| Name: | Description: | Size: | Format: | |
|---|---|---|---|---|
| 3.76 MB | Adobe PDF |
Authors
Advisor(s)
Abstract(s)
Bark-based biorefineries are estimated to become a trending topic in the coming years, particularly
with their adsorbent applications and antioxidant production. While the potential benefits of
bark-based biorefineries are well-recognized, it is not known how to develop a bark-based biorefinery
considering different unit operations and the potential end products. The characterization and screening
of different barks for chemical composition is the initial step in biorefinery development, along
with the selection of the relevant conversion processes. This state-of-the-art review provides background
knowledge on the pyrolysis and extraction studies of bark as the key conversion operations.
The results of recent (2010–2022) bark pyrolysis and extraction studies were critically analyzed for
process conditions, product properties, and product yields, as well as a discussion of energy-saving
possibilities. A biorefinery scheme was proposed based on these data. The current knowledge gaps
were identified and future directions were evaluated, which include the production of charcoals,
platform chemicals, and extract profiling for specific applications. The results indicate that barks
are particularly rich in hydrophilic extractives with potential antioxidant properties and pyrolysis
operations, resulting in functional chars that may be used in value-added applications as adsorbent
materials. A biorefinery scheme allows for the production of platform chemicals, antioxidant extracts
and biochars from barks while contributing to the reduction of waste and environmental pollution.
Description
Keywords
biomass biofuels extractives fractionation platform chemicals
Pedagogical Context
Citation
¸Sen, U.; Esteves, B.; Pereira, H. Pyrolysis and extraction of bark in a biorefineries context: A critical review. Energies 2023, 16, 4848.
Publisher
MDPI