Study of the reaction mechanism for preparing powdered activated coke with SO_(2)adsorption capability via one-step rapid activation method under flue gas atmosphere

In this study,the impact of different reaction times on the preparation of powdered activated carbon(PAC)using a one-step rapid activation method under flue gas atmosphere is investigated,and the underlying reaction mechanism is summarized.Results indicate that the reaction process of this method can be divided into three stages:stage I is the rapid release of volatiles and the rapid consumption of O_(2),primarily occurring within a reaction time range of 0-0.5 s;stage II is mainly the continuous release and diffusion of volatiles,which is the carbonization and activation coupling reaction stage,and the carbonization process is the main in this stage.This stage mainly occurs at the reaction time range of 0.5 -2.0 s when SL-coal is used as material,and that is 0.5-3.0 s when JJ-coal is used as material;stage III is mainly the activation stage,during which activated components diffuse to both the surface and interior of particles.This stage mainly involves the reaction stage of CO_(2)and H2O(g)activation,and it mainly occurs at the reaction time range of 2.0-4.0 s when SL-coal is used as material,and that is 3.0-4.0 s when JJ-coal is used as material.Besides,the main function of the first two stages is to provide more diffusion channels and contact surfaces/activation sites for the diffusion and activation of the activated components in the third stage.Mastering the reaction mechanism would serve as a crucial reference and foundation for designing the structure,size of the reactor,and optimal positioning of the activator nozzle in PAC preparation.

Relative Impacts of Sea Ice Loss and Atmospheric Internal Variability on the Winter Arctic to East Asian Surface Air Temperature Based on Large-Ensemble Simulations with NorESM2

To quantify the relative contributions of Arctic sea ice and unforced atmospheric internal variability to the “warm Arctic, cold East Asia”(WACE) teleconnection, this study analyses three sets of large-ensemble simulations carried out by the Norwegian Earth System Model with a coupled atmosphere–land surface model, forced by seasonal sea ice conditions from preindustrial, present-day, and future periods. Each ensemble member within the same set uses the same forcing but with small perturbations to the atmospheric initial state. Hence, the difference between the present-day(or future) ensemble mean and the preindustrial ensemble mean provides the ice-loss-induced response, while the difference of the individual members within the present-day(or future) set is the effect of atmospheric internal variability. Results indicate that both present-day and future sea ice loss can force a negative phase of the Arctic Oscillation with a WACE pattern in winter. The magnitude of ice-induced Arctic warming is over four(ten) times larger than the ice-induced East Asian cooling in the present-day(future) experiment;the latter having a magnitude that is about 30% of the observed cooling. Sea ice loss contributes about 60%(80%) to the Arctic winter warming in the present-day(future) experiment. Atmospheric internal variability can also induce a WACE pattern with comparable magnitudes between the Arctic and East Asia. Ice-lossinduced East Asian cooling can easily be masked by atmospheric internal variability effects because random atmospheric internal variability may induce a larger magnitude warming. The observed WACE pattern occurs as a result of both Arctic sea ice loss and atmospheric internal variability, with the former dominating Arctic warming and the latter dominating East Asian cooling.

CAS-ESM2.0 Successfully Reproduces Historical Atmospheric CO_(2) in a Coupled Carbon−Climate Simulation

