Effect of goethite on anaerobic co-digestion process of corn straw and algae biomass

1 Introduction Recently the demand for fossil fuel has grown significantly with the rapid development of the Chinese economy.Renewable energy was developed to replace traditional fossil fuels,which would decrease the

氮气和含氧气氛下玉米秸秆热解气化产气规律研究

为了探究秸秆类生物质在热解和气化过程中的产气规律,以我国东北地区典型的玉米秸秆为原料,基于自行建立的管式炉生物质热解气化实验装置,系统研究了玉米秸秆在氮气气氛下热解和在含氧气氛下气化过程中CO、H_(2)、CO_(2)、CH_(4)和C_(n)H_(m)等小分子生物质燃气成分的释放特性,对比分析了不同热解温度和气化温度对不同燃气组分释放规律及其产率的影响。实验结果表明:玉米秸秆热解过程中最先释放的小分子气相产物是CO和CO_(2);当温度升高时生物质燃气中逐渐出现CH4和H2,且随着热解温度升高,CO的产率峰值最先出现且峰值出现在升温阶段,而CO_(2)、CH_(4)和H_(2)的产率峰值几乎同时出现在恒温阶段;热解温度升高,玉米秸秆热解产生的CO体积分数几乎没有变化,而CO_(2)的占比则随着温度的升高而降低;在400~500℃之间CH_(4)体积分数随着热解温度的升高而增加,在500℃以后,基本稳定在13%。在O_(2)体积分数为8%、N_(2)体积分数为92%的含氧气氛下,随着气化温度的升高,玉米秸秆气化产生CO_(2)气体的体积分数呈先增加后降低的趋势,而CO的体积分数随着温度的升高而增大,这说明高温气化条件下更有利于CO的释放,而低温条件下有利于CO_(2)的产生。

玉米芯多孔碳超疏水棉织物的制备及性能

以废弃玉米芯为原料,经氢氧化钾活化,高温炭化制备玉米芯多孔碳(CPC)。对CPC微观形貌进行表征,研究了不同炭化温度对CPC表面形貌的影响。当炭化温度为600℃时,制备的CPC粉末具有均匀的微观多孔粗糙结构。利用低表面能物质聚二甲基硅氧烷(PDMS)对棉织物整理,制备了超疏水棉织物。对整理织物的表面形貌进行表征,研究了不同质量分数的CPC与PDMS整理后棉织物的超疏水性能。结果表明,当CPC质量分数为0.5%,PDMS质量分数为4%时,整理棉织物水滴接触角达到156.9°,具有较好的超疏水、防污及自清洁性能。

AquaCrop模型对不同灌溉定额下盐碱地青贮玉米生长模拟及适用性评价

为探明宁夏引黄灌区盐碱地青贮玉米生长适宜的灌水量及AquaCrop模型在引黄灌区的适应性。以当地农业公司灌溉定额的95%为高水平,设置3个不同处理:低水平280.5 mm(W1)、中水平382.5 mm(W2)、高水平484.5 mm(W3),研究不同灌溉定额对青贮玉米的效应,并基于2 a的试验数据对AquaCrop模型进行率定、验证,以水分利用效率最大为目标确定出较优的灌溉方案。2023年W3处理下的0~40 cm土层土壤含水率(SWC)均高于W1处理和W2处理;各处理在生物量平均值和产量表现为W3处理>W2处理>W1处理。各处理SWC模拟值与实测值的R^(2)、EF和RMSE分别为0.73~0.79、0.67~0.75、0.35%~2.40%;冠层覆盖度模拟值和实测值的R^(2)、EF和RMSE分别为0.90~0.96、0.98~0.99、2.38%~8.00%;生物量模拟值和实测值的R^(2)、EF分别为0.91~0.95、0.97~0.99,RMSE为2.03~2.05 t/hm^(2);产量模拟值和实测值的RE为1.40%~2.46%,R^(2)为0.98,水分利用效率模拟值和实测值的RE为0.73%~3.94%,R^(2)为0.97。说明AquaCrop模型能较好地模拟宁夏引黄灌区青贮玉米的生长过程;以节水增产为目标,灌溉定额为382.5 mm时,青贮玉米水分利用效率较优。

