From cocoa shells to biochar: the power to reduce carbon emissions and produce green energy

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biochar: the power to reduce carbon emissions and produce green energy

From cocoa shells to biochar: the power to reduce carbon emissions and produce green energy

Story
On December 3, 2020, our fourth Forever Chocolate Report will be published showing the progress we are making towards our 2025 targets. Innovation is at the heart of our advancement, and this year, we embarked on an exciting, and industry first, project to commence the transformation of cocoa by-products into biochar.

Over the last two years, Barry Callebaut has been working on an innovative project to produce biochar, also known as ‘agriculture's black gold’. In 2020, we ramped up the infrastructure to commence producing biochar in one of our European factories.  So what is biochar? How does biochar help us to reach our 2025 Forever Chocolate targets? To answer these questions, we ask our colleagues Geza Toth, Global Forest and Carbon Program Lead and Neelke Verhelst, Global Sustainability Operations Lead.

Geza Toth, Global Forest and Carbon Program Lead

Geza Toth, Global Forest and Carbon Program Lead

What exactly is biochar and what can we use it for?

Geza: Biochar looks very similar to charcoal, and is produced by pyrolysis.  In simple terms, this means that biomass, such as agricultural or forest biomass waste, is heated to a very high temperature without oxygen to produce energy and biochar. What is very interesting about biochar is that it can help to mitigate climate change. It can be used to produce energy, permanently store carbon, improve soil quality and reduce waste.

By using our cocoa shells to produce Biochar, it would help us with achieving our Forever Chocolate target of becoming carbon positive by 2025.

Biochar can be used to produce green energy, permanently store carbon, improve soil quality and reduce waste.

Image provided by Ithaka Institute.

Using our cocoa shells to produce biochar, will help us with achieving our Forever Chocolate target of becoming carbon positive by 2025. Ultimately, we want to benefit the climate by creating carbon circularity. We can use the cocoa shells to create green energy in our factories, as a fertilizer enhancer in soil, and as a carbon sink. A simple example of a carbon sink is that while trees can ‘temporarily remove’ carbon from the atmosphere, biochar applied to soil can capture carbon and store it for hundreds of years, thus creating a permanent carbon sink.

Using our cocoa shells to produce biochar, will help us with achieving our Forever Chocolate targets of becoming carbon positive by 2025.
Geza Toth, Global Forest and Carbon Program Lead
Neelke Verhelst, Global Sustainability Operations Lead

Neelke Verhelst, Global Sustainability Operations Lead

Where did the concept for biochar originate?

Neelke: Admittedly, at the beginning, the idea of producing biochar was quite conceptual. However, one of the great benefits of Barry Callebaut is the innovative culture and encouragement to think outside-of-the-box to find creative solutions. We also partnered with Circular Carbon, who provided us with the technical expertise to translate the idea of producing biochar into practical reality.

One of the great benefits of Barry Callebaut is the innovative culture and encouragement to think outside-of-the-box to find creative solutions.
Neelke Verhelst, Global Sustainability Operations Lead

Can you explain the process of converting cocoa shells to green energy?

Geza: In our factories the energy being released by the very efficient pyrolysis process of turning cocoa shells into biochar will be re-used for steam production, thus creating green energy. We will use this energy to help power our facilities.

At farm level, agricultural residues such as cocoa pod husks or pruning material will be trialed to create biochar.

At farm level, agricultural residues such as cocoa pod husks or pruning material will be trialed to create biochar.

I understand converting cocoa shells into green energy, so what are the plans for improving soil quality? 


Neelke: We are also looking into the production of biochar at farm level. In the cocoa origin countries where we source from, Biochar can be used on cocoa farms for use as a natural fertilizer enhancer.  Biochar has a remarkable ability to act like a sponge, so if you mix fertilizer with Biochar, it enables the fertilizer to be very slow releasing.  At farm level, instead of using cocoa shells, which will be used at processing level to create green energy, we are looking at creating Biochar from agricultural residues, like empty cocoa pod husks, pruning material, and other residues.

The ultimate goal is to keep biomass on the farm and enhance living soils. By combining the use of biochar with compost, for example, we also reduce methane emissions from the decomposition of farm waste. To put this into perspective, the carbon released into the atmosphere from dead plant material and decomposing biomass, globally, is about 10 times more than carbon released by fossil fuel burning. So you can see, there is a very good reason to consider how we can utilize agricultural ‘left-overs’ to create valuable biochar. A real circular economy business case, which benefits both cocoa farmers and business!

Looking to 2021, what are the next steps?

Geza: We are collaborating with the Ithaka Institute and currently trialling the use of biochar in the field to evaluate the impacts of improved soil quality. In the end, our aim is to increase cocoa yield, reduce the need for agrochemicals, and ultimately increase farmer livelihoods.  In terms of using biochar for green energy to fuel our facilities, we are very excited that the infrastructure is now established in one of our European sites, with the plan to scale this further.

Vegetable and cocoa planting.

The application of biochar at farm level can help to reduce the use of agrochemicals as well as improve soil quality and ultimately, increase cocoa yield.

Our Forever Chocolate target to be carbon and forest positive combines, in a systematic way, forest protection, conversion of monocultures to agroforestry, biochar application, ecological restoration, landscape-level thinking. The combined impact is so much more than disconnected projects. We want to make our activities available for our customers, to engage, scale and innovate with us.

Taryn Ridley

Taryn Ridley

Working as Head of ESG in the Sustainability team of Barry Callebaut. Native Australian, but loves living in the land of the Toblerone. Passionate about a range of sports, nature and travelling.

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