be the right weather in which to grow wine grapes. Beyond that, wineries are operations that typically have a large footprint, making it easier to find area on roofs or in fields on which to place solar panels compared with non-agricultural industries. This abundant availability of solar panels at wineries means that the energy gathered from the sun can be used to power all sorts of facilities of wineries– the primary residence, workshops, tasting rooms, offices, industrial equipment, and more.
Not only does solar work better on wineries than many other industries, but it also provides some unique benefits to those wineries that go out of the way to install solar power systems. The technology itself is reliable for extended periods of time (warranties last 20 to 25 years, while the life of service is 40 to 50 years), with economics so good that wineries have the ability to earn a 20% return on investment in solar panels. In fact, the solar power haul at some wineries can sometimes be even more than is needed to run the winery, allowing these lucky business-owners to sell it back to utilities (though this type of net metering finds itself the subject of heated policy debate these days). Because of this, the technology is even being developed for on-site microgrids designed for self-consumption, load shifting, and peak shaving.
Beyond all that, those who work in the wine business have a personal stake in increasing the use of renewable energy sources in order to reduce the greenhouse gas emissions that are causing climate change. Wine grape vines are very sensitive to changes in temperature that climate change would bring, not to mention the difficulty faced by all agricultural businesses as a result of extreme weather and droughts, while the recent wildfires in California (which are more prone to happen as climate change continues) show the devastation that such fires can cause to the wine industry. It behooves the wine industry to embrace clean technologies wherever and whenever possible.

List of California wineries using solar power

Because of all these stated advantages, California wineries are absolute leaders in embracing solar technology. After extensive research and reaching out to individual wineries, I’ve put together the below list of 132 wineries across the state taking advantage of solar power. The capacity of these solar systems range from 2 kilowatts (kW) to well over 1 megawatt (MW), showing that all ranges of sizes are options depending on the level of commitment a winery is ready to make. Taken together, these wineries have a total peak solar capacity of 27.8 MW– which is a greater capacity of solar power than the total electric power industry in 15 different states as of 2015!
So if you’re like me and you have a difficult time at the wine store knowing what wine to buy because you don’t really know what to look for, you can now keep this list handy to support a winery that incorporates clean and renewable solar energy into its operations!
It’s worth noting that there are sure to be plenty of California wineries using solar power that are not included in the above table. Any winery that is listed in one of the cited resources as having an installed solar system but did not include its capacity was not included in the list, as these capacities are crucial to the later analysis of this article (this includes any wineries I reached out to but didn’t hear back from). There are also surely wineries that are using solar that don’t advertise it anywhere, or they do advertise it and my search failed to find it. If you’re aware of any wineries that should be included on this list but are not, please leave a comment below!

Quality and price of wines from California solar wineries

Beyond just finding and ranking the capacity of solar energy systems at various wineries, I thought it would be interesting to take each solar winery and compare them based on a noteworthy wine they produce. With that in mind, each solar winery in the previous list was paired up with the best wine it has (according to the top rating a wine of theirs received from Wine Enthusiast Magazine) along with that wine’s rating and price (both also according to Wine Enthusiast Magazine). That process led to the below table (note that some wineries from the first list are not included in this list because none of their wines showed up in Wine Enthusiast Magazine’s ratings).

 

It’s hard to really abstract anything by looking at that in list form. Instead, we can then take that list and look graphically at the solar capacity of a winery and the rating of it’s best wine:
The same can be done to compare the solar capacity of a winery and the cost of it’s best wine:

Looking at these graphical representations, you can see that its not just niche wineries that are embracing solar energy. Every sort of price range and a whole range of sophistication and repute of wine has a wine that comes from wineries with solar installations, both large and small in capacity. The solar capacity of the wineries does not say anything about the wine produced at that winery– the installation of solar cuts across all sorts of vineyards. This shows that there should be no reason solar power at wineries cannot continue to grow to new wineries and expand capacity at wineries already with solar.