生物质与烟煤混燃过程灰分的烧结特性研究

生物质与煤的成分十分复杂,这些成分共同决定了生物质与煤混合热转化过程灰样的烧结或结渣特性,这对生物质与煤混合热转化技术的应用和推广具有重要影响。本文以典型的生物质秸秆和烟煤为原料,深入研究不同掺混比例以及灼烧温度和灼烧时间对生物质与煤混燃灰烧结特性的影响。研究结果表明:玉米秸秆与神木烟煤混燃过程中玉米秸秆的掺混比例越大,脱灰效应越明显。水稻秸秆与烟煤混燃后灰分含量要高于玉米秸秆与烟煤混燃后的灰分含量,这主要是由两种秸秆生物质的化学组分和结构不同所致。在相同的灼烧温度和掺混比例下,灼烧时间对灰分含量的影响不明显。随着灼烧温度的增加,玉米秸秆与烟煤混合热转化得到的灰样的灰分含量越低,脱灰效应越明显。当玉米秸秆的掺混比例由25%升至75%时,灰样形貌由原来的无规则形状或蜂窝状结构转变成明显的熔融粘结现象。灼烧温度升高,混燃灰样的结渣趋势增强,而灼烧时间对灰样微观形貌的影响较小。

地膜微塑料对玉米生长与养分吸收的影响

地膜残留及破碎形成的微塑料(Microplastics,MPs)持续增加,成为农田土壤MPs的重要来源之一。通过盆栽试验,分析地膜MPs处理水平(0.5%,1%和2%)对玉米形态、生理、生物量及养分吸收的影响。结果表明,与对照(CK)相比,0.5%地膜MPs对玉米生长无明显影响。随着地膜MPs水平增加(1%和2%)和暴露时间延长(拔节期和抽穗期),玉米株高、茎宽、叶面积、根系长度、表面积及生物量显著减少。叶片叶绿素含量、SOD酶含量减少而MDA含量升高表明地膜MPs导致玉米光合受损及氧化应激。较高水平地膜MPs(1%和2%)也会抑制玉米吸收养分。农田土壤地膜MPs积累对作物生长的抑制可能消减地膜覆盖栽培的优势。

秸秆汽提水解碳化预处理装置设计与效果分析

针对玉米秸秆纤维素结构特点,设计1套针对该原料预处理的汽提水解系统装置,阐述该系统和装置的设计原理。用设计的系统和装置处理玉米秸秆并对汽提水解的效果进行测试分析,对玉米秸秆的转化效率等关键参数进行计算。测试得出,预处理后玉米秸秆乙酰丙酸和糠醛的生成率分别为13.20%和11.20%,其纤维素、半纤维素的降解率分别为89.00%、95.20%;与秸秆碳粉进行扫描电镜和红外光谱对比分析显示,原料处理后的微观结构与1600、1510 cm^(-1)木质素特征基团呈现出半碳化的理化特性。

辽河流域棉区棉花综合利用试验研究

[目的]对辽河流域棉区棉花饲料化综合利用的潜力进行评价。[方法]以棉花、玉米、大豆为研究对象,采用大区对比法,比较3种作物不同时期的生物量和营养成分(粗蛋白、粗纤维、粗脂肪和淀粉)含量。[结果]3种作物的生物量和干物质积累率随着生育进程而升高,其中玉米的地上部生物量和籽粒产量高于棉花和大豆;玉米的淀粉含量显著较高,棉花和大豆的粗蛋白和粗脂肪含量较高;玉米在3个时期单位面积的纤维素和淀粉含量较高,大豆进入生殖生长之后粗蛋白和粗脂肪含量较高。玉米的生产效益最高,大豆次之,棉花最低。[结论]棉花在各个时期的营养成分虽然都不占优势,但棉花营养均衡、蛋白质和脂肪含量丰富,具有作为畜禽优质饲料的潜力。

