Recent advancements in biochar production according to feedstock classification, pyrolysis conditions, and applications: A review

Chun, Youngsang; Lee, Soo Kweon; Yoo, Hah Young; Kim, Seung Wook

doi:10.15376/biores.16.3.chun

Cited by 31 publications

(12 citation statements)

References 54 publications

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“…Biochar was prepared through an artisanal method of slow pyrolysis, which consists of heating biomass waste (feedstock) into a reactor (made from two metallic drums) for one day. The reader is referred to [27] for more details on this type of slow pyrolysis. Some properties of biochar are shown in Table 2.…”

Section: Experimental Design and Organic Amendmentsmentioning

confidence: 99%

“…Biochar can persist in soils for hundreds or thousands of years and, by increasing soil pH, porosity, and water availability, can create favourable conditions for the development of plant roots and the growth of microbial communities [25]. Biochar can be produced by simple artisanal processes, using local organic resources from agricultural and forestry activities as feedstock [27], which can be a useful way of recycling those materials and having a positive impact on a smallholder's income.…”

Section: Introductionmentioning

confidence: 99%

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Under a Tropical Climate and in Sandy Soils, Bat Guano Mineralises Very Quickly, Behaving More like a Mineral Fertiliser than a Conventional Farmyard Manure

2023

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In sub-Saharan Africa, soil fertility management must rely on local fertiliser resources since most smallholder farmers do not have access to industrial fertilisers. In Vilankulo, Mozambique, farmers have access to bat guano and biochar, albeit in small amounts, which makes it even more necessary to manage them correctly to maximise crop productivity. This study was carried out with irrigated maize (Zea mays L.) in a haplic Lixisol during the 2017/2018 and 2019 growing seasons. Nine treatments were established consisting of the application of 5 (G5) and 10 (G10) t ha−1 of guano at sowing, 5 (B5) and 10 (B10) t ha−1 of biochar at sowing, 5 [G5(-1)] and 10 [G10(-1)] t ha−1 of guano one month before sowing, 1 and 4 (B1G4) and 2 and 8 (B2G8) t ha−1 of biochar and guano, respectively, at sowing and an unfertilised control (C). Treatments G10 and B2G8 led to the highest maize yields (3.77 and 2.68 t ha−1 in 2018 and 5.05 and 5.17 t ha−1 in 2019, respectively), and were statistically higher than those of the control (1.35 and 1.63 kg ha−1, respectively). Apparent nitrogen recovery from bat guano was close to 100%, showing almost complete mineralisation during the maize growing season, due to its low carbon/nitrogen ratio and very favourable environmental conditions for mineralisation. Due to the fast release of nutrients, bringing forward the application of the organic amendment before sowing is not recommended, since it reduces nutrient use efficiency. Biochar did not significantly influence maize grain yield or contribute significantly to plant nutrition. To take advantage of its potential effect on some soil properties, its use in combination with other materials of greater fertilising value is recommended.

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Section: Experimental Design and Organic Amendmentsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Under a Tropical Climate and in Sandy Soils, Bat Guano Mineralises Very Quickly, Behaving More like a Mineral Fertiliser than a Conventional Farmyard Manure

2023

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“…Application of biochar to agricultural soils has shown variable effects on GHG emissions, ranging from decrease, increase, or no change. Beneficial effects of biochar depend on biochar properties that can vary greatly with type of feedstock (Abagandura et al., 2019; Fungo et al., 2014; He et al., 2017) and production process (Chun et al., 2021; Freitas et al., 2020; He et al., 2017). The benefits of biochar also vary with crop (Olszyk et al., 2020; Shakoor, Arif, et al., 2021), soil type (He et al., 2017; Kavitha et al., 2018), application rate (Guo, 2020), and climatic conditions (Blanco‐Canqui, 2021; Lu et al., 2020).…”

