Kranti Navaré scite author profile

The profitability and sustainability of future biorefineries are dependent on efficient feedstock use. Therefore, it is essential to valorize lignin when using wood. We have developed an integrated biorefinery that converts 78 weight % (wt %) of birch into xylochemicals. Reductive catalytic fractionation of the wood produces a carbohydrate pulp amenable to bioethanol production and a lignin oil. After extraction of the lignin oil, the crude, unseparated mixture of phenolic monomers is catalytically funneled into 20 wt % of phenol and 9 wt % of propylene (on the basis of lignin weight) by gas-phase hydroprocessing and dealkylation; the residual phenolic oligomers (30 wt %) are used in printing ink as replacements for controversial para-nonylphenol. A techno-economic analysis predicts an economically competitive production process, and a life-cycle assessment estimates a lower carbon dioxide footprint relative to that of fossil-based production.

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Circular economy monitoring – How to make it apt for biological cycles?

Navaré

Muys

Vrancken³

et al. 2021

Resources, Conservation and Recycling

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Highlights1. Existing circular economy (CE) monitors, mainly, assess the extent to which resources are looped back in the economy and seem less apt for assessing the circularity of biological cycles. 2. Characteristics of biological cycles, that distinguish them from technical cycles, are their renewability, potential use in cascading, closing the biological nutrient loop, and the environmental impact of biotic resources depletion, land-use and biogenic carbon flows. 3. These characteristics need to be added to CE monitoring criteria, to ensure the sustainable and circular use of natural resources.

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Assessment of the environmental sustainability of solvent-less fatty acid ketonization to bio-based ketones for wax emulsion applications

et al. 2021

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Conversion of birch bark to biofuels

et al. 2020

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Environmental impact assessment of cascading use of wood in bio-fuels and bio-chemicals

Navaré

Arts

Faraca

et al. 2022

Resources, Conservation and Recycling

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Reductive Catalytic Fractionation: From Waste Wood to Functional Phenolic Oligomers for Attractive, Value-Added Applications

Bossche

Vangeel

Aelst

et al. 2021

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Statistical entropy analysis to evaluate cascading use of wood

Navaré

Vrancken

Acker

2021

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Contribution Towards a Comprehensive Methodology for Wood-Based Biomass Material Flow Analysis in a Circular Economy Setting

Marques

Cunha

Meyer

et al. 2020

Forests

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It is challenging to quantify the production of wood-based biomass, to define the type and where it comes from, how it is used, and the amount that remains available. This information is crucial for the implementation of national and transnational regulations and is a pillar for the development of the future bio-based circular economy. A variety of studies estimate the production of biomass, performs material flow analyses, or addresses supply chain modelling. These studies are often built upon distinct assumptions, tailored to a specific purpose, and often poorly described. This makes comparison amongst studies, generalization of results, or replication hard to even impossible. This paper presents a comprehensive methodology for wood-based biomass material flow analysis, anchored in Material Flow Analysis, built upon literature review and deducted through systematization of previous studies. This is a five-step approach, consisting of (1) adopt proper terminology; (2) obtain accurate estimates for the biomass flows; (3) Sankey diagram for resource balance representation; (4) scenario analysis; (5) stakeholders validation. The focus is to provide instructions for producing a generalized Sankey diagram, from the categorization of biomass resources, uses/applications in a circular economy setting, towards the development of scenario analysis. Its practical implementation is presented by defining the yearly wood-based biomass resource balance of Portugal and the waste wood resource balance of Flanders. The main data sources for the quantification of the biomass sources and uses/applications are identified. Based on the insights from these case studies, our methodological approach already shows to be replicable and with comparable results. This enables the comparison of resource flows between different regions and countries and also monitoring the progress over time. This leads to improved data which can be instruments for supporting companies’ decision-making processes (e.g., infrastructure investments or other strategic decisions), as well as designing policy strategies and incentives.

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Kranti Navaré

A sustainable wood biorefinery for low–carbon footprint chemicals production

Circular economy monitoring – How to make it apt for biological cycles?

Assessment of the environmental sustainability of solvent-less fatty acid ketonization to bio-based ketones for wax emulsion applications

Conversion of birch bark to biofuels

Environmental impact assessment of cascading use of wood in bio-fuels and bio-chemicals

Reductive Catalytic Fractionation: From Waste Wood to Functional Phenolic Oligomers for Attractive, Value-Added Applications

Statistical entropy analysis to evaluate cascading use of wood

Contribution Towards a Comprehensive Methodology for Wood-Based Biomass Material Flow Analysis in a Circular Economy Setting

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