Where are solar wineries located in California?

Another interesting data point for each of these wineries is the region of California they are in. The separation of the various areas of California into its wine regions is sometimes a bit of a tricky exercise, with some well-known regions being sub-regions to others, the existence of some gray areas, and different wine region names depending being used depending on the resource being referenced. For the sake of this exercise, I will be using the following five main wine regions of California (recognizing they can and often do get broken down even further into smaller regions):
  • North Coast
  • Sierra Foothills
  • Central Coast
  • Central Valley
  • South Coast
These five regions are found in the following maps:

Source 1 Source 2

Before analyzing each region as a whole, the below graphic shows each city/town in California where the cumulative solar capacity at wineries is above 500 kW. The size of the circles are proportional to the total capacity. Using this visualization, you can already see where the most solar capacity is concentrated, in the North Coast and Central Coast.
If you then total up the capacity for each of the five major wine regions in California, you get the following graph:
This could be a misrepresentation of how dedicated each region is to solar, however, as all the regions are not the same size. It could just be that the North Coast has the most wineries (which it does), but a lower percentage of them are utilizing solar. To test this, the total solar capacity of wineries in each region is divided by the total acreage of planted wine grape vines in that region:
The result is that the North Coast is still the region with the greatest concentration of solar capacity per acreage of winery, still followed by Central Coast (though it’s a more distant second), and then the Sierra Foothills get a boost (while still remaining in third place). In either graph, Central Valley and South Coast lag way behind in fourth and fifth, respectively.

Road Trip

The last piece of analyzing the solar wineries in California I wanted to look at was putting together an epic road trip of California wine country that enables you to hit up the wineries in the state that use the most solar power. Thanks to Google Maps, I was able to find a route that takes you across 372 miles over the course of 6 hours and 47 minutes and visits the top ten wineries in terms of solar power capacity. If you’ve always wanted to tour the best wineries and vineyards that California has to offer, but didn’t know where to start, then look no further!
The first day of the trip can take you to Meridian Vineyards, Estancia Estates Winery, and Carmel Road Monterey with only a bit over two hours of driving total, enabling you to see over 3 MW of solar powered winery. On the next day, after driving about three hours to get to the next batch of wineries, you’ll find yourself at the remaining seven wineries– total capacity exceeding 7 MW– that are within an hour and a half total drive from each other.
If you’re interested in driving this solar winery route (or maybe paying someone to drive you on this winery route– it is TEN wineries, after all), see the Google Maps route linked below.
 

Sources and additional reading

Solar Energy in the Winemaking Industry: Green Energy and Technology (Preview of book herelink to purchase book here)
About the author: Matt Chester is an energy analyst in Washington DC, studied engineering and science & technology policy at the University of Virginia, and operates this blog and website to share news, insights, and advice in the fields of energy policy, energy technology, and more. For more quick hits in addition to posts on this blog, follow him on Twitter @ChesterEnergy.  

The altE Store: Providing Solar Powered Disaster Relief in Puerto Rico

During times of disaster and tragedy, a quote from Fred Rogers (who you probably know better as Mr. Rogers of the eponymous children’s television show) often circulates to show the power of people banding together in difficult times.
“When I was a boy and I would see scary things in the news, my mother would say to me, ‘Look for the helpers. You will always find people who are helping.’ To this day, especially in times of ‘disaster,’ I remember my mother’s words an I am always comforted by realizing that there are still so many helpers – so many caring people in the world.’

Among the ‘scary things’ that hit the world recently were the series of hurricanes that hit the Caribbean and southeast United States. While there are countless examples of helpers during these hurricanes, one story came to my attention recently that merged the helpers with the world of energy. When Hurricane Irma hit Puerto Rico in early September, more than 1 million power outages were reported across the island. Less than a month later, Hurricane Maria hit the island (before power was able to be fully restored from the first storm) and left Puerto Island almost entirely without electricity.