Section: Introductionmentioning

confidence: 99%

Biochar as a negative emission technology: A synthesis of field research on greenhouse gas emissions

et al. 2023

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Biochar is one of the few nature‐based technologies with potential to help achieve net‐zero emissions agriculture. Such an outcome would involve the mitigation of greenhouse gas (GHG) emission from agroecosystems and optimization of soil organic carbon sequestration. Interest in biochar application is heightened by its several co‐benefits. Several reviews summarized past investigations on biochar, but these reviews mostly included laboratory, greenhouse, and mesocosm experiments. A synthesis of field studies is lacking, especially from a climate change mitigation standpoint. Our objectives are to (1) synthesize advances in field‐based studies that have examined the GHG mitigation capacity of soil application of biochar and (2) identify limitations of the technology and research priorities. Field studies, published before 2022, were reviewed. Biochar has variable effects on GHG emissions, ranging from decrease, increase, to no change. Across studies, biochar reduced emissions of nitrous oxide (N2O) by 18% and methane (CH4) by 3% but increased carbon dioxide (CO2) by 1.9%. When biochar was combined with N‐fertilizer, it reduced CO2, CH4, and N2O emissions in 61%, 64%, and 84% of the observations, and biochar plus other amendments reduced emissions in 78%, 92%, and 85% of the observations, respectively. Biochar has shown potential to reduce GHG emissions from soils, but long‐term studies are needed to address discrepancies in emissions and identify best practices (rate, depth, and frequency) of biochar application to agricultural soils.

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“…However, it is a large anion with a negative charge. Thus, it can adsorb positively charged materials, such as heavy-metal ions, but exhibits a poor adsorption ability for anions (Cha et al 2016 ; Chun et al 2021 ). It has even been reported to it has even been reported to exert a repulsion effect during phosphate and nitrate salt adsorption during PO and nitrate salt adsorption (Pinto et al 2019 ).…”

Section: Introductionmentioning

confidence: 99%

Enhanced phosphate adsorption and desorption characteristics of MgO-modified biochars prepared via direct co-pyrolysis of MgO and raw materials

Tu,

Zhang,

Cen

et al. 2023

Bioresour. Bioprocess.

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Biochar modified by metal ions—particularly Mg—is typically used for the effective recovery of phosphorous. In this study, MgO-modified biochars were synthesized via the direct co-pyrolysis of MgO and raw materials such as rice straw, corn straw, Camellia oleifera shells, and branches from garden waste, which were labeled as MRS, MCS, MOT, and MGW, respectively. The resulting phosphate (PO) adsorption capacities and potential adsorption mechanisms were analyzed. The PO adsorption capacities of the biochars were significantly improved after the modification with MgO: MRS (24.71 ± 0.32 mg/g) > MGW (23.55 ± 0.46 mg/g) > MOT (15.23 ± 0.19 mg/g) > MCS (14.12 ± 0.21 mg/g). PO adsorption on the modified biochars was controlled by physical adsorption, precipitation, and surface inner-sphere complexation processes, although no electrostatic attraction was observed. Furthermore, PO adsorbed on modified biochars could be released under acidic, alkaline, and neutral conditions. The desorption efficiency of MRS was modest, indicating its suitability as a slow-release fertilizer. Graphical Abstract

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Recent advancements in biochar production according to feedstock classification, pyrolysis conditions, and applications: A review

Cited by 31 publications

References 54 publications

Under a Tropical Climate and in Sandy Soils, Bat Guano Mineralises Very Quickly, Behaving More like a Mineral Fertiliser than a Conventional Farmyard Manure

Under a Tropical Climate and in Sandy Soils, Bat Guano Mineralises Very Quickly, Behaving More like a Mineral Fertiliser than a Conventional Farmyard Manure

Biochar as a negative emission technology: A synthesis of field research on greenhouse gas emissions

Enhanced phosphate adsorption and desorption characteristics of MgO-modified biochars prepared via direct co-pyrolysis of MgO and raw materials

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