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Industrial Crops and Products
Elsevier Science Publishers
Industrial Crops and Products

Elsevier Science Publishers

0926-6690

Industrial Crops and Products/Journal Industrial Crops and ProductsSCIISTPEI
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    Correlating biomass properties, gasification performance, and syngas applications of Brazilian feedstocks via simulation and multivariate analysis

    Motta, Ingrid LopesMarchesan, Andressa NevesMaciel Filho, RubensWolf Maciel, Maria Regina...
    13页
    查看更多>>摘要:Biomass gasification is the thermochemical conversion of biomass mainly into syngas, and sugarcane bagasse (SCB) is its main feedstock in Brazil. However, the seasonal production of SCB influences biomass supply. This paper analyzed, via multivariate analysis, gasification datasets of 12 Brazilian feedstocks obtained from simu-lation to determine possible substitutes for SCB, optimal gasification conditions for all biomasses aiming at FT synthesis downstream, and key parameters for several syngas applications. A validated simulation in Aspen PlusTM of a fluidized bed gasifier generated one dataset with fixed gasification conditions used in hierarchical cluster analysis (HCA) and principal component analysis (PCA), and another with varying temperatures and S/B to obtain regression models via partial least squares (PLS) for optimization and Monte Carlo simulations. HCA and optimization using PLS models showed that sugarcane straw, energy cane, energy cane bagasse, and corn straw have similar gasification performances as SCB, being possible substitutes. Independent thermochemical plants based on eucalyptus, or corn and soybean straws are also suggested. Lignin is mostly useful for heat and power applications. PCA and HCA highlighted important correlations between inputs and outputs. Monte Carlo simulations suggested biomasses of lower C and higher O contents to obtain syngas suitable for FT synthesis and the opposite for applications of higher syngas heating values.
      原文链接:
    • NSTL
    • Elsevier

    Authentication of Styrax officinalis L. methyl ester nanoparticulate fuel-system's suitability in powering CI engines

    Oguntade, Tomiwa IsaacOni, Babalola AisosaSanni, Samuel EshorameIbegbu, Anayo Jerome...
    13页
    查看更多>>摘要:Investigation was carried out on the engine performance, combustion and emission characteristics of a CI engine using biodiesel-nanoparticulate fuel-system formulated using ultrasonicated cerium, aluminum and titanium oxide nanoparticles mixed with Styrax officinalis L. seed oil methyl esters. The nanofluids were prepared using 75, 58, and 83 ppm of aluminum, titanium, cerium dioxides. The physicochemical characteristics of the nanofuels were determined and compared with those of conventional diesel in a Lister petter engine under various engine loads. The stabilities of the nanoparticles were analyzed under static conditions. There was marginal enhancement in the engine performance where the brake thermal efficiencies (BTEs) of the biodiesel doped with 75 ppm Al2O3 (S-C), 58 ppm TiO2 (S-D), and 83 ppm CeO2 (S-E) nanoparticles were 34.1%, 37.1% and 35.9% compared to those of the neat biodiesel and conventional diesel which were 31.2% and 31.9% respectively. Furthermore, the HC, NOx and CO emissions of the nano-fuel decreased at full load. Combustion properties of the in-cylinder pressure and the heat release rate improved upon the addition of the nanoparticles to the biodiesel. Therefore, the nano-fuels improved the engine's performance and can satisfactorily be used as fuel in an unmodified diesel engine.
      原文链接:
    • NSTL
    • Elsevier

    Effect of maternal environment on seed germination and seed yield components of Thlaspi arvense

