#Wineries #CO2 #Fermentation #Sustainability

CO2 Recovery for Wineries: Converting Carbon Losses into Lucrative Opportunities

CO2 recovery for wineries is fast becoming a key solution in the industry’s quest for sustainability. Often, the carbon dioxide generated during fermentation is an overlooked asset, yet it has immense potential to cut both costs and environmental impact. With wineries now placing a growing emphasis on sustainability, managing CO2 emissions effectively has become a crucial step forward. It’s no longer just about reducing a carbon footprint; it’s about turning these emissions into valuable opportunities for the future.
CO2 Recovery for Wineries
According to UC Davis professor Roger Boulton, the carbon dioxide released in the winemaking process is five times more concentrated than emissions from planes and cars. To put it in perspective, every litre of grape juice, approximately 60 litres of CO2 are produced, and a single bottle of wine contains around 80g of carbon dioxide. For winemakers striving to be serious leaders in sustainability, capturing these emissions is not just a choice—it’s a responsibility.

Wineries vs. Power Plants: A Tale of Two Emissions

When we compare CO2 emissions from wineries to those from power plants, the difference is as striking as a whisper against a roar. Wineries release CO2 during fermentation, a brief but impactful seasonal burst, while power plants are year-round emitters, continuously spewing massive amounts of greenhouse gases. Although power plants may dominate public perception with their visible emissions, often represented by the familiar image of plumes rising from smokestacks – although it’s usually steam, not CO2.

But here’s the catch: just because we don’t see billowing emissions from wineries doesn’t mean they get a free pass. CO2 is invisible, and while the wine industry’s emissions are smaller in scale, they still contribute to global warming.

Wineries might not yet be the poster children for carbon pollution, but that doesn’t mean they’re immune to scrutiny. Environmental awareness is catching up, and with sustainability becoming the buzzword of the century, even the art of winemaking is under the microscope.

Recover the CO2 at its source, don’t let it slip away.

In the wine industry, where tradition and innovation blend, there’s a growing realization that even fermentation—a seemingly natural process—leaves behind an environmental footprint. During fermentation, sugar is converted into alcohol and CO2, with significant amounts of carbon dioxide released into the atmosphere. But does it have to be this way?

Here is how Hypro MD, Ravi Varma puts it.

“Recovering CO2 at its source is the most effective solution, especially in the fermentation industry, where the purest form of CO2 is produced.”

CO2 produced in wine fermentation

Unlike power plants or other industrial processes that emit a cocktail of gases, the fermentation process offers wineries an opportunity to recover CO2 with 90% purity. This creates a powerful business case: why purchase CO2 for sparging and other processes when you can recover at source and reuse it from your own operations?

Hypro’s CO2 recovery systems take this approach to the next level, purifying the recovered CO2 to an impressive 99.998% v/v, making it suitable for use in bottling and sparging, among other applications.

By embracing CO2 recovery for winery, winemakers can align tradition with technology, creating a closed-loop system that honors the past while investing in the future. It’s time to stop letting CO2 slip away unnoticed—recover, purify it, and let your winery become a beacon of green innovation. It’s a shift that not only resonates with environmentally conscious consumers but also makes economic sense—sustainability and profitability are no longer mutually exclusive.

Would you like to explore other benefits of CO2 recovery or dive deeper into the technical specifications?

The Silent Contributors: Tracing CO2 Origins in Winemaking

In wineries, CO2 is primarily generated during the fermentation process when yeast converts sugars into alcohol and CO2. This process takes place in fermentation tanks and is especially prominent during the peak fermentation stages. Key sources of CO2 in wineries include:
Tracing CO2 Origins in Winemaking

Primary Fermentation

The most significant CO2 production occurs during primary fermentation when sugars are rapidly broken down. This phase generally lasts for a few days to weeks, depending on the type of wine being produced. White wines often produce CO2 faster due to cooler fermentation temperatures, while red wines may ferment more slowly.

Secondary Fermentation (Malolactic Fermentation)

In some cases, wineries use secondary fermentation, which converts malic acid into lactic acid. While this produces less CO2 than primary fermentation, it still contributes to the overall CO2 output.

Carbonation in Sparkling Wines

For sparkling wines, CO2 is either trapped naturally (through secondary fermentation in the bottle) or injected artificially during bottling. This is an additional source of CO2, though it doesn’t contribute to the winery’s overall CO2 footprint like fermentation does.

Waste Gas Streams

In addition to fermentation, other winery processes (like bottling or storage) can also emit small amounts of CO2 as part of off-gassing from stored wine or equipment cleaning.

From Vine to Vapor: Managing Chemical Obstacles in CO2 Recovery for Wineries

Variability in CO2 Production

Wineries produce CO2 primarily during the fermentation process, but this occurs only for a limited period, typically 3 to 4 months a year. Outside of this seasonal window, CO2 generation significantly drops, as there’s no active fermentation. This creates a unique challenge: during peak production, large amounts of CO2 are generated, requiring substantial storage capacity since much of it cannot be used immediately in-house. Wineries must invest in additional infrastructure for CO2 storage, and finding alternative uses or external buyers for the excess CO2 becomes critical for making the recovery system economically viable.

