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荒漠草原绿洲化过程中灌溉玉米地土壤夏季盐渍化特征 被引量:4
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作者 杨新国 宋乃平 +2 位作者 刘秉儒 安慧 何秀珍 《水土保持学报》 CSCD 北大核心 2011年第4期94-99,共6页
在地处宁夏中部荒漠草原区的红寺堡扬黄灌区,选取不同利用年限的灌溉玉米地,以临近的未利用地为对照,对其夏季含盐量及盐离子组分变化规律、剖面分布类型、时空相关性及其碱化特征进行了系统分析。结果表明,在退化草地转化成灌溉农田的... 在地处宁夏中部荒漠草原区的红寺堡扬黄灌区,选取不同利用年限的灌溉玉米地,以临近的未利用地为对照,对其夏季含盐量及盐离子组分变化规律、剖面分布类型、时空相关性及其碱化特征进行了系统分析。结果表明,在退化草地转化成灌溉农田的过程中,土壤夏季含盐量剖面分布变化依次为表聚型、均匀型(震荡型)和底聚型。未利用地0-60 cm土层总含盐量6.0‰,耕种8年后只有2.25‰,表层(0-20cm)的总盐含量降幅高达80.2%。未利用地盐分表聚特征主要由氯离子、镁离子、钙离子和钾离子决定,其浓度随利用年限的变化表现较为平稳,剖面分布以均匀型为主,而硫酸根离子和钠离子底聚特征明显。相对未利用地,重碳酸根离子是唯一全剖面出现明显增加的离子类型。离子间显著相关关系多集中于0-40 cm土层发生,相关格局随利用年限发生明显变化,8年玉米地重碳酸根离子和钠离子正相关、钙离子与钠离子以及重碳酸根离子间负相关关系凸显。土壤碱化表现出明显的阶段性发生(2年玉米地)和下迁富集发生(40-80 cm)特征,8年玉米地含盐量和碱化度同步显著下降,土壤盐渍化整体逆转。灌溉玉米地土壤含盐量与碱化度显著正相关,未利用地含盐量与碱化度则呈现两极化分布趋势。灌溉玉米地土壤夏季盐渍化特征受土壤-植物的相互作用控制,蒸发积盐、蒸腾积盐与灌溉脱盐作用并存,盐离子分化明显,土壤盐化和碱化时空同步变化,但是总碱度居高不下依然是威胁土壤环境健康的潜在因素。 展开更多
关键词 土壤渍化 盐离子组成 扬黄灌区 绿洲化 玉米
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The potassium storage performance of carbon nanosheets derived from heavy oils
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作者 ZHAO Qing-shan LIU Qin-lian +6 位作者 LI Yi-wen JI Tian YAO Yu-yue ZHAO Yi-kun DENG Wei HU Han WU Ming-bo 《新型炭材料(中英文)》 SCIE EI CAS CSCD 北大核心 2024年第5期1003-1014,共12页
As by-products of petroleum refining,heavy oils are characterized by a high carbon content,low cost and great variability,making them competitive precursors for the anodes of potassium ion batteries(PIBs).However,the ... As by-products of petroleum refining,heavy oils are characterized by a high carbon content,low cost and great variability,making them competitive precursors for the anodes of potassium ion batteries(PIBs).However,the relationship between heavy oil composition and potassium storage performance remains unclear.Using heavy oils containing distinct chemical groups as the carbon source,namely fluid catalytic cracking slurry(FCCS),petroleum asphalt(PA)and deoiled asphalt(DOA),three carbon nanosheets(CNS)were prepared through a molten salt method,and used as the anodes for PIBs.The composition of the heavy oil determines the lamellar thicknesses,sp3-C/sp2-C ratio and defect concentration,thereby affecting the potassium storage performance.The high content of aromatic hydrocarbons and moderate amount of heavy component moieties in FCCS produce carbon nanosheets(CNS-FCCS)that have a smaller layer thickness,larger interlayer spacing(0.372 nm),and increased number of folds than in CNS derived from the other three precursors.These features give it faster charge/ion transfer,more potassium storage sites and better reaction kinetics.CNS-FCCS has a remarkable K^(+)storage capacity(248.7 mAh g^(-1) after 100 cycles at 0.1 A g^(-1)),long cycle lifespan(190.8 mAh g^(-1) after 800 cycles at 1.0 A g^(-1))and excellent rate capability,ranking it among the best materials for this application.This work sheds light on the influence of heavy oil composition on carbon structure and electrochemical performance,and provides guidance for the design and development of advanced heavy oil-derived carbon electrodes for PIBs. 展开更多
关键词 Heavy oils Carbon nanosheets Molten salt method Four-component composition Potassium-ion batteries
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