2019
DOI: 10.3390/soilsystems3020027
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Pyrolysis Temperature Effects on Biochar–Water Interactions and Application for Improved Water Holding Capacity in Vineyard Soils

Abstract: Grapevine cane and stalks were considered for pyrolysis at 400 to 700 °C to produce biochar for increasing the water holding capacity of vineyard soil. Feedstocks were pyrolysed using a continuous feed reactor and the resulting biochars characterized in terms of physico-chemical properties, including water retention performance. Hydrophobicity was found in biochar from both feedstocks pyrolysed at 400 °C, but not at higher temperatures. At low soil matric potential, the pyrolysis temperature was the defining v… Show more

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Cited by 49 publications
(31 citation statements)
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“…Numerous studies have demonstrated that biochar amendment improves WHC [3,57,58]; the present study reports a direct relationship between WHC and pyrolysis final temperature, which is directly correlated with WHC values already measured for individual biochar analyses (see Table 2). In agreement with Marshall et al [39], who also reported a high hydrophobicity in vine shoots-derived biochar produced at 400 • C, it could be an important parameter to take into account, and not only the macroporous structure of biochar which could led to attribute higher WHC at lower pyrolysis peak temperatures. Accordingly, the dependence of this parameter on pyrolysis temperature is an aspect that could be of interest for agronomic contributions.…”
Section: Growing Substrates Changes and Leaves' Nutrient Contentssupporting
confidence: 91%
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“…Numerous studies have demonstrated that biochar amendment improves WHC [3,57,58]; the present study reports a direct relationship between WHC and pyrolysis final temperature, which is directly correlated with WHC values already measured for individual biochar analyses (see Table 2). In agreement with Marshall et al [39], who also reported a high hydrophobicity in vine shoots-derived biochar produced at 400 • C, it could be an important parameter to take into account, and not only the macroporous structure of biochar which could led to attribute higher WHC at lower pyrolysis peak temperatures. Accordingly, the dependence of this parameter on pyrolysis temperature is an aspect that could be of interest for agronomic contributions.…”
Section: Growing Substrates Changes and Leaves' Nutrient Contentssupporting
confidence: 91%
“…Approximately 500 g of vine shoots were heated at an average heating rate of 5 • C min −1 to the final temperature (400 and 600 • C) with a soaking time of 60 min at this temperature. The mass flow rate at standard temperature and pressure (STP) conditions of the carrier gas (N 2 ) was adjusted to keep a constant real flow rate of N 2 within the reactor (at the corresponding final temperature) of 1.8 L min −1 , which corresponds to a carrier gas residence time of 180 s. The particle size adopted resulted appropriate to improve the carbonization efficiency (i.e., higher fixed-carbon content in the resulting biochar) during pyrolysis process because of the enhancement of secondary charring reactions at an intra-particle level [18,39].…”
Section: Biochar Production Characterization and Processingmentioning
confidence: 99%
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“…Plant-available water in fine-textured soils could be enhanced through management or manipulation of hydrophobic properties of BC, thereby improving BC-soil interactions [74]. For example, it has been reported that grapevine feedstocks subjected to low pyrolysis temperatures (~400°C) yield BC with a 23% higher available water content in clay soils [75].…”
Section: Soil-water Relationsmentioning
confidence: 99%
“…Current hydrophysical studies of biochars are mainly focused on measurements of their water retention curves and available water contents at high matric potentials (>-15 MPa) using pressure plate chambers (Marshall et al, 2019). Less attention has been paid to the assessment of water vapor adsorption-desorption characteristics of biochar surface while ageing in soils.…”
Section: Eugene Balashov Irina Mukhina Elena Rizhiyamentioning
confidence: 99%