While reading about this humanitarian crisis, I learned of a company, the altE Store, that was using its abilities and expertise in solar power to help design and implement affordable solar powered energy solutions in the impoverished regions of Puerto Rico. These areas were the ones that were likely be lower on the list of priorities regions for the utilities to restore power, and thus the ones that could use a helping hand the most in such a turbulent time.

When I heard about this project, two things came to mind. The first thought was how right Fred Rogers was about looking for the best in humanity who go out of their way to help when disaster strikes. The second was that I wanted to learn more about the organization behind these efforts. So I reached out to them and was able to speak with Amy Beaudet, self-described Solar Queen at the altE Store to learn about the company, their charitable and humanitarian efforts, and the future of solar power.

About the altE Store

The altE Store, or the Alternative Energy Store, was founded in 1999 to sell off-grid solar systems to people in remote locations (think islands off the coast of Maine). The altE Store has evolved with the ever-changing solar industry, growing to also provide systems that are tied into the grid, systems that are tied to the grid but also have on-site storage (see: microgrids), as well as systems that exist completely separate from the grid. The altE Store exists as a completely web-based enterprise with no physical locations. Because of this, they have been able to establish a global reach, having done business in all seven continents.

Source

As a customer of the altE Store, you have lots of options at your fingertips. Any piece of equipment that you might need for your solar system is sold at the altE Store, including solar panels, racking, inverters, charge controllers, batteries, breaker boxes, PV wire, and more. You can purchase pre-designed systems in one package with a schematic on how to put it together, or you can have a design custom made for you. Lastly, you can purchase the solar equipment and install it all yourself, or you can have professionals come and assist in the installation as well. Through it all, the altE Store strives to provide flexibility to its customers, making headway towards their goal of “making renewable do-able.”

Education and outreach

Recognizing the value of having an educated customer base, the altE Store has been creating informative videos on solar power and solar systems for 10 years and has shifted even more focus into this side of the business in the past several years. The results have been pretty staggering, with viewers in over 200 different countries and extensive questions and requests frequently brought in the comment sections. Their goal has been to make sure accurate information is available for people getting started in solar power, curious potential customers, do-it-yourself enthusiasts, and anyone else interested in solar power– including technical information, product overviews, solar installation processes, and more. Engaging with these videos and blog posts ensures customers have a trusted and friendly face they can turn to with their solar needs, and spreading the message about the renewable energy source only helps the spread of the emerging technologies.

Response to Puerto Rico

The altE Store’s mission statement reads “Empowering the world one person at a time by providing renewable energy products, services and education.” That’s not just a lofty goal to them, though, and the situation in Puerto Rico that brought the altE Store to my attention demonstrates just that.

As the devastation from Hurricane Maria unfolded and many, including the people at the altE Store, watched from television and computer screens thousands of miles away and yearned to find something they could do to help. The team at the altE Store got in touch with a solar instructor who had worked with the company in the past and was working with a group in New York City looking to help in Puerto Rico as well. The New York City group was looking to send solar equipment to Puerto Rico, along with teams of people to install them, to help bring a source of immediate power to those who were looking at being left in the dark for weeks, if not months. Given the altE Store’s mission to bring renewable power where it is needed, this looked like a perfect opportunity for them to get involved.

Not only was this a great fit for the altE Store to get involved in the Puerto Rico recovery efforts, but that involvement happened at a pretty breakneck speed– for which the beneficiaries in Puerto Rico are surely grateful. Hurricane Maria made its way through Puerto Rico on September 20, 2017. It took a few days to truly understand the toll the storm took on Puerto Rico, and specifically the electrical system. The altE Store’s representatives first talked to the New York City group on Monday October 2. By Friday night, 2,000 pounds of equipment (inverters, charge controllers, and batteries) had been picked up from the altE Store facilities. This literal ton of equipment, which the altE Store provided at a heavily discounted price and at their own cost to provide, was combined with equipment donated from other sources. By Monday October 9, teams of solar technicians with the New York City group were on the ground ready to install the equipment that was en route to Puerto Rico. Not only that, but altE Store provided design work and schematics for the technicians to follow to install the equipment completely free. All of this work happened within just a few weeks of Hurricane Maria, and for absolutely no profit to the altE Store.