    Chen, DaliYuan, ZhenWei, ZhichaoHu, Xiaowen...
    12页
    查看更多>>摘要:Thlaspi arvense has attracted great attention due to its high oilseed content and potential use as biomass for biofuel production. However, seed dormancy and low seed yield of wild T. arvense difficulties its cultivation and efficient use. Knowledge on seed germination, seed yield (SY) and their response to maternal environmental conditions is needed for the development of less dormant, high yield accessions, but this information is limited. Here, fresh seeds of a low altitude population (LAP) from Xiahe, and a high altitude population (HAP) from Maqu, both located in central China, are compared for germination and dormancy characteristics, including germination percentage, germination rate and dormancy-release. In a pot experiment, the effect of soil moisture content and shading of maternal plants on seed germination, their response to gibberellin, SY and SY components were determined. Germination of freshly collected mature seeds from HAP (0.89%) was higher than that of LAP (7.33%). The difference in seed germination between the two populations also was reflected by the gibberellin requirement for dormancy-release, in which GA(50) was 0.135 and 0.012 mmol/L for LAP and HAP seeds, respectively. In addition, drought stress and light decreased the sensitivity of dormancy-release to gibberellin (improved GA(50)). The GA50 of LAP was 0.123, 0.133, 1.781, and 0.069 mmol/L for seeds matured under low, moderate, and severe drought stress and shade conditions, respectively; while for HAP this values were of 0.034, 0.041, 0.056, and 0.016 mmol/L. Drought stress reduced SY of T. arvense through a direct and indirect negative effects on height, biomass, reproductive branches per plant, siliques per branch, seeds per silique and 1000-seed weight. However, shade treatment increased SY by improving height and biomass. These results suggest that T. arvense populations with different dormancy levels can be selected from wild germplasm resources for domestication, according to breeding objectives. On the other hand, results also indicate that different quality and yield of seeds can be obtained by adjusting the environmental conditions during plant growth. Moreover, reproductive branches per plant and siliques per reproductive branch contributed the most to seed yield of T. arvense both in drought stress and shade condition. Thus, reproductive branches per plant and siliques per reproductive branch should be prioritized in a breeding program to improve SY of T. arvense.
      原文链接:
    • NSTL
    • Elsevier

    Regulating aromatic hydrocarbon components from catalytic pyrolysis of corn cob lignin with a tailored HZSM-5@Al-SBA-15 hierarchical zeolite

    Wang, ShaoqingLi, ZhiheYi, WeimingFu, Peng...
    9页
    查看更多>>摘要:Catalytic pyrolysis of corn cob lignin were preformed using a tailored HZSM-5 @Al-SBA-15 hierarchical zeolite for the production of value-added aromatic hydrocarbon. Resulted showed that the highly ordered twodimensional p6mm mesoporous shell could uniformly form on the surface of HZSM-5 core phase. The porosity and acidity of the HZSM-5 @Al-SBA-15 could be tailored by adjusting the TEOS/HZSM-5 mass ratio in the synthesis process. The aromatic hydrocarbon components regulated due to pre-cracking and enhanced diffusion via the mesoporous shell, as well as the retained shape-selectivity of the HZSM-5 core. Herein, the relative content of MAHs reached 45.02% with fewer poly-aromatic hydrocarbons (PAHs) of 25.91% when the TEOS/HZSM-5 mass ratio of 1.0. However, the length of the diffusion path had a certain impact on the anti coking behavior. The catalytic stability of the hierarchical zeolites was also improved, with less coke formation than HZSM-5 alone. This work demonstrates that using a tailored hierarchical zeolite to regulate aromatic hydrocarbon components is feasible, and provide a reference for the practical application of agricultural crop wastes.
      原文链接:
    • NSTL
    • Elsevier

    Physiological, biochemical and metabolomic mechanisms of mitigation of drought stress-induced tobacco growth inhibition by spermidine

    Xu, JiayangCai, MiaomiaoLi, JunlingChen, Biao...
    11页
    查看更多>>摘要:Drought is a multifaceted environmental stress condition that limits crop productivity worldwide. Spermidine (Spd), one of the types of polyamines (PAs), is involved in plant stress tolerance. However, the molecular mechanism underlying the changes in the abundance of metabolites induced by Spd in drought stress tolerance is poorly understood. We aimed to examine the effects of Spd on the endogenous PA content, growth, photosynthesis, antioxidant system, and metabolite profiles as well as the expression of stress-responsive genes (NtP5CS, NtHsp18 and NtLEA5) in N. tabacum under drought stress and to investigate the underlying mechanisms with which Spd is involved. The results revealed that Spd application significantly increased the Spd, putrescine (Put), and spermine (Spm) contents and plant biomass under drought stress. Biochemical assays indicated that, under water-deficit conditions, plants treated with Spd presented increased chlorophyll contents, photosynthesis rate, and activities of antioxidant enzymes (SOD, POD, CAT and APX), but reduced O-2 & nbsp;(center dot-)-production speed, H2O2 content, MDA content and electrolyte leakage. Furthermore, metabolite profiles revealed that Spd significantly promoted the contents of carbohydrates, unsaturated fatty acids, IAA and ABA phytohormone, but decreased most amino acid levels compared to those in drought-exposed plants. This study provides a comprehensive understanding of Spd-mediated drought stress tolerance from physiological, biochemical and metabolic perspectives.
      原文链接:
    • NSTL
    • Elsevier

