Comparative Environmental Evaluation of Straw Resources by LCA in China

Shang, Xiaoyu; Song, Siqi; Yang, Jingwei

doi:10.1155/2020/4781805

Cited by 18 publications

(12 citation statements)

References 45 publications

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“…The calculations for rapeseed straw include transportation from fields (a 100 km range) to a processing plant, grinding, and another transportation of 100 km to the production factory. The energy input for the straw processing is 21.67 kW h per ton, 18 from the stage of field collection to final processing (crushed 5− 10 mm straw fibers, which represents a higher level of processing than is required for our bio-composites). Since specific data on rapeseed straw were not available in Ecoinvent 3, the option of "wheat straw" was used as a proxy, adding to it the energy for processing and the sequestered carbon.…”

Section: ■ Materials and Methodsmentioning

confidence: 99%

Fungal Mycelium Bio-Composite Acts as a CO₂-Sink Building Material with Low Embodied Energy

Livne

Wösten

Pearlmutter

et al. 2022

ACS Sustainable Chem. Eng.

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As part of the global transformation to a circular economy, modern society faces the challenge of developing sustainable building materials that do not deplete nonrenewable resources or generate environmentally destructive waste. Bio-composites based on fungal mycelium grown on agricultural waste streams have the potential to serve this purpose, reducing the ecological impact of the construction industry and the conventional materials on which it currently relies. In addition to the possible advantages in the production and postuse phases of their life cycle, mycelium bio-composites are lightweight and highly insulating, thus providing valuable thermal properties for reducing energy consumption and emissions over the operational lifespan of the building. In this study, a comprehensive life cycle assessment of mycelium bio-composites was conducted, focusing on the embodied energy (EE) and embodied carbon (EC). Part of the CO2 that is emitted is the result of the fungal growth. Therefore, a novel calculation method was developed to assess the metabolic carbon emissions as a function of weight loss during the growth period. Using a cradle-to-gate model of the production process, the EE of the mycelium bio-composite was estimated to be 860 MJ m–3, which represents a 1.5- to 6-fold reduction compared with that of the common construction materials. The EC was calculated to be −39.5 kg CO2eq m–3, its negative value indicating that the fungal bio-composite effectively functions as a CO2 sink, in contrast to currently used construction materials that have a positive EC. The incubation stage of mycelium bio-composite production made up the largest portion (73%) of the overall energy, while metabolic CO2 comprised a significant proportion (21%) of the overall emissions as well. Altogether, our results demonstrate that using bio-composite building materials based on fungal mycelium and local plant residues can provide a sustainable alternative to current practice.

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Section: ■ Materials and Methodsmentioning

confidence: 99%

Fungal Mycelium Bio-Composite Acts as a CO₂-Sink Building Material with Low Embodied Energy

Livne

Wösten

Pearlmutter

et al. 2022

ACS Sustainable Chem. Eng.

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“…A direct comparison of our research with previous literature was complicated by differences in system boundaries, inventory integration, databases, and environmental assessment methods. Shang X. et al [35] conducted a relative comparative LCA based on data from China. Both studies agreed that less GHG emissions and less non-renewable energy aregenerated and consumed in the production process of straw or M. lutarioriparius particleboard compared to that of conventional wood particleboard.…”

Section: Comparisons With Relative Studiesmentioning

confidence: 99%

“…The HCT of MDF was hundreds of times that of M.OSB, which was related to fuel wood and wood fuel. Wood burning and electricity consumption were the hotspots for MDF manufacturing [35].…”

mentioning

confidence: 99%

Do Miscanthus lutarioriparius-Based Oriented Strand Boards Provide Environmentally Benign Alternatives? An LCA Case Study of Lake Dongting District in China

Liao

Jun

et al. 2021

Sustainability

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Miscanthus lutarioriparius(M. lutarioriparius) in Lake Dongting District are in the situation of being discarded due to the government’s environmental policy, the decomposition of which will bring another pollution risk. The purpose of this study is to environmentally analyze the production of M. lutarioriparius-based oriented strand particleboards(M.OSB) as alternatives to the conventional artificial boards. The production systems were evaluated from a cradle-to-gate perspective using the Life Cycle Assessment(LCA)methodology. Our results showed that the M.OSB had an overall better profile than wood panels, identifying the production of starch adhesives and bio-fuels as the main environmental hotspots. It was also found that annual harvesting and utilization of M. lutarioripariuscould ease the burden to the environment during the decomposition of this plant, and further improve the environmental performance of M.OSB. Sensitivity analyses were conducted on the key parameters, suggesting that there are opportunities for improvement. This study provides useful information for enterprises and policymakers on where to focus their activities, with the aim of making the future of M. lutarioriparius utilization more technically and environmentally favourable.