The atmospheric carbon dioxide(CO_(2))concentration has been increasing rapidly since the Industrial Revolution,which has led to unequivocal global warming and crucial environmental change.It is extremely important to investigate the interactions among atmospheric CO_(2),the physical climate system,and the carbon cycle of the underlying surface for a better understanding of the Earth system.Earth system models are widely used to investigate these interactions via coupled carbon-climate simulations.The Chinese Academy of Sciences Earth System Model version 2(CAS-ESM2.0)has successfully fixed a two-way coupling of atmospheric CO_(2)with the climate and carbon cycle on land and in the ocean.Using CAS-ESM2.0,we conducted a coupled carbon-climate simulation by following the CMIP6 proposal of a historical emissions-driven experiment.This paper examines the modeled CO_(2)by comparison with observed CO_(2)at the sites of Mauna Loa and Barrow,and the Greenhouse Gases Observing Satellite(GOSAT)CO_(2)product.The results showed that CAS-ESM2.0 agrees very well with observations in reproducing the increasing trend of annual CO_(2)during the period 1850-2014,and in capturing the seasonal cycle of CO_(2)at the two baseline sites,as well as over northern high latitudes.These agreements illustrate a good ability of CAS-ESM2.0 in simulating carbon-climate interactions,even though uncertainties remain in the processes involved.This paper reports an important stage of the development of CAS-ESM with the coupling of carbon and climate,which will provide significant scientific support for climate research and China’s goal of carbon neutrality.

An integrated and efficient process for borax preparation and magnetite recovery from soda-ash roasted ludwigite ore under CO–CO_(2)–N_(2) atmosphere

To realize the comprehensive utilization of ludwigite ore,an integrated and efficient route for the boron and iron separation was proposed in this work,which via soda-ash roasting under CO–CO_(2)–N_(2) atmosphere followed by grind-leaching,magnetic separation,and CO_(2) carbonation.The effects of roasting temperature,roasting time,CO/(CO+CO_(2))composition,and Na_(2)CO_(3) dosage on the boron and iron separation indices were primarily investigated.Under the optimized conditions of the roasting temperature of 850℃,roasting time of 60 min,soda ash dosage of 20 wt%,and CO/(CO+CO_(2)) of 10 vol%,92%of boron was leached during wet grinding,and 88.6%of iron was recovered during the magnetic separation and magnetic concentrate with a total iron content of 61.51 wt%.Raman spectra and^(11)B NMR results indicated that boron exists asB(OH)_(4)^(-) in the leachate,from which high-purity borax pentahydrate could be prepared by CO_(2) carbonation.

Numerical Models and Methods of Atmospheric Parameters Originating in the Formation of the Earth’s Climatic Cycle

Atmospheric models are physical equations based on the ideal gas law. Applied to the atmosphere, this law yields equations for water, vapor (gas), ice, air, humidity, dryness, fire, and heat, thus defining the model of key atmospheric parameters. The distribution of these parameters across the entire planet Earth is the origin of the formation of the climatic cycle, which is a normal climatic variation. To do this, the Earth is divided into eight (8) parts according to the number of key parameters to be defined in a physical representation of the model. Following this distribution, numerical models calculate the constants for the formation of water, vapor, ice, dryness, thermal energy (fire), heat, air, and humidity. These models vary in complexity depending on the indirect trigonometric direction and simplicity in the sum of neighboring models. Note that the constants obtained from the equations yield 275.156˚K (2.006˚C) for water, 273.1596˚K (0.00963˚C) for vapor, 273.1633˚K (0.0133˚C) for ice, 0.00365 in/s for atmospheric dryness, 1.996 in2/s for humidity, 2.993 in2/s for air, 1 J for thermal energy of fire, and 0.9963 J for heat. In summary, this study aims to define the main parameters and natural phenomena contributing to the modification of planetary climate. .

Effect of sintering atmosphere on corrosion resistance of Ni/(NiFe_2O_4-10NiO) cermet inert anode for aluminum electrolysis

A comparative study on the corrosion resistance of 17Ni/（NiFe2O4-10NiO） cermet inert anode prepared in differentsintering atmospheres was conducted in Na3AlF6-Al2O3 melt. The results indicate that the corrosion rates of NiFe2O4-based cermetanodes prepared in the vacuum and the atmosphere with oxygen content of 2×10^-3 （volume fraction） are 6.46 and 2.71 cm/a,respectively. Though there is a transition layer with lots of holes or pores, a densified layer is formed on the surface of anode due tosome reactions producing aluminates. For the anode prepared in the atmosphere with oxygen content of 2×10^-3, the thickness of thedensification layer （about 50 μm） is thicker than that （about 30 μm） formed on the surface of anode prepared in the vacuum. Thecontents of NiO and Fe（II） in NiFe2xO4-y-z increase with the decrease of oxygen content in sintering atmosphere, which reduces thecorrosion resistance of the material.