Efficient microwave-assisted production of biofuel ethyl levulinate from corn stover in ethanol medium

Levulinate esters are versatile chemicals that have been used in various fields. Herein, the production of ethyl levulinate（EL） from corn stover was investigated under microwave irradiation. Several reaction parameters, including acid concentration, reaction temperature, reaction time, and liquid-to-solid mass ratio, were investigated to evaluate the reaction conditions. Response surface methodology（RSM） was employed to optimize the reaction conditions for the production of EL. A quadratic polynomial model was fitted to the data with an R2 value of 0.93. The model validation results reflected a good fit between the experimental and predicted values. A high conversion yield（58.1 mol%） was obtained at the optimum conditions of 190℃, 30.4 min, 2.84 wt% acid, and 15 g/g liquid-to-solid mass ratio. Compared with conventional heating, microwave irradiation facilitated the conversion of corn stover to EL by dramatically shortening the reaction time from several hours to ～30 min. Thus, microwave-assisted conversion of corn stover to EL is an efficient way of utilizing a renewable biomass resource.

The Importance of Three Protozoa in Corn Straw Decomposition and Nutrient Transformation

Three typical soil protozoa of Bodo edax, Colpoda cucullus and Amoeba proteus were inoculated into the soil amended with corn straw. The soils were then incubated at 25℃ for 60 days. It was found that the protozoa, particularly Bodo edax, significantly reduced soil microbial biomass C. However, the decomposition of corn straw was accelerated by the protozoa. Colpoda cucullus significantly enhanced soil available P content, but Amoeba proteus decreased soil available P content. Colpoda cucullus and Bodo edax did not obviously influence NH4+-N and NO3--N contents. In contrast, Amoeba proteus significantly increased both NH4+-N and NO3--N contents.

不同青贮玉米品种产量和青贮品质的综合评价

【目的】探究品种对青贮玉米生物产量和青贮品质的影响,筛选出适宜在重庆地区种植的优良青贮玉米品种,为推动重庆地区草食畜牧养殖业健康稳定发展提供参考。【方法】以重庆市4个青贮玉米新品种(渝青玉3号、渝青386、渝青385和渝单58)为参试材料,雅玉青贮8号为对照品种(CK),收获期测定全株玉米生物产量,同时将全株玉米切碎青贮90 d后测定青贮的营养成分和发酵品质;运用主成分分析及隶属函数分析法综合评价全株玉米青贮品质,结合生物产量筛选优良品种。【结果】各青贮玉米品种间生物产量差异明显,以渝青386鲜物质产量和干物质产量均为最高,较CK分别显著提高9.03%和10.56%(P<0.05,下同)。品种间全株玉米青贮后营养成分差异明显。渝青386的粗蛋白含量最高,为8.43%,较渝单58和CK分别显著提高18.23%和17.08%,酸性洗涤纤维(ADF)含量最低,为20.33%,显著低于其他品种;渝青385的中性洗涤纤维(NDF)含量最低,为40.30%,较CK显著降低14.93%;渝单58的淀粉和水溶性碳水化合物(WSC)含量均最高,分别为37.90%和3.12%,均显著高于渝青玉3号、渝青385和CK。品种间各项发酵品质指标存在明显差异。渝青386的pH最低,为4.06,乳酸含量最高,为7.70%;渝青385的乙酸含量最高,为0.56%;渝单58的丙酸含量最低,为0.10%;渝青玉3号的氨态氮/总氮(NH3-N/TN)为11.45%,显著高于其他品种;所有品种均未检测到丁酸。所有品种全株玉米青贮V-Score评分均大于80分,为良好级,其中渝青386评分最高(93.4分)。通过主成分分析提取3个主成分,累积贡献率为89.810%,反映原来14个指标的大部分信息。综合主成分分析及隶属函数分析发现,4个参试品种的青贮品质综合表现均优于CK,其中渝青386和渝青385平均隶属值大于0.50。【结论】在重庆地区种植渝青386,生物产量最高,且制作全株玉米青贮饲料效果较好,具有更高的推广价值。

