Biochar and compost production both use organic materials. The difference lies in their compatibility level. Wet, nutrient-rich organic materials with little lignin are more suitable for compost production. Dry, lignin-rich organic materials are more suitable for biochar production. Therefore, sorting these organic materials is necessary to achieve optimal results. With organic waste comprising up to 60% of municipal waste, the raw material requirements for both biochar and compost production are estimated to be substantial.
Biochar production is a thermal process, while compost production is a biological process. A biochar production unit, a pyrolysis unit, can be installed adjacent to and integrated with a compost production unit at municipal waste treatment facilities and similar facilities. The biochar product is then used to produce compost, improving the quality of the compost to premium compost and accelerating composting times. For more details, read here. Premium compost can also be sold at a higher price commensurate with its quality. Excess energy from biochar production or pyrolysis operations can be utilized in the waste processing of RDF fractions or others.
The production potential of this premium compost is enormous. This makes it suitable for use on critical land from post-mining reclamation, which covers millions of hectares, or even hundreds of millions of hectares of degraded drylands. When premium compost is applied to unproductive or less productive land, it becomes fertile. For example, revegetation of post-mining reclaimed land will yield a variety of agricultural or plantation products that are economically, environmentally, and socially beneficial. Biochar, with its high carbon content, will persist in the soil for hundreds of years and, as a carbon sequestration measure, can be offset by earning carbon credits.
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