Prediction of SO_2 Concentration in Urban Atmosphere Based on B-P Neural Network

Base on the principle and method of B-P neural network,the prediction model of SO2 concentration in urban atmosphere was established by using the statistical data of a city in southwest China from 1991 to 2009,so as to forecast atmospheric SO2 concentration in a city of southwest China.The results showed that B-P neural network applied in the prediction of SO2 concentration in urban atmosphere was reasonable and efficient with high accuracy and wide adaptability,so it was worthy to be popularized.

Effect of Carbon Dioxide (CO_2) Controlled Atmosphere on Superoxide Dismutase (SOD) Activity of Three Storage Pests in Chinese Medicinal Materials

[ Objective ] The paper was to study the effect of controlled atmosphere stress of carbon dioxide （ CO2 ） on Superoxide dismutase （SOD） activity of in- sect, so as to analyze the biological mechanism of the action of controlled atmosphere stress on insect. [ Method] Using nitrotetrazolium blue chloride （NBT） light reduction method, SOD activity of drugstore beetle （ Stegobium panlceum ）, cigarette beetle （ Lasioderma serricorne） and coffee bean beetle （Araecerus fasciculatus） was studied, and the stress response of the enzyme under controlled atmosphere stress of CO2 was analyzed. [ Result ] SOD activity of drugstore beetle, cigarette beetle and coffee bean beetle exposed to controlled atmosphere stress of high concentrations of CO2 for 3 and 6 h had certain degree of increase, and the activity sig- nificantly increased from 2.011±0.954,2.664±0.218 and 1.458±0.718 to 3. 135±0. 105,3.050±0.673 and 2.975±0.229 U/（per pest · 30 min） after treat- ment for 6 h. [ Conclusion] Controlled atmosphere stress of high concentrations of CO2 had certain activation effect on SOD activity of storage pest in Chinese me- dicinal material within the context of sub-lethal events. The results could enrich the insecticidal mechanism of controlled atmosphere and theoretical system of analy- sis on insect resistance to controlled atmosphere.

CO_(2)气调对不同品种哈密瓜采后品质特征的影响

以2个山东哈密瓜品种‘晓蜜25号’及‘玫珑’为材料,研究不同CO_(2)浓度气体调控(controlled atmosphere,CA)下不同品种哈密瓜的采后品质特征变化。结果表明:随着贮藏时间的延长,不同CO_(2)浓度处理能够有效延缓不同品种哈密瓜失重率的上升,保持果实的硬度,延缓可溶性固形物以及可滴定酸含量的下降,提高过氧化物酶和过氧化氢酶的活性,延缓丙二醛含量的上升,保持抗氧化能力并在贮藏结束时仍维持较好的品质。这些结果表明,采后维持CA条件有助于改善哈密瓜的品质,延长贮藏期。

