Evaluation of commercial biochar in South Korea for environmental application and carbon sequestration

Oh, Seok‐Young; Shin, Myoungsu; Seo, Yong‐Deuk; Cha, Soo-Won

doi:10.1002/ep.13440

Cited by 5 publications

(6 citation statements)

References 25 publications

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“…563 Biochar in concrete can also be helpful to combat sick building syndrome (SBS) by removing benzene and toluene from the environment, regardless of the type of biochar employed, as shown in a recent work conducted in South Korea. 564 In the conditions of the referred work, the addition of up to 10% of biochar in concrete was able to remove 40% of toluene and benzene from the atmosphere. Additional work also assessed the possible toxicity of concrete−biochar composites by conducting TCLP (toxicity characteristic leaching procedure) tests and showed that there is no risk of harmful effects on living creatures in indoor environments.…”

Section: So (Gas)mentioning

confidence: 94%

“…Additional work also assessed the possible toxicity of concrete−biochar composites by conducting TCLP (toxicity characteristic leaching procedure) tests and showed that there is no risk of harmful effects on living creatures in indoor environments. 564 However, further work should assess the performance of lower biochar percentages since, as mentioned earlier, in civil engineering constructions, biochar content is added up to around 3% and seldom up to 5%. 562 The necessity of looking for pathways for C storage in cementitious composites (e.g., concrete) is justified by the necessity of making the cement industry more sustainable from an environmental viewpoint.…”

Section: So (Gas)mentioning

confidence: 99%

“…Accordingly, and after measuring the C content in the resulting biochar−mortar composite, Oh et al showed that 1 kg of the composite containing 5% of a specific type of biochar could allow storing up to 34.9 g of CO 2 . 564…”

Section: Biochar Constituent Added To Cementitiousmentioning

confidence: 99%

“…Biochar enables the cementitious composite to hold free water for relatively longer times than formulations without biochar, which helps generate more cement hydration products and improve mechanical properties. , Nevertheless, the workability of the composite can be negatively affected if biochar is added above specific percentages. , Filling cementitious preparations with up to 2–3 mass% biochar has been shown to perform adequately. , Moreover, the thermal and acoustic properties of concrete can be improved by adding biochar (up to 15 mass%) . Biochar in concrete can also be helpful to combat sick building syndrome (SBS) by removing benzene and toluene from the environment, regardless of the type of biochar employed, as shown in a recent work conducted in South Korea . In the conditions of the referred work, the addition of up to 10% of biochar in concrete was able to remove 40% of toluene and benzene from the atmosphere.…”

Section: Environmental Applications Of Biocharmentioning

confidence: 99%

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Perspectives of Engineered Biochar for Environmental Applications: A Review

2022

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Research on using biochar for environmental applications has witnessed unprecedented advances in the past decade. Biochar is universally considered one of the best alternatives to store carbon to fight global warming. Thus, the sequential use of biochar in environmental remediation compatible with carbon sequestration is receiving growing attention. One of the reasons for such huge interest is the possibility to engineer biochar with targeted properties (e.g., surface area and chemistry) relevant to existing environmental issues. These properties can be achieved by selecting appropriate raw materials, processing conditions, carbonization technology, and the possibility of selecting postproduction modification approaches. The objective of this review is to summarize strategies to enhance biochar properties relevant to its use in environmental services (e.g., water purification, air/gas cleaning, construction materials, soil amendments) and the corresponding results on the use of this material for these applications. The main methods for enhancing biochar properties for environmental applications reviewed include activation (physical and chemical), oxidation, metal and metal oxide modification, metal-free heteroatom doping, and biological modification. Both modified and unmodified biochars have been used for soil amendments as adsorbents of pollutants in the aqueous phase (e.g., removal of P and N, heavy metals, and organic pollutants), adsorbents of pollutants in the gas phase (e.g., biogas cleaning), as a catalyst, as an additive for improving anaerobic digestion, and as an admixture to cementitious/construction materials, with promising results in all cases. New opportunities for using biochar are being reported as the science of biochar production, modification, and use advances.

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Section: So (Gas)mentioning

confidence: 94%

Section: So (Gas)mentioning

confidence: 99%

Section: Biochar Constituent Added To Cementitiousmentioning

confidence: 99%

Section: Environmental Applications Of Biocharmentioning

confidence: 99%

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Perspectives of Engineered Biochar for Environmental Applications: A Review

2022

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“…), abundant microchannels and stable aromatic chemical structure (such as alkaline pH and rich organic functional groups) 4 , biochar has been widely used as an environmentally friendly amendment for the treatment of wastewater and soil pollution 5 . For example, wood chip biochar (3–5%, wt) had a high ability to remove 2,4‐dinitrotoluene (DNT) and 2,4‐dichlorophenol (DCP) from an aqueous solution 6 .…”

Section: Introductionmentioning

confidence: 99%

Changes in surface characteristics and adsorption properties of 2,4,6-trichlorophenol following Fenton-like aging of biochar

Cui

Fan

Sun

et al. 2021

Sci Rep

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Fenton-like system formed in a natural soil environment deemed to be significant in the aging process of biochar. Aged biochars have distinct physico-chemical and surface properties compared to non-aged biochar. The aged biochar proved to be useful soil amendment due to its improved elements contents and surface properties. The biochar aging process resulted in increased surface area and pore volume, as well as carbon and oxygen-containing functional groups (such as C=O, –COOH, O–C=O etc.) on its surface, which were also associated with the adsorption behavior of 2,4,6-trichlorophenol (2,4,6-TCP). The biochar aging increased the adsorption capacity of 2,4,6-TCP, which was maximum at pH 3.0. The 2,4,6-TCP adsorption capacity of aged-bush biochar (ABB) and aged-peanut shell biochar (APB) was increased by 1.0–11.0% and 7.4–38.8%, respectively compared with bush biochar (BB) and peanut shell biochar (PB) at the same initial concentration of 2,4,6-TCP. All biochars had similar 2,4,6-TCP desorption rates ranging from 33.2 to 73.3% at different sorption temperatures and times. The desorbed components were mainly 2,4,6-TCP and other degraded components, which were low in concentration with small molecule substance. The results indicated that the aged-biochar could be effective for the long-term remediation of naturally organic polluted soils.

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Biochar for sustainable construction industry

Wang

Zhang

et al. 2023

Current Developments in Biotechnology and Bioengineering

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Evaluation of commercial biochar in South Korea for environmental application and carbon sequestration

Cited by 5 publications

References 25 publications

Perspectives of Engineered Biochar for Environmental Applications: A Review

Perspectives of Engineered Biochar for Environmental Applications: A Review

Changes in surface characteristics and adsorption properties of 2,4,6-trichlorophenol following Fenton-like aging of biochar

Biochar for sustainable construction industry

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