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“…Northwest China is rich in straw resources, but the straw recycling rate is low, and straw burning is a common phenomenon (7). This practice produces many harmful gases, causes serious air pollution, and severely threatens human health (8)(9)(10)(11)(12). The application of straw returning technology can avoid the environmental problems caused by straw burning, while also effectively reducing soil water evaporation, enhancing the rainwater infiltration rate, increasing soil water storage, improving soil structure and microbial diversity and abundance, enhancing soil enzyme activity, improving soil fertility, promoting crop quality, and facilitating improved crop yield and water use efficiency (13)(14)(15)(16)(17)(18)(19)(20).…”

Section: Introductionmentioning

confidence: 99%

Combined Straw and Plastic Film Mulching Can Increase the Yield and Quality of Open Field Loose-Curd Cauliflower

Xie

Jin

et al. 2022

Front. Nutr.

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To evaluate the impact of straw mulching on the production of open field loose-curd cauliflower, this study analyzed the “Feicui No.9” cauliflower variety, grown in field trials in Northwest China, in 2019 and 2020. Plots in an open field were prepared without mulch (CK1) and with plastic film mulch (CK2), as experimental controls, along with three experimental mulching methods, including dual straw and plastic film mulch (T1), inter-row straw mulch (T2), and full straw mulch (T3). The effects of the different ground cover alternatives on loose-curd cauliflower's dry matter accumulation, yield, quality, and volatile compounds, were explored. The results showed that, compared with CK2 treatment, T1 treatment promoted the accumulation of dry matter, and increased the economic and biological yield, by 12.98 and 6.51%, respectively. The soluble sugar and vitamin C content in loose-curd cauliflower heads, subjected to T1 treatment, increased by 18.46 and 8.12%, respectively, and the nitrate content decreased by 25.57%. Moreover, the T1, T2, and T3 treatments significantly increased the levels of macro-, meso-, and microelements. Headspace solid-phase microextraction-gas chromatography-mass spectrometry (HS-SPME-GC-MS) was used to determine the volatile substances in loose-curd cauliflower heads from the 2020 harvesting period. Detected compounds included 17 aldehydes, 15 ketones, 10 alcohols, 15 esters, 29 hydrocarbons, 12 nitrogen-containing compounds, and 17 other substances. T1, T2, and T3 treatments increased the volatile substance content, whereas T1 treatment increased the quantity of volatile substances. In summary, dual mulching with straw and plastic film could promote dry matter accumulation, significantly increase the yield and quality, and effectively improve the flavor of loose-curd cauliflower. This mulching technique can be applied to open field vegetable and corn production areas, providing technical and theoretical support for the realization of high-yield, high-quality production models and a new straw recycling method.

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Comparative Environmental Evaluation of Straw Resources by LCA in China

Cited by 18 publications

References 45 publications

Fungal Mycelium Bio-Composite Acts as a CO₂-Sink Building Material with Low Embodied Energy

Fungal Mycelium Bio-Composite Acts as a CO₂-Sink Building Material with Low Embodied Energy

Do Miscanthus lutarioriparius-Based Oriented Strand Boards Provide Environmentally Benign Alternatives? An LCA Case Study of Lake Dongting District in China

Combined Straw and Plastic Film Mulching Can Increase the Yield and Quality of Open Field Loose-Curd Cauliflower

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Comparative Environmental Evaluation of Straw Resources by LCA in China

Cited by 18 publications

References 45 publications

Fungal Mycelium Bio-Composite Acts as a CO2-Sink Building Material with Low Embodied Energy

Fungal Mycelium Bio-Composite Acts as a CO2-Sink Building Material with Low Embodied Energy

Do Miscanthus lutarioriparius-Based Oriented Strand Boards Provide Environmentally Benign Alternatives? An LCA Case Study of Lake Dongting District in China

Combined Straw and Plastic Film Mulching Can Increase the Yield and Quality of Open Field Loose-Curd Cauliflower

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Product

Resources

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Fungal Mycelium Bio-Composite Acts as a CO₂-Sink Building Material with Low Embodied Energy

Fungal Mycelium Bio-Composite Acts as a CO₂-Sink Building Material with Low Embodied Energy