等离子体喷射触发型SF_(6)和SF_(6)/N_(2)间隙开关的触发性能劣化规律

在江苏—白鹤滩±800 kV特高压混合直流输电工程中,采用等离子体喷射触发型气体间隙开关可以对可控避雷器进行旁路控制,具有响应速度快,绝缘恢复能力强,通流容量大等优势,应用前景广泛,但触发间隙气体氛围的优化选择尚有所缺失,间隙触发特性和寿命的提升仍有待进一步研究。搭建了等离子体喷射触发实验平台,研究了等离子体喷射触发气体间隙的触发性能劣化规律,分别在SF_(6)和SF_(6)/N_(2)混合气体中探究了间隙触发的临界电路参数,在确定的电路参数下进行触发寿命实验同时探究性能劣化规律。结果表明:相同绝缘强度下,当间隙电压为10 kV时,0.2 MPa SF_(6)氛围下间隙最低可触发电压为3.5 k V,而在0.266 MPa SF_(6)/N_(2)氛围下降低为2.6 kV;在最佳触发电路参数条件和相同绝缘强度下,实验初期,SF_(6)中间隙导通时延为~270μs,等离子体最大喷射高度为4.8 cm,最大喷射速度为1296 m/s,而在SF_(6)/N_(2)中间隙导通时延为~100μs,等离子体最大喷射高度为7.2 cm,最大喷射速度为1525 m/s,而随着放电次数的增加,间隙导通时延增加,等离子体最大喷射高度降低,最大喷射速度减小,直到间隙第一次触发失败达到间隙寿命,SF_(6)中间隙的触发寿命仅有695次,而SF_(6)/N_(2)混合气体中间隙的触发寿命达到了1540次。对可控避雷器用气体间隙触发开关的性能和寿命提升提供了理论指导,同时有助于其在工程领域推广应用。

SiO_(2)气凝胶/环氧树脂/酚醛树脂复合材料性能研究

为拓宽SiO_(2)气凝胶(SA)的应用领域,以E-51环氧树脂(EP)、SA作为添加剂,采用常压干燥法,逐次与酚醛树脂(PF)、环氧树脂/酚醛树脂材料(EP/PF)混合,制备出SiO_(2)气凝胶/环氧树脂/酚醛树脂(SA/EP/PF)复合材料,通过傅立叶变换红外光谱、比表面积、孔径及力学性能测试,研究了SA、EP对PF隔热性能、力学性能的影响。结果表明:环氧树脂嫁接到酚醛树脂分子中,可改善酚醛树脂的力学性能,当环氧树脂添加量为20%时,最大拉伸强度提高了66%,最大弯曲强度提高了62.5%;当SiO_(2)气凝胶添加比例为1%时,SiO_(2)气凝胶/环氧树脂/酚醛树脂复合材料的导热系数最小,低至0.3185W/(m·K),隔热性能相比酚醛树脂提升16.14%,为SiO_(2)气凝胶推广应用提供了理论依据。

O_(2)/N_(2)和O_(2)/CO_(2)气氛下煤半焦-生物质的混燃特性及影响因素

为掌握煤半焦与生物质在O_(2)/N_(2)和O_(2)/CO_(2)条件下的混燃特性及其影响因素,采用全自动物理化学吸附仪获得了煤半焦-生物质混合燃料的孔隙结构,采用热重实验分析了两种燃料的混燃特性和反应动力学,通过多元线性回归法研究了燃料比、比表面积与混燃特性参数之间的关系。结果表明,O_(2)/N_(2)气氛下,掺混生物质可改善煤半焦的着火、燃尽及综合燃烧特性;O_(2)/CO_(2)气氛下,掺混生物质能改善煤半焦的着火特性,但会延迟其燃尽。混燃的活化能在低温区和高温区有显著差异,生物质掺混比增大,两个温区的活化能都降低;两种气氛下,低温区的活化能相近,但O_(2)/CO_(2)气氛下高温区的活化能显著高于O_(2)/N_(2)气氛下的。O_(2)/N_(2)气氛下孔隙结构对燃烧特性的影响更显著,而O_(2)/CO_(2)气氛下燃料比对燃烧特性的作用更显著。

Effects of Atmospheres and Precursors on MnO_x/TiO_2 Catalysts for NH_3-SCR at Low Temperature