With regard to the equipment and teams sent down, their focused priority are where the most good can be done. This means getting power and light to central locations, like community centers and schools, so people can come to recharge their phones, radios, and lights, in addition to battery chainsaws needed to clear debris from roads. Additionally, locations integral to the sick and elderly, such as hospitals, are receiving solar power systems for cooling, medicine refrigeration, and the like. One interesting tidbit is that the word has been getting to the altE Store that the houses in Puerto Rico that already had solar panels installed in them are the ones that ended up keeping their roofs, while those without solar were more likely to lose their roofs. While this is anecdotal and might simply indicate that those who could afford solar also could afford more strongly reinforced buildings, it does provide a counterpoint to arguments that solar panels are no optimal for roofs within hurricane zones.

Despite the swiftness with which these great groups were able to react to get equipment and teams of technicians in place to install it, make no mistake that this will be a very long rebuilding process. Many homes need to be rebuilt before solar systems can be installed, and beyond that there are still only so many people on the ground to install the equipment that it will take time. But that is why it is great that groups like these are going down to service the more needing locations with solar power while the utilities in Puerto Rico work to rebuild the existing grid system. Through it all, the hope is that in the end the electrical system will come out of it all more resilient, cleaner, and more affordable. Much has been made about the dire state the grid system of Puerto Rico was before Hurricane Maria, so the silver lining on this whole situation could be the replacement of that old and ineffective system.

In addition to this specific partnership with the New York City group, the altE Store has also been working to find and collaborate with other groups for the same sort of relief effort in Puerto Rico, offering free design and expertise to go along with heavily discounted equipment in order to provide for those who would otherwise be stuck without power.

Other efforts

There is no shortage of opportunities for responsible companies, particularly in the energy business, to get involved in efforts to help out. In addition to the ongoing efforts in Puerto Rico, the altE Store got involved with the International Rescue Group to deliver emergency supplies to Haiti after Hurricane Matthew, specifically to build portable solar generators to charge cell phones of emergency responders, volunteers, and citizens. They even wrote and published for free do-it-yourself instructions for anyone to create their own solar generators for emergencies, preparation, or just as a self-education project.

For the areas of the United States outside of Puerto Rico that were hit by one of the several hurricanes, the altE Store is providing discounts to help them build or rebuild their solar systems to ensure their own power resilience. At 15 percent, this discount represents their biggest discount they’ve ever offered and they are stocking up their inventory to record levels to account for this influx of demand.

 Lastly, the altE Store regularly donates or discounts solar equipment to worthy causes (schools, Boy Scouts troops, etc.). They shrewdly recognize the value in educating the public, creating excitement about the technology, and demonstrating how accessible it can be. On top of that, showing the potential of solar power and sharing it with people who need it the most in times of crisis is simply the right thing to do.

Keeping updated on this story

In addition to the previously mentioned blog posts and videos that the altE Store provides on its website, there are several social media outlets where you can hear updates on the Puerto Rico project as well as everything else the altE Store is doing.

The altE Store’s Facebook pageTwitter account, and Instagram page all provide regular updates on its projects. Additionally, you can sign up for the altE Newsletter through a link on their webpage. If you have any specific questions about this work or if you simply want to get in touch with the altE Store yourself, you can also reach out directly to Amy Beaudet at amy@altestore.com.

Conclusion

In the end, the altE Store is a company who is in the business of selling solar systems to renewable-energy-seeking customers. They have many competitors in this market, they’re surely keeping an eye on government regulation of the solar industry, and they operate as any other business. But through their educational outreach and their desire to provide solar powered relief in the face of natural disasters show that they are also a forward-thinking energy organization who recognize the value of doing good in addition to doing good business. The altE Store should be commended for these efforts, and any other organization in the industry can take a page out of their book for how to use their influence for the common good.

