Correction: Advances in energy systems for valorization of aqueous byproducts generated from hydrothermal processing of biomass and systems thinking (Green Chemistry (2019) 21 (2518-2543) DOI: 10.1039/C8GC03611J)

Yexuan Gu, Xuesong Zhang, Brian Deal, Lujia Han, Jilu Zheng, Haoxi Ben

Research output: Contribution to journalComment/debate

Abstract

The authors wish to draw the readers' attention to their related review article, previously published in Bioresource Technology,1 which should have been cited in this Green Chemistry article. This Green Chemistry review article is focused on the valorization of hydrothermal (hydrothermal liquefaction and hydrothermal carbonization) aqueous waste by physicochemical systems, whereas ref. 1 is primarily related to the treatment of hydrothermal liquefaction wastewater by biological systems. However, although the two review papers have a different emphasis, ref. 1 should have been cited in this Green Chemistry paper. In addition, Fig. 4B, 7 and Table 1 were adapted from ref. 1, therefore, the captions should be amended as shown here. The caption for Fig. 4B should be changed to "Fig. 4B Schematic diagram of integrated systems to valorize HTL-AW: combined GAC adsorption/ozone with biologicals systems (AD and microalgae cultivation), adapted from ref. 172 and ref. 1". The caption for Fig. 7 should be changed to "Fig. 7 Existing and potential integrations of different systems for HTL aqueous waste valorization. Solid lines among systems indicate that the integration has been carried out and dash lines indicate potential integrations for further development. The lines with arrows in the middle indicate the integration is among three systems. Adapted from ref. 1". The caption for Table 1 should be changed to "Table 1 Typical characteristics of the aqueous waste stream produced from the HTL of various biomass. Adapted from ref. 1". The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.

Original languageEnglish (US)
Number of pages1
JournalGreen Chemistry
Volume21
Issue number21
DOIs
StatePublished - Jan 1 2019

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Byproducts
Biomass
biomass
Biological systems
Liquefaction
Processing
liquefaction
energy
Ozone
Carbonization
Schematic diagrams
Wastewater
diagram
ozone
adsorption
Adsorption
wastewater

ASJC Scopus subject areas

  • Environmental Chemistry
  • Pollution

Cite this

@article{2d9e430aebe44ccd9522cea67aef375c,
title = "Correction: Advances in energy systems for valorization of aqueous byproducts generated from hydrothermal processing of biomass and systems thinking (Green Chemistry (2019) 21 (2518-2543) DOI: 10.1039/C8GC03611J)",
abstract = "The authors wish to draw the readers' attention to their related review article, previously published in Bioresource Technology,1 which should have been cited in this Green Chemistry article. This Green Chemistry review article is focused on the valorization of hydrothermal (hydrothermal liquefaction and hydrothermal carbonization) aqueous waste by physicochemical systems, whereas ref. 1 is primarily related to the treatment of hydrothermal liquefaction wastewater by biological systems. However, although the two review papers have a different emphasis, ref. 1 should have been cited in this Green Chemistry paper. In addition, Fig. 4B, 7 and Table 1 were adapted from ref. 1, therefore, the captions should be amended as shown here. The caption for Fig. 4B should be changed to {"}Fig. 4B Schematic diagram of integrated systems to valorize HTL-AW: combined GAC adsorption/ozone with biologicals systems (AD and microalgae cultivation), adapted from ref. 172 and ref. 1{"}. The caption for Fig. 7 should be changed to {"}Fig. 7 Existing and potential integrations of different systems for HTL aqueous waste valorization. Solid lines among systems indicate that the integration has been carried out and dash lines indicate potential integrations for further development. The lines with arrows in the middle indicate the integration is among three systems. Adapted from ref. 1{"}. The caption for Table 1 should be changed to {"}Table 1 Typical characteristics of the aqueous waste stream produced from the HTL of various biomass. Adapted from ref. 1{"}. The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.",
author = "Yexuan Gu and Xuesong Zhang and Brian Deal and Lujia Han and Jilu Zheng and Haoxi Ben",
year = "2019",
month = "1",
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language = "English (US)",
volume = "21",
journal = "Green Chemistry",
issn = "1463-9262",
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T2 - Advances in energy systems for valorization of aqueous byproducts generated from hydrothermal processing of biomass and systems thinking (Green Chemistry (2019) 21 (2518-2543) DOI: 10.1039/C8GC03611J)

AU - Gu, Yexuan

AU - Zhang, Xuesong

AU - Deal, Brian

AU - Han, Lujia

AU - Zheng, Jilu

AU - Ben, Haoxi

PY - 2019/1/1

Y1 - 2019/1/1

N2 - The authors wish to draw the readers' attention to their related review article, previously published in Bioresource Technology,1 which should have been cited in this Green Chemistry article. This Green Chemistry review article is focused on the valorization of hydrothermal (hydrothermal liquefaction and hydrothermal carbonization) aqueous waste by physicochemical systems, whereas ref. 1 is primarily related to the treatment of hydrothermal liquefaction wastewater by biological systems. However, although the two review papers have a different emphasis, ref. 1 should have been cited in this Green Chemistry paper. In addition, Fig. 4B, 7 and Table 1 were adapted from ref. 1, therefore, the captions should be amended as shown here. The caption for Fig. 4B should be changed to "Fig. 4B Schematic diagram of integrated systems to valorize HTL-AW: combined GAC adsorption/ozone with biologicals systems (AD and microalgae cultivation), adapted from ref. 172 and ref. 1". The caption for Fig. 7 should be changed to "Fig. 7 Existing and potential integrations of different systems for HTL aqueous waste valorization. Solid lines among systems indicate that the integration has been carried out and dash lines indicate potential integrations for further development. The lines with arrows in the middle indicate the integration is among three systems. Adapted from ref. 1". The caption for Table 1 should be changed to "Table 1 Typical characteristics of the aqueous waste stream produced from the HTL of various biomass. Adapted from ref. 1". The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.

AB - The authors wish to draw the readers' attention to their related review article, previously published in Bioresource Technology,1 which should have been cited in this Green Chemistry article. This Green Chemistry review article is focused on the valorization of hydrothermal (hydrothermal liquefaction and hydrothermal carbonization) aqueous waste by physicochemical systems, whereas ref. 1 is primarily related to the treatment of hydrothermal liquefaction wastewater by biological systems. However, although the two review papers have a different emphasis, ref. 1 should have been cited in this Green Chemistry paper. In addition, Fig. 4B, 7 and Table 1 were adapted from ref. 1, therefore, the captions should be amended as shown here. The caption for Fig. 4B should be changed to "Fig. 4B Schematic diagram of integrated systems to valorize HTL-AW: combined GAC adsorption/ozone with biologicals systems (AD and microalgae cultivation), adapted from ref. 172 and ref. 1". The caption for Fig. 7 should be changed to "Fig. 7 Existing and potential integrations of different systems for HTL aqueous waste valorization. Solid lines among systems indicate that the integration has been carried out and dash lines indicate potential integrations for further development. The lines with arrows in the middle indicate the integration is among three systems. Adapted from ref. 1". The caption for Table 1 should be changed to "Table 1 Typical characteristics of the aqueous waste stream produced from the HTL of various biomass. Adapted from ref. 1". The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.

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