    Regulation of chloroplast ultrastructure, adventitious bud anatomy and clonal fidelity of in vitro Zingiber officinale var. rubrum Theilade plantlets in response to LED spectral quality

    Gnasekaran, PavallekoodiRahman, Zuraida AbdulChew, Bee LynnUddain, Jasim...
    12页
    查看更多>>摘要:Light quality plays a major role in deciding plant physiological processes during growth and development as it interacts with the photoreceptors to induce a cascade of events with reversible and non-reversible outcomes. Hence, the present study was focused on conducting qualitative analysis on the effects of different light qualities on chloroplast ultrastructure, adventitious bud anatomy, and genetic fidelity of 12 weeks old in vitro Zingiber officinale var. rubrum Theilade. The study was conducted by integrating white (400-700 nm), far-red (720 nm), blue (460 nm), green (530 nm), red (660 nm), and dichromatic purple (400-660 nm) light-emitting diodes (LEDs). Chloroplasts under white, blue, and purple LEDs showed well-developed grana thylakoid and stroma thylakoid. Far-red, green, and red LEDs distorted chloroplast ultrastructure with an accumulation of starch grains. LED mediated spectral quality customised within the visible spectrum retained meristematic characteristics, vascular initiation, and oleoresin accumulation in the adventitious bud. Furthermore, clonal fidelity assessed using direct amplification of minisatellite DNA regions (DAMD) markers revealed genetic similarities of more than 99% for plantlets regenerated under LED irradiation. The results demonstrated that micropropagation systems integrated with LED spectral quality alters plant chloroplast ultrastructure by the effects on starch accumulation but produced normal adventitious bud phenology. A high genetic similarity percentage suggests effective and promising application of LED spectrum to produce true to type in vitro Z. officinale var. rubrum Theilade plantlets.
      原文链接:
    • NSTL
    • Elsevier

    Transformation mechanism from cork into honeycomb-like biochar with rich hierarchical pore structure during slow pyrolysis

    Wang, QihangChu, DemiaoLuo, CuimeiLai, Zongyuan...
    10页
    查看更多>>摘要:Cork-based carbon materials are promising in adsorption, energy, catalysis, and electromagnetic shielding, but the transformation mechanism of cork during pyrolysis remains unclear. Herein, cork was heat-treated at 150-550 ?& nbsp;with an interval of 50 ?& nbsp;and the samples were characterized using TG, FTIR, TG-FTIR, SEM, BET, and XRD, etc. to describe thermal degradation characteristics and establish transformation mechanism of cork during pyrolysis. Results showed that the most of the cork's main components (suberin, lignin, and polysaccharides) were degraded at 200-430 ?& nbsp;and had a significant effect on the cell wall microstructure. Especially, suberin (49.54%) was the most abundant component in cork, and its degradation at 300-400 ?& nbsp;led to a significant reduction in the cell wall thickness by 70-80%, i.e., from 500-600 nm to 100-200 nm. Within the treatment temperature range of 450-550 ?, the residual lignin, unstable carbon, and tar underwent secondary degradation and volatilization, forming a hierarchical pore structure and primary specific surface area. Finally, the obtained biochar exhibited a honeycomb-like structure composed of micro-mesopores carbon nanosheets. This research will promote the controllable preparation and efficient application of cork-based carbon materials.
      原文链接:
    • NSTL
    • Elsevier