About the author: Matt Chester is an energy analyst in Washington DC, studied engineering and science & technology policy at the University of Virginia, and operates this blog and website to share news, insights, and advice in the fields of energy policy, energy technology, and more. For more quick hits in addition to posts on this blog, follow him on Twitter @ChesterEnergy.  

Brewed with Renewable Energy- Best Beers for the Green Consumer

As microbreweries and craft beers have really blown up in recent years, it’s easy to forget that the beer brewing process goes back millennia.  Archaeologists have noted that nomads may have made beer before making bread, ancient Babylonian’s kept beer recipes on clay tablets, and European monasteries in the Middle Ages took beer brewing out of the home and into centralized production.

All of this ancient brewing was fairly unstandardized, relying on fermentation and chemical reactions and, when needed, cooking by fire.  It wasn’t until the Industrial Revolution that the production of beer scaled up massively, inventions came along to ensure the consistency of brewing, and the energy required to brew beer became substantial, powered by the revolutionary steam engine. Since that time, the energy intensity of brewing beer became substantial– today’s breweries typically use 50-66 kilowatt-hours (kWh) per barrel of beer. With a barrel of beer containing 2 kegs of beer and an average U.S. home using 10,812 kWh  per year in 2015, that means that it takes  less than 400 kegs of beer production to account for an entire household’s annual energy use– while places like Boardy Barn in Hamptons Bay, Long Island can sell up to 600 kegs in a single day!



All this lead up is to get to the question– why do you care? Well at the time that craft brewing has come out of the niche to become mainstream, so has personal responsibility to be energy and environmentally conscious. So at the intersection of these two pushes is the trend of breweries to utilize renewable energy in their production process. This post is meant to not only call out and give props to all the breweries that are incorporating green practices into their fuel mix, but to show you the best tasting beers you can buy that are ALSO incorporating the most renewable energy production.

In short– green beer appears to be a brewery cultural movement (and not just with food coloring you put in one day a year)!

Methodology

As stated in the introduction, the goal of this fun exercise is to cross-list breweries who have publicly available their power generation from renewable energy or their total renewable energy generation capacity with a rating of the most popular beer brewed at that brewery. As such, the methodology can be broken out by energy and by beer:

Energy

Many breweries today are installing renewable energy generation, and luckily for this exercise they also love to talk about it. And why shouldn’t they? Making publicly available your renewable energy generation is not only great PR for a brand, but it can also lead to other breweries making the energy conscious decisions as they follow the leaders in the industry. As such, you can usually count on breweries to advertise their use of renewable energy:

Source

With this in mind, the data collected all came from publicly available sources– a section on a brewery’s website about sustainability, a news article announcing a new solar system install, etc. Based on what data was and was not available, it made the most sense to collect and rate based on total capacity of renewable energy used at the brewery. As a result, the following factors were not considered:

  • The percentage of energy use at a brewery that is accounted for by renewable energy (apologies to the smaller breweries that have a large percentage, or even all, of their energy use come from renewable energy– obviously the larger breweries have more energy use overall and thus have a higher ceiling for total installed capacity, but this analysis is only counting the raw total capacity);
  • Commitments to switch to renewable energy in the future (though there will be a list of ‘honorable mention’ breweries with such initiatives at the end);
  • The installation of renewable energy sources without the listing of capacity or energy generated (sorry to these breweries, you’ll be in the honorable mentions as well); and
  • Energy savings, energy efficiency initiates, and sustainable practices that don’t include installation of renewable energy (these will also be included in ‘honorable mentions’ to give credit where credit is due).