The effects of atmospheres and precursors on MnOx/TiO2 catalysts were studied, which were prepared by the impregnation method and tested for their NOx conversion activity in ammonia selective catalytic reduction （NH3-SCR） reactions. Results showed that the manganese carbonate （MC） precursor caused mainly Mn2O3, while the manganese nitrate （MN） precursor resulted primarily in MnO2 and the manganese sulfate （MS） precursor was unchanged. The manganese acetate （MA） precursor leaded obtaining a mixture of Mn2O3 and Mn304. NOn conversion decreased in the following order： MA/TiO2 〉 MC/TiO2 〉 MN/TiO2 〉 MS/TiO2 〉 P25, with a calcination temperature of 773 K in air. Catalysts that were prepared by MA and calcined in oxygen performed strong interaction between Ti and Mn, while MnTiO3 was observed. Compared to the catalysts calcined in nitrogen, those calcined in oxygen had larger diameter and smaller surface area and pore. Catalysts that were prepared by MA and calcined in nitrogen tended to gain higher denitration rates than those in air, since they could be prepared with significant specific surface areas. NO., conversion decreased with calcination atmospheres： Nitrogen〉 Air〉 Oxygen. Meanwhile, amorphous Mn2O3 turned into crystalline Mn2O3, when the temperatures increased from 673 to 873 K.

基于Sentinel-2影像东北秋季典型湖泊大气校正方法适用性评价

本文利用6S(Second Simulation of a Satellite Signal in the Solar Spectrum)、Acolite DSF(Dark spectrum fitting)、C2RCC(Case 2 Regional Coast Color)、SeaDas(SeaWiFS Data Analysis System)、Sen2Cor(Sentinel 2 Correction)、Polymer(Polynomial based algorithm applied to MERIS)和iCOR(Image correction for atmospheric effects)7种大气校正算法,结合松花湖、月亮泡、小兴凯湖实测遥感反射率数据对“哨兵-2号”(Sentinel-2)数据进行大气校正研究,验证算法性能。整体校正结果显示,相较于实测遥感反射率,上述7种大气校正算法均在可见光波段(400~800 nm)呈现不同程度的低估。除C2RCC算法外,其余6种算法校正后的遥感反射率与实测光谱曲线变化趋势基本吻合,其中Sen2Cor算法与iCOR算法性能最佳,Polymer算法性能最差;在单波段校正精度对比中,Sen2Cor和iCOR算法几乎所有波段的均方根误差和平均绝对百分比误差都低于其余5种算法。Sen2Cor算法在560 nm、665 nm和705 nm处校正精度优于其余6种算法,iCOR算法在443 nm和740 nm处有良好的表现,在490 nm处6S算法校正精度最高,拥有最低的均方根误差(0.0059 sr^(−1))和平均绝对百分比误差(21.40%)。结果表明,这7种大气校正算法均可以在一定程度上去除大气影响,增加影像的可用性,Sen2Cor算法和iCOR算法更适用于本文所研究水体或相似水体。

Y_(2)O_(3)含量对大气等离子喷涂Al_(2)O_(3)-Y_(2)O_(3)复合涂层微观结构和力学性能的影响

目的探究掺杂不同质量分数Y_(2)O_(3)对Al_(2)O_(3)-Y_(2)O_(3)复合涂层微观结构及其力学性能的影响。方法采用大气等离子喷涂制备Al_(2)O_(3)涂层,以及Y_(2)O_(3)质量分数分别为10%、20%、30%、40%的Al_(2)O_(3)-Y_(2)O_(3)复合涂层。利用SEM、EDS对粉末以及不同涂层的形貌、组织结构、元素分布进行分析。使用XRD表征粉末和涂层的物相。使用显微硬度仪、纳米压痕测试仪和电子万能试验机对涂层的显微硬度、弹性模量以及断裂韧性等力学性能进行测试分析。结果Al_(2)O_(3)喷涂粉末的物相由α-Al_(2)O_(3)组成,而喷涂得到的Al_(2)O_(3)涂层则由α-Al_(2)O_(3)、γ-Al_(2)O_(3)组成。加入Y_(2)O_(3)后,对复合涂层中γ-Al_(2)O_(3)的生成有一定的抑制作用。随着喷涂粉末中Y_(2)O_(3)含量的增多,Al_(2)O_(3)-Y_(2)O_(3)复合涂层表面未充分熔融的颗粒逐渐增加,复合涂层的孔隙率也越来越大,掺杂了10%Y_(2)O_(3)的Al_(2)O_(3)-Y_(2)O_(3)复合涂层的孔隙率最低,涂层最致密。Al_(2)O_(3)涂层具有最高的显微硬度值(1209HV0.3)和弹性模量(227 GPa)。随着Y_(2)O_(3)含量的增加,Al_(2)O_(3)-Y_(2)O_(3)复合涂层的显微硬度与弹性模量逐渐降低。Al_(2)O_(3)-10%Y_(2)O_(3)复合涂层的弹性恢复率高达48.3%,并且其断裂韧性及抗塑性变形的能力也最好。结论掺杂了10%Y_(2)O_(3)的Al_(2)O_(3)-Y_(2)O_(3)复合涂层具有最致密的微观组织结构,其综合力学性能最好。

