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Toward net-zero sustainable aviation fuel with wet waste–derived volatile fatty acids

Huq, Nabila A. ; Hafenstine, Glenn R. ; Huo, Xiangchen ; [weitere]

Proceedings of the National Academy of Sciences ; 2021

In: Proceedings of the National Academy of Sciences Vol. 118, No. 13 ( 2021-03-30)

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In: Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, Vol. 118, No. 13 ( 2021-03-30)

Kurzfassung: With the increasing demand for net-zero sustainable aviation fuels (SAF), new conversion technologies are needed to process waste feedstocks and meet carbon reduction and cost targets. Wet waste is a low-cost, prevalent feedstock with the energy potential to displace over 20% of US jet fuel consumption; however, its complexity and high moisture typically relegates its use to methane production from anaerobic digestion. To overcome this, methanogenesis can be arrested during fermentation to instead produce C 2 to C 8 volatile fatty acids (VFA) for catalytic upgrading to SAF. Here, we evaluate the catalytic conversion of food waste–derived VFAs to produce n-paraffin SAF for near-term use as a 10 vol% blend for ASTM “Fast Track” qualification and produce a highly branched, isoparaffin VFA-SAF to increase the renewable blend limit. VFA ketonization models assessed the carbon chain length distributions suitable for each VFA-SAF conversion pathway, and food waste–derived VFA ketonization was demonstrated for 〉 100 h of time on stream at approximately theoretical yield. Fuel property blending models and experimental testing determined normal paraffin VFA-SAF meets 10 vol% fuel specifications for “Fast Track.” Synergistic blending with isoparaffin VFA-SAF increased the blend limit to 70 vol% by addressing flashpoint and viscosity constraints, with sooting 34% lower than fossil jet. Techno-economic analysis evaluated the major catalytic process cost-drivers, determining the minimum fuel selling price as a function of VFA production costs. Life cycle analysis determined that if food waste is diverted from landfills to avoid methane emissions, VFA-SAF could enable up to 165% reduction in greenhouse gas emissions relative to fossil jet.

Materialart: Online-Ressource

ISSN: 0027-8424 , 1091-6490

URL: Article

DOI: 10.1073/pnas.2023008118

RVK:

TA 1000

RVK:

WA 15000

Sprache: Englisch

Verlag: Proceedings of the National Academy of Sciences

Publikationsdatum: 2021

ZDB Id: 209104-5

ZDB Id: 1461794-8

SSG: 11

SSG: 12

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Performance-advantaged ether diesel bioblendstock production by a priori design

Huq, Nabila A. ; Huo, Xiangchen ; Hafenstine, Glenn R. ; [weitere]

Proceedings of the National Academy of Sciences ; 2019

In: Proceedings of the National Academy of Sciences Vol. 116, No. 52 ( 2019-12-26), p. 26421-26430

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In: Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, Vol. 116, No. 52 ( 2019-12-26), p. 26421-26430

Kurzfassung: Lignocellulosic biomass offers a renewable carbon source which can be anaerobically digested to produce short-chain carboxylic acids. Here, we assess fuel properties of oxygenates accessible from catalytic upgrading of these acids a priori for their potential to serve as diesel bioblendstocks. Ethers derived from C 2 and C 4 carboxylic acids are identified as advantaged fuel candidates with significantly improved ignition quality ( 〉 56% cetane number increase) and reduced sooting ( 〉 86% yield sooting index reduction) when compared to commercial petrodiesel. The prescreening process informed conversion pathway selection toward a C 11 branched ether, 4-butoxyheptane, which showed promise for fuel performance and health- and safety-related attributes. A continuous, solvent-free production process was then developed using metal oxide acidic catalysts to provide improved thermal stability, water tolerance, and yields. Liter-scale production of 4-butoxyheptane enabled fuel property testing to confirm predicted fuel properties, while incorporation into petrodiesel at 20 vol % demonstrated 10% improvement in ignition quality and 20% reduction in intrinsic sooting tendency. Storage stability of the pure bioblendstock and 20 vol % blend was confirmed with a common fuel antioxidant, as was compatibility with elastomeric components within existing engine and fueling infrastructure. Technoeconomic analysis of the conversion process identified major cost drivers to guide further research and development. Life-cycle analysis determined the potential to reduce greenhouse gas emissions by 50 to 271% relative to petrodiesel, depending on treatment of coproducts.

Materialart: Online-Ressource

ISSN: 0027-8424 , 1091-6490

URL: Article

DOI: 10.1073/pnas.1911107116

RVK:

TA 1000

RVK:

WA 15000

Sprache: Englisch

Verlag: Proceedings of the National Academy of Sciences

Publikationsdatum: 2019

ZDB Id: 209104-5

ZDB Id: 1461794-8

SSG: 11

SSG: 12

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Lignin valorization through integrated biological funneling and chemical catalysis

Linger, Jeffrey G. ; Vardon, Derek R. ; Guarnieri, Michael T. ; [weitere]

Proceedings of the National Academy of Sciences ; 2014

In: Proceedings of the National Academy of Sciences Vol. 111, No. 33 ( 2014-08-19), p. 12013-12018

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In: Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, Vol. 111, No. 33 ( 2014-08-19), p. 12013-12018

Kurzfassung: Lignin is an energy-dense, heterogeneous polymer comprised of phenylpropanoid monomers used by plants for structure, water transport, and defense, and it is the second most abundant biopolymer on Earth after cellulose. In production of fuels and chemicals from biomass, lignin is typically underused as a feedstock and burned for process heat because its inherent heterogeneity and recalcitrance make it difficult to selectively valorize. In nature, however, some organisms have evolved metabolic pathways that enable the utilization of lignin-derived aromatic molecules as carbon sources. Aromatic catabolism typically occurs via upper pathways that act as a “biological funnel” to convert heterogeneous substrates to central intermediates, such as protocatechuate or catechol. These intermediates undergo ring cleavage and are further converted via the β-ketoadipate pathway to central carbon metabolism. Here, we use a natural aromatic-catabolizing organism, Pseudomonas putida KT2440, to demonstrate that these aromatic metabolic pathways can be used to convert both aromatic model compounds and heterogeneous, lignin-enriched streams derived from pilot-scale biomass pretreatment into medium chain-length polyhydroxyalkanoates ( mcl -PHAs). mcl -PHAs were then isolated from the cells and demonstrated to be similar in physicochemical properties to conventional carbohydrate-derived mcl -PHAs, which have applications as bioplastics. In a further demonstration of their utility, mcl -PHAs were catalytically converted to both chemical precursors and fuel-range hydrocarbons. Overall, this work demonstrates that the use of aromatic catabolic pathways enables an approach to valorize lignin by overcoming its inherent heterogeneity to produce fuels, chemicals, and materials.

Materialart: Online-Ressource

ISSN: 0027-8424 , 1091-6490

URL: Article

DOI: 10.1073/pnas.1410657111

RVK:

TA 1000

RVK:

WA 15000

Sprache: Englisch

Verlag: Proceedings of the National Academy of Sciences

Publikationsdatum: 2014

ZDB Id: 209104-5

ZDB Id: 1461794-8

SSG: 11

SSG: 12

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Online-Ressource

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