Beer

After assembling the list of breweries with renewable energy capacity, it sounded fun to cross-list those capacities with the rating of the most popular beer at that brewery to find the ultimate beer to reach for at the bar or grocery story that tastes great and contributes to the world’s renewable energy supply. BeerAdvocate.com was used as the repository for information on beer ratings, as it had the most extensive and widely available information for this process.

For each brewery identified on the below list, the beer with the most ratings on BeerAdvocate.com was identified as the most popular beer. The most popular beer was chosen to ensure a high sample size of ratings and to best represent the beer made at that brewery. So while there may be beers more highly regarded at the breweries identified, the chosen most popular beer is more likely to be that brewery’s flagship beer and accounts for the highest portion of the brewery’s production energy compared with any other beer.

Results

Below is a table of the 57 breweries found with advertised renewable energy capacity, with the greatest capacity at the top.  After a quick glance at this table, a few tidbits jump out:

  • Renewable capacities found on this list starts at 10 kilowatts (kW) and goes all the way up to 3,733 kW (or 3.7 megawatts). This wide range shows how varied the efforts are to incorporate renewable energy, from a small solar system that only has minor contributions to overall operations to a massive renewable energy installation that contributes most (if not all) of a brewery’s power needs.
  • Solar power is by far the most prevalent form of renewable energy found at breweries. This may seem striking, but it actually makes sense because solar systems are the easiest and most feasible system to install on a building basis. Other forms of renewable energy (wind power, geothermal, hydroelectric, biomass) are not as well suited for individual building complexes to harness.
  • Heineken, as a parent company, appears several times towards the top of the list. Many of these breweries existed for many years before Heineken bought them, but it does appear to be a trend that breweries have become more likely to install renewable energy capacity after being brought under the Heineken umbrella.
  • There is also a clear spread of locations where these renewable energy breweries are located, on both coasts of the United States as well as three other continents. We’ll look into this more in a later graphic.

The next step is to plot these renewable capacities against the rating of the most popular beer. See the below graphs for this visual. When shown this way, a couple more conclusions can be made:

  • It turns out that the beer from the brewery with the highest renewable energy capacity (The Abyss from Deschutes Brewery) is actually the one with the highest rating on this list, making the decision at the bar that much easier!
  • However, dedication to renewable energy does not necessarily correlate with a well-received beer, as Birra Moretti (Heineken) and MillerCoors have discovered.
  • While a smattering of breweries have made the commitment to exceed a megawatt of renewable energy capacity, the majority of breweries have started smaller in the 500 kW range.

Click to enlarge

Click to enlarge

The last graphic put together is a map to represent where these breweries are spread across the country and the world. These maps show the top 20 breweries by capacity, with the size of the beer mug icon representing the relative size of that capacity (though note that between the U.S. map and the world map, scale of the maps are accounted for. For example, the Anheuser-Busch brewery has about half the capacity as the Namibia Breweries Limited. However because the U.S. map is about twice as big, both of these beer mug icons appear the same size).

The conclusions to be drawn from these maps include the following:

  • Within the United States, the most breweries with the most renewable energy capacity are mostly focused on the coastal regions. Specifically, the largest capacities are found on the West Coast in California and Oregon. These are two states that are known to have among the most progressive energy policies, so it’s no surprise that breweries in these states have jumped in feet first to the renewable energy revolution.
  • The United States does not have a monopoly at all when it comes to beer brewed with renewable energy. Not only are there a number of prominent breweries with renewable energy in Europe, but both the African and Asian continents are represented as well.

Click to enlarge

Click to enlarge

Honorable Mentions

As mentioned in the methodology section, there were a number of breweries that have initiatives in energy efficiency, sustainability, or other ‘green’ practices that were unable to be captured in this exercise that purely focused on renewable energy capacity. However, it only seems appropriate to still give these breweries a shout out for the positive efforts being put forth as well.

(Updated Honorable Mentions after originally posted– please keep these suggestions coming!)