SO_(2)对馆藏银质文物材料腐蚀的影响

采用石英晶体微天平(QCM)反应性监测方法,结合扫描电镜、能谱分析(SEM-EDS)和拉曼光谱表面分析技术,研究了暴露于不同SO_(2)含量、相对湿度和温度环境中的银质文物材料的腐蚀行为及其表面特征。结果表明:随着时间延长,暴露于不同环境中的镀银石英晶振片频率均有所下降,最终趋于稳定;SO_(2)气体会促进银的腐蚀,且腐蚀速率随其含量的增加而加快;环境温度和相对湿度的升高也会加剧SO_(2)对银的腐蚀作用;在含SO_(2)环境中,银表面生成了Ag_(2)O、Ag_(2)SO_(3)以及Ag_(2)SO_(4)等腐蚀产物。

焙烧气氛对棒状CeO_(2)催化CO_(2)和甲醇直接合成DMC的影响

二氧化碳(CO_(2))和甲醇(MeOH)直接合成碳酸二甲酯(DMC)是一条符合绿色化学要求的DMC制备路线,并可实现CO_(2)资源化利用。氧化铈(CeO_(2))基催化剂被广泛应用于该反应,目前研究主要集中在形貌调控与杂原子掺杂对催化剂催化性能的影响。采用水热合成法制备了棒状CeO_(2)前驱体,然后在不同的焙烧气氛(分别为H_(2)、N_(2)、air和O_(2))中处理前驱体得到相应催化剂,然后将催化剂应用于2-氰基吡啶(2-cp)作脱水剂的CO_(2)和MeOH直接合成DMC(加入0.10 mol MeOH、0.05 mol 2-cp和0.32 g催化剂,在120℃、5 MPa的条件下反应2 h)中,研究了焙烧气氛对催化剂催化性能的影响。采用XRD、N2吸/脱附和SEM等对催化剂的晶相结构、织构性质和形貌等进行了表征。结果表明,4种催化剂在结构性质和形貌方面没有表现出明显差异,而催化剂表面的Ce价态与酸碱位点密切相关。催化剂表面存在的丰富缺陷位点使其具有较大的比表面积和平均孔径(CeO_(2)-air的比表面积和平均孔径分别为65.44m^(2)/g和30.06nm),催化剂主要暴露的CeO_(2)(111)晶面能促进DMC的生成。与其他3种催化剂相比,CeO_(2)-air因表面含有最丰富的中强酸碱位点和总的酸碱位点,以及较强的弱酸酸性而表现出最好的催化性能,该催化剂作用下的DMC产率和DMC选择性分别为83.2%和99.3%。

Effects of Sintering Atmosphere on the Microstructure and Surface Properties of Symmetric TiO2 Membranes

The effects of sintering atmosphere on the properties of symmetric TiO2 membranes are studied with regard to sintering behavior, porosity, mean pore size, surface comPosition. and surface charge properties. The exerimental results show that the symmetric TiO2 membranes display better sintering activity in the air than in argon, and the mean pore diameters and porosities of the membrane sintered in argon are higher than those of the membrane sintered in the air at the same temperature. The surface compositions of the symmetric TiO2 membrane sintered in the air and in argon at different temperatures, as studied by X-ray photoelectron spectroscopy, are discussed in terms of their chemical composition, with particular emphasis on the valence state of the titanium ions. The correlation between the valence state of the titanium ions at the surface and the surface charge properties is examined.It is found that the presence of Ti^3＋, introduced at the surface of the symmetric TiO2 membranes by sintering in a lower partial pressure of oxygen, is related to a significant decrease in the isoelectric point. TiO2 with Ti^4＋ at the interface has an isoelectric point of 5.1, but the non-stoichiometric TiO2-x with Ti^3＋ at the interface has a lower isoelectric point of 3.6.