Screening and Genetic Characteristics of Breeding Materials of Silage Corn

[Objective] To analyze the effects of major agronomic traits on yield in maize inbred lines. [Method] Incomplete diallel cross between three single-cross hybrids and 19 parent materials of com silage were performed, and the agronomic traits of the obtained 57 cross combinations were identified. [ Result] The regression equations between biomass and four important indicators （grain yield, rows per ear, plant height and straw yield） affecting biomass of com silage were established. The broad heritability of straw yield, plant height, rows par ear and ear length was higher than 50%. Genetic effects had a greater impact, while environmental factors had a smaller impact. Thus, it had great potential to improve these traits by genetic breeding. In addition, the broad heritability of biomass and grain yield was lower than 50%. [ Conclusion] Biorness and grain yield have greater interaction effects on environment, and the environmental impact should be considered for selection.

高比表面积生物质多孔碳的制备及其电化学性能

以玉米秸秆为碳源(CS),经Na2CO3溶液浸泡预处理后,采用KOH活化,制备了多孔生物质碳材料(CS-ACs)。通过形貌、结构表征及电化学性能测试,发现生物质碳材料CS-AC-3具备多级孔道结构,比表面积可达3299m^(2)/g。三电极体系下,该材料在6mol/L NaOH和0.5mol/L Na_(2)SO_(4)电解液中,1A/g电流密度下,比电容分别为272F/g、220F/g,循环5000圈后(5A/g),其容量保持率为89%和80%;二电极体系中,以该材料组装的CS-AC-3//CS-AC-3对称电容器具有1.4V的宽电压窗口和较好的电容特性。作为一种可再生廉价碳材料,CS-ACs在实际应用中有好的应用前景。

Influence of late emerging weeds in glyphosate-resistant corn

Fifteen field trials were conducted from 2009 to 2011 in Ontario, Canada and Michigan, USA to determine how long glyphosate-resistant corn needs to be kept weed-free after emergence to prevent yield loss. Data were separated into two environments based on when yield loss first occurred after glyphosate application. In Environment 1 (4/15 sites) yield was not reduced when corn was kept weed-free until the 4-leaf stage. However, in Environment 2 (11/15 sites) there was no yield loss when corn was kept weed-free up to the 2-leaf stage. The most prominent weeds were velvetleaf, redroot pigweed, common ragweed, common lambsquarters and foxtail species. While later emerging weeds did not necessarily impact corn yield, weeds emerging after the 2- and 4-leaf corn stage likely produced seed that was added to the soil seed bank. Weeds emerging after 6-, 8-, and 10-leaf corn growth stages were small (low biomass/seedlings) and most likely did not reach reproductive maturity. Based on this research, corn must be maintained weed-free up to the 4-leaf stage. Any weeds emerging after that did not influence corn yield.

Influence of Adjuvants on the Efficacy of Tolpyralate plus Atrazine for the Control of Annual Grass and Broadleaf Weeds in Corn with and without Roundup WeatherMAX^&reg;