  • Yards Brewing Co. in Philadelphia became Pennsylvania’s first 100% wind-powered brewery in 2011 (though figures on the total capacity were not available, which is the only reason they’re in the honorable mentions and not the main results).
  • Sawdust City Brewing in Ontario, Canada treats their wastewater on site.
  • Cowbell Brewing Co. is North America’s first 100% carbon neutral brewery.
  • Beau’s Brewery was the first Canadian brewery to be powered by 100% ‘green electricity.’
  • Sleeping Giant Brewing Company uses a host of sustainable practices, including the increasing use of renewable energy.
  • Steam Whistle Brewing in Toronto sources its energy from 100% renewable sources (also no mention of total use/capacity, so can’t add to the main results).
  • Rock Art Brewery became Vermont’s first 100% solar powered brewery in 2017.
  • The Alchemist in Vermont also sources nearly 100% of its energy from a local solar farm.
  • Moonraker Brewing Company boasts 1,100 solar panels on site.
If you know any other breweries that should be included in either the main results or these honorable mentions, please reach out to me by commenting here or heading to the contact page to let me know. Hopefully all breweries who deserve their pat on the back can get them!

Sources and Additional Reading

Beer giant Anheuser-Busch InBev commits to 100 percent renewable energy: CNBC

Beer History Timeline: BeerHistory.com

BeerAdvocate.com

Carlsberg aims to produce beer with renewable energy: Justmeans

Deschutes Brewery 2015 Sustainability Story: Deschutes Brewery

Early History of Brewing: Michigan State University

Green Beer Not Just for St. Patrick’s Day: Power Finance & Risk

Prost! 5 Breweries Embracing Renewable Energy: Renewable Energy World

Renewable Heating and Cooling for Breweries: Environmental Protection Agency

Renewables roadshow: how the people of Newtown got behind solar-powered beer

Top 50 Solar Beer Breweries: Solar Plaza (and all sources cited therein)

What is the Combined Heat and Power System (CHP)?: Yuengling Brewery

Wind Powered Brewery: Great Lakes Brewing Co. 

 

Updated on 10/6/17 to fix units

Updated on 10/8 to include additional breweries (Yard Brewing Co., Sawdust City Brewing, Cowbell Brewing Co., Beau’s Brewery, Sleeping Giant Brewing Company, Steam Whistle Brewing, Rock Art Brewery, The Alchemist, and Moonraker Brewing Company). 

 

 

About the author: Matt Chester is an energy analyst in Washington DC, studied engineering and science & technology policy at the University of Virginia, and operates this blog and website to share news, insights, and advice in the fields of energy policy, energy technology, and more. For more quick hits in addition to posts on this blog, follow him on Twitter @ChesterEnergy.  

 

Federal Register Notice: Costs and Benefits of Net Energy Metering: Request for Information

I’ve been excited to write a first post in the ‘Checking in on the Federal Register’ article series, but have been waiting for the right Notice to be posted in the Federal Register. Today is finally that day, as the Department of Energy (DOE) published a Notice of request for information (RFI) in the September 15, 2017 issue of the Federal Register (82 FR 43345). This Notice is a rather brief one, so I would encourage you to read it yourself, in addition to reading this post where I’ll summarize the important details and pre-emptively answer any questions you may have.

What is an RFI?

If you’ve already read my Policy Rulemaking Process for Dummies article, you might be confused—RFIs don’t appear anywhere in that summary of the typical rulemaking process. However, an RFI falls into the category of situations where a Notice of Proposed Rulemaking (NOPR) is not the first Federal Register notice. An RFI is issued, such as in this case, when a topic is particularly complex or contentious, and so the agency solicits public feedback earlier in the process to ensure it has all the best and most up-to-date data and information available before beginning its analysis.



In this instance, DOE indicates they are preparing a cost/benefit study on net metering as a part of the Grid Modernization Initiative. DOE is likely seeking out all possible resources and data sets from stakeholders because net metering is a very contentious issue and it is crucial to have all possible information before digging into the study.