Presence of Impurities

During fermentation, CO2 is not the only by-product. Other volatile compounds like ethanol, sulfur dioxide (SO2), and traces of organic compounds are often present. These need to be removed during the CO2 purification process to ensure the final CO2 meets quality standards for reuse or sale.

Moisture Management

Fermentation generates significant moisture, which can lead to condensation in the recovery system. Excess moisture can cause corrosion in equipment or disrupt the CO2 compression and liquefaction stages. Proper drying techniques are required to ensure the CO2 is moisture-free before storage or reuse.

Handling Low CO2 Concentrations

CO2 concentrations in the fermentation off-gas can be relatively low compared to industrial processes. Efficient capture and concentration systems are needed to make recovery economically viable. Advanced separation technologies like membranes or cryogenic techniques can help, but they require careful control to avoid energy wastage.

Fermentation By-product Reactions

Some by-products in fermentation gases can react with each other or with equipment materials under certain conditions, creating fouling or corrosion risks. For example, sulfur compounds in the gas stream may react with moisture, forming acidic compounds like sulfurous acid that can damage equipment if not properly handled.

Temperature Sensitivity

Winery fermentation processes are temperature-dependent, and fluctuating temperatures can affect the CO2 recovery process. Inconsistent fermentation temperatures could result in different CO2 production rates or variations in impurity levels, making it challenging to maintain optimal recovery conditions. Addressing these complications requires a well-designed system with advanced purification, drying, and storage capabilities to ensure efficient CO2 recovery and minimize operational issues.

Making Every Drop Count: The Case for CO2 Recovery in Wineries

At first glance, the cost of installing a CO2 recovery system in a winery might seem daunting. But let’s look beyond the initial numbers—when done right, this investment pays for itself in ways that stretch beyond financial returns. From slashing operational costs to unlocking new revenue streams, CO2 recovery offers long-term benefits that wineries can’t afford to ignore.

Savings on Purchased CO2 : Reclaim What’s Already Yours

Why buy CO2 when you can harvest it from your own production process? Many wineries use external CO2 for bottling, blanketing, and, in some cases, carbonation for sparkling wines. By capturing and purifying the CO2 released during fermentation, you essentially recycle your resources and cut down on expenses.

Savings on Purchased CO2 - Reclaim What’s Already Yours​.

Picture this: A Napa Valley winery using around 50 tons of CO2 each year for bottling and inerting gases can save up to USD 25,000 annually by reclaiming their own CO2. Over a decade, that’s a quarter of a million dollars saved, which can easily offset the cost of the recovery system, making it a no-brainer.

Environmental Impact: Turning Sustainability into Profitability

As consumers increasingly demand eco-friendly products, wineries that embrace CO2 recovery can position themselves as leaders in sustainability. This isn’t just a feel-good story—it’s a compelling marketing advantage that can bring premium pricing.

Take a cue from New Zealand: A winery there adopted CO2 recovery and spun it into their sustainability narrative. Their commitment to green practices boosted their international sales by 15%, especially in eco-conscious markets, proving that sustainability isn’t just good for the planet—it’s good for business.

Secondary Revenue Streams: CO2 Beyond the Winery

What if your winery captures more CO2 than it needs? The surplus can become an additional revenue stream. By selling purified CO2 to neighboring breweries, food processors, or beverage manufacturers, wineries can turn what was once a waste product into cash.

Secondary Revenue Streams for Winery

For example: A wine producer in Spain recovered an extra 30 tons of CO2 during the fermentation peak and sold it to a local brewery, netting an additional USD 10,000 in revenue each season. This side hustle effectively cut two years off the recovery system’s payback period.

Government Incentives: Grants and Tax Rebates

In places like California or the European Union, wineries that install CO2 recovery systems can benefit from tax rebates or government grants aimed at promoting sustainability. These incentives can reduce upfront costs significantly, making the investment even more attractive.

Consider Italy: A winery qualified for a 40% EU Green Deal grant that slashed their initial capital outlay from USD 100,000 to USD 60,000. With reduced costs, the winery expects to see full ROI within 3-4 years, thanks to savings on purchased CO2 and revenue from surplus sales.

Reducing Your Carbon Footprint: Certification with Perks

reduce-carbon-footprint.
Implementing a CO2 recovery system can drastically reduce your winery’s carbon footprint, helping you achieve certifications like carbon-neutral or even B Corporation status. These accolades aren’t just trophies—they open doors to new markets and allow for premium pricing. An Australian winery reached carbon-neutral certification after implementing a CO2 recovery system. The certification didn’t just enhance their brand’s green credentials—it allowed them to charge a 10% premium for their wines, which boosted profitability and shortened the payback period for their CO2 system to just five years.

The Bottom Line: Return on Investment

CO2 recovery for wineries isn’t just about saving the environment—it’s about making a smart financial play. But here’s the catch: to truly unlock its potential, wineries must find ways to use or sell the CO2, since most can’t be used in-house. While savings on purchased CO2 and potential revenue from surplus sales can offset costs, the true payback depends on tapping into external applications or markets.

That said, when done right, the investment can pay for itself over time, turning what might seem like an upfront expense into a long-term revenue booster. It’s not just an environmental win—it’s an opportunity to future-proof your business and strengthen your bottom line.

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