基于炉膛水冷壁H_(2)S气氛场实时测量的锅炉运行监测与优化研究

为揭示锅炉水冷壁H_(2)S在不同负荷时的浓度分布、H_(2)S与炉膛组分CO和SO_(2)的关系、结焦区域H_(2)S分布情况以及运行调整对H_(2)S和NO_(x)的影响情况,指导锅炉运行,在某300 MW等级电站锅炉上安装了水冷壁气氛在线监测装置,系统研究了炉内近壁面H_(2)S、CO等还原性组分的生成规律及运行调整对炉内氛围的影响。结果表明:(1)在高负荷时炉内H_(2)S、CO整体浓度较高,并且负荷越高,腐蚀倾向越严重。(2)负荷在由高向低下降的过程中,存在一临界负荷(40%BMCR),当降至此临界负荷时,壁面气氛由还原性气氛开始转化为氧化性气氛。该炉易发生高温腐蚀的负荷范围为60%~100%。(3)总体上壁面H_(2)S与CO表现出正相关性,而H_(2)S与SO_(2)呈负相关性,但同时壁面各组分间又呈现出一定的独立性。(4)结焦区域H_(2)S平均浓度比非结焦区域高出537×10^(-6)(体积分数,下同),这与结焦区域水冷壁相较于非结焦区域水冷壁腐蚀更严重的现象一致。(5)关闭燃尽风投运层数、增加运行氧量,可以显著降低H_(2)S浓度,最高降幅可达91.4%,但H_(2)S浓度降低会引起NO_(x)增加,关一层燃尽风,NO_(x)平均上涨109 mg/m^(3)。建议在实际运行中,需要平衡好这对矛盾。

大气CO_(2)浓度升高背景下优化施氮对淹水稻田CH4排放的影响

为探讨未来气候变化条件下,合理管理氮肥以充分协调水稻产量与温室气体排放量之间的矛盾,实现低碳排放并保持水稻产量,本研究探讨了大气CO_(2)浓度升高120μmol·mol^(-1)与氮肥减施40%对淹水稻田水稻生产及CH4排放的影响及机理。利用开顶式气室(OTC)组成的CO_(2)浓度自动调控平台设置4个处理,即环境CO_(2)浓度+施氮250 kg·hm^(-2)(CK)、大气CO_(2)浓度升高120μmol·mol^(-1)+施氮250 kg·hm^(-2)(C+)、环境CO_(2)浓度+施氮150 kg·hm^(-2)(N-)、大气CO_(2)浓度升高120μmol·mol^(-1)+施氮150 kg·hm^(-2)(C+N-),分析了稻田CH4累积排放量(CAC)、水稻生物量及产量、土壤理化性质及酶活性等指标。结果表明:与CK处理相比,C+处理使CAC/产量显著提高了16.93%,N-处理使CAC/产量显著降低了13.33%,C+N-处理使CAC/产量降低了7.89%,但不显著;N-处理在一定程度上削弱了C+处理对CAC、CAC/产量、水稻生物量、土壤可溶性有机碳含量的促进作用;逐步回归分析表明,基于可溶性有机碳和硝态氮含量及土壤脲酶活性的线性模型,可解释稻田CH4累积排放64%的变异。综上,在大气CO_(2)浓度升高条件下,氮肥减施可通过影响土壤碳、氮基质及土壤脲酶活性来调节稻田CH4排放。