Background of Net Metering

According to DOE, net metering, or net energy metering (NEM), is the “the practice of using a single meter to measure consumption and generation of electricity by a small generation facility (such as a house with a wind or solar photovoltaic system). The net energy produced or consumed is purchased from or sold to the power provider, respectively.” Thus, when these customers who generate their own electricity have generated more power than they are using, they are able to sell back their excess electricity to the utility who controls the transmission and distribution system to which they are connected.

The debate on net metering often pits companies and customers installing rooftop solar panels against utilities. The main crux of the debate surrounds rate design and the issue of whether customers whose excess solar power gets sold back into the larger utility grid system should be credited at the retail rate of electricity or if that unfairly results in these solar customers not paying their fair share of the grid upkeep costs.

These disputes have been commonly going to courts in states with frequent residential solar power installations. For a quick rundown of where each state stood on laws regarding net metering (as of late 2016), see this summary by the National Conference of State Legislatures. For a summary of the most contentious net metering legal battles going on in 2017, see this write up by Utility Dive. However since this is such a common and frequent debate across many different states, the best way to see the latest news is a quick Google search—the most recent development coming from just approved rules and regulations for net metering in Nevada.

What is being requested

In short, this RFI is requesting that stakeholders submit any relevant data, studies, or information they have in regards to the costs and benefits of net metering. DOE specifically requests information from the perspectives of the utilities’ business interests, the rate-paying consumers, and those tasked with addressing the technical and operational challenges of net metering.

As such, this RFI casts a rather wide net as to who prospective stakeholders would be—not only will the expected utilities and energy advocates likely submit comments, but the door is open for any private citizen or group of citizens to express their thoughts and concerns. As mentioned in the Policy Rulemaking Process for Dummies article, comment periods such as this one represent the best opportunities for you, either as a private citizen or a member of an organization, to directly impact potential regulations that could have real impacts on your life.

While there are numerous public studies available that DOE can, and certainly already has, referenced for their information gathering process, the key to this comment request is that they would like those with deep knowledge and experience with the topic to provide comment and context on those existing studies (specifically citing studies done since the beginning of 2012). DOE is hoping to hear if stakeholders find there to be any flaws in commonly cited studies on the topic, information that is not discussed in those studies, or data/information that stakeholders may have internally that have not yet been made public. In essence, this RFI from DOE is indicating they are studying the costs and benefits of net metering, and if you have any information you think is important to be included in that study then now is the time to raise your hand. The analysis generated from the information in this RFI will ultimately be presented to Congress.

Note: I have in the works a post on how to submit the most effective public comments, so if there appears to be interest on this post regarding the net metering RFI then I’ll make sure to move up publication of that subsequent post to be helpful for commenting on this Notice in advance of the comment submission deadline.

UPDATE: See this blog post for advice on making an effective public comment

Summary of RFI details

  • DOE published RFI asking for comments on the costs and benefits of net energy metering (82 FR 43345).
  • Specific topics DOE is interested in receiving comments on include:
    • Motivations and policy context of cost-benefit analyses of net metering;
    • Types of costs and benefits that should be considered for net metering;
    • Methodology issues typically encountered in net metering studies;
    • Context for what drives differing costs or benefits in different net metering studies; and
    • Any emerging issues that should be considered in future net metering studies that may not have been relevant to studies in the past.
  • Comments are to be submitted by October 30, 2017.
  • Further information is available at the Notice’s online docket, and questions can be directed to Kate Marks at the DOE Office of Energy Policy and Systems Analysis.
  • Feel free to contact me, through the Contact page or commenting below, if you have any questions you think I could answer as well.

 

 

 

Updated on October 10, 2017

About the author: Matt Chester is an energy analyst in Washington DC, studied engineering and science & technology policy at the University of Virginia, and operates this blog and website to share news, insights, and advice in the fields of energy policy, energy technology, and more. For more quick hits in addition to posts on this blog, follow him on Twitter @ChesterEnergy.