    High performance supercapacitors assembled with hierarchical porous carbonized wood electrode prepared through self-activation

    Chen, YangyangYu, YuanyuanZhang, XiaoxuanGuo, Chenyan...
    11页
    查看更多>>摘要:Carbonized wood (CW) electrodes with low-tortuosity and high conductivity have received extensive attention in the fields of energy storage and electrocatalysis. Directly carbonized wood electrodes have low specific surface area and high electrochemical impedance, and require secondary physical or chemical activation to achieve acceptable performance. Herein, we reported a facile method to prepare the CW electrode with superior surface area through self-activation using CO2 and water vapor generated during the pyrolysis which was conducted with a low inert gas flow rate. The specific surface area and electrical conductivity of the self-activated carbonized wood (SCW, 0.46 g cm(-3)) were as high as 1145 m(2) g(-1) and 20.3 S cm(-1), respectively. The SCW applied as a freestanding electrode demonstrated an impressive specific capacitance of 6.63 F cm(-2) (143.6 F g(-1)) at 1 mA cm(-2). After 10,000 cycles, the capacitance of the SCW electrode was retained as high as 101.7%. The symmetrical supercapacitor (SSC) assembled with two SCW electrodes showed an energy density of 0.27 mWh cm(-2) (8.60 Wh L-1) at a power density of 0.5 mW cm(-2) (11.8 W L-1). This work provides a simple, low-cost and green procedure for fabricating high-performance CW electrodes, which has great promotional significance and practical value on valorization of biomass.
      原文链接:
    • NSTL
    • Elsevier

    An environmentally friendly and high wet-bond strength adhesive based on starch, itaconic acid and silicone

    Shao, WeilongWang, PingLiu, JiaXu, Huimin...
    12页
    查看更多>>摘要:A novel approach is proposed to solve the problem of the starch adhesive's low strength in humid environment. Herein, silicone and itaconic acid were grafted with native starch, and then the starch-based adhesive (IA-M/B-OSt) was obtained with a high wet-bond strength and environmentally friendly. Subsequently, the IA-M/B-OSt adhesive was applied in plywood processing, and the plywood turned out to have strong bonding strength even after soaking in hot water at 63 degrees C for 3 h. The results of SEM, FT-IR, Confocal Raman and H-1 NMR confirmed that grafting reactions occurred between silicone and starch. Hot-pressing was necessary for the application of IA-M/B-OSt adhesive, which facilitated the transformation of Si-OH into Si-O-Si and achieved high wet-bond strength. This study provides a simple and efficient approach for preparing starch based adhesive, and opens up a new way for applying biomass materials in the green and sustainable adhesive industry.
      原文链接:
    • NSTL
    • Elsevier

    Mechanical and electrochemical properties of UV-curable nanocellulose/ urushiol epoxy acrylate anti-corrosive composite coatings

    Wu, HaitangHan, XiaotaoZhao, WanZhang, Qiang...
    11页
    查看更多>>摘要:A novel urushiol epoxy acrylate (UEA) photosensitive prepolymer was synthesized. In order to realize the curing of UEA, modified cellulose nanofiber photoinitiators (MCNFI) were prepared through the modification of cellulose nanofiber (CNF). Then UV-curable MCNFI/UEA composite coatings were fabricated, and their structures, mechanical and electrochemical properties were investigated. The results showed that the studied properties of MCNFI/UEA coating were superior to those of pure UEA and unmodified CNF reinforced UEA (CNF/UEA) coating. The optimum mechanical properties were achieved at 8 wt% loading level, after which further loading of MCNFI resulted in the reduction in mechanical properties. The enhanced mechanical properties should be attributed to the structural characteristics of UEA matrix containing appropriate soft and hard segments, the good dispersibility and interfacial interaction of the fillers within UEA matrix. Besides, MCNFI (8 wt%)/UEA coating exhibited the most pronounced anti-corrosive performance. This paper demonstrated a novel preparation method of renewable urushiol based anti-corrosive coating using modified nanocellulose as macrophotoinitiator and filler simultaneously.
      原文链接:
    • NSTL
    • Elsevier