Tolpyralate is a new HPPD-inhibiting herbicide that is efficacious on annual grass and broadleaf weed species in corn. For maximum herbicide performance of tolpyralate, it is recommended that atrazine is tank mixed with tolpyralate along with the adjuvants methylated seed oil concentrate (MSO) plus urea ammonia nitrate (UAN). A common use pattern of tolpyralate plus atrazine will be in a tank mix with Roundup WeatherMAX&reg;due to the high proportion of corn acres that are seeded to Roundup Ready&reg;hybrids in Eastern Canada. There is no information in the peer-reviewed literature if the adjuvant system in Roundup WeatherMAX&reg;is adequate for optimal herbicide performance of tolpyralate plus atrazine, or if MSO and UAN are still required. Six field trials were conducted over two years near Ridgetown and Exeter, ON, Canada to determine if adjuvants are still required when tolpyralate plus atrazine is tank mixed with Roundup WeatherMAX&reg;in corn. Tolpyralate plus atrazine plus MSO and Roundup WeatherMAX&reg;plus tolpyralate plus atrazine provided excellent control of velvetleaf, pigweed spp, common ragweed, lambsquarters, ladysthumb, wild mustard, flower-of-an-hour, barnyardgrass and green foxtail in this study. Results of this study show that in the absence of Roundup WeatherMAX&reg;, weed control with tolpyralate plus atrazine was improved substantially with the addition of MSO;however, there was little to no increase in weed control with the addition of UAN. When tolpyralate plus atrazine was co-applied with Roundup WeatherMAX&reg;, there was no improvement in weed control with the addition of MSO and/or UAN.

玉米芯基多孔炭电极材料的制备及其电化学特性研究

采用高温碳化法、氢氧化钾活化等手段,制备出具有较好充放电性能与循环稳定性的玉米芯基生物质活性多孔炭。探究了碳化温度和无机碱质量占比对玉米芯基多孔炭材料的微观形貌结构、比表面积和电化学性能的影响。结果表明:碳化与活化温度为900℃时,基炭材料与无机碱质量比为1∶2时,该玉米芯基多孔碳材料的比表面积为1591.8 m^(2)/g,在电流密度0.2 A/g时其比容量达到168.6 F/g,在电流密度0.5 A/g时其比容量为159.5 F/g。该生物质活性多孔碳材料具有较好的导电性和储能性能,对超级电容器应用具有十分重要的意义。

不同丛枝菌根真菌对甜玉米幼苗生长及氮磷吸收的影响

为了探究不同丛枝菌根真菌对甜玉米(Zea mays var.rugose Bonaf.)生长及氮磷吸收的影响,筛选出促进甜玉米生长和氮磷吸收的优良菌种,采用盆栽培养方法,以甜玉米(Zea mays var.rugose Bonaf.)为宿主植物,研究接种摩西斗管囊霉(Funneliformis mosseae,Fm)、球状巨孢囊霉(Gigaspora margarita,Gm)、细凹无梗囊霉(Acaulospora scrobiculata,As)、扭形伞房球囊霉(Corymbiglomus tortuosum,Ct)、地表多样孢囊霉(Diversispora epigaea,De)和根内根孢囊霉(Rhizophagus intraradices,Ri)对甜玉米生长及氮磷吸收的影响。结果表明:接种De处理的甜玉米株高、根长、地上部鲜质量、地上部生物量和磷积累量最高,并显著高于其他处理,其茎粗和地上部氮积累量也达到较高的水平;且主成分分析结果表明,甜玉米接种De菌种综合表现最好。因此,在田间种植甜玉米时,推荐接种De菌种,从而更有利于甜玉米的生长和氮磷养分积累。

云贵高原区青贮玉米不同播种方式的饲草产量和效益

以大田生产试验数据为依据,分析了不同播种方案对青贮玉米单株生长、饲草产量和经济效益的影响。研究结果表明:云贵高原区青贮玉米生产时,采用农机穴播,播种量45kg/hm^(2),种植密度8~9万株/hm^(2)时,饲草产量和效益最高。与籽实玉米生产相比,青贮玉米不仅有更高的经济效益,而且在抵制自然灾害导致的减产风险方面也具有一定优势。但青贮玉米生产在收贮、运输及利用等方面与籽实玉米生产相比存在一定局限性。云贵高原区玉米改籽实为青贮原料生产时,其规模应与当地养牛、养羊业的发展规模相适应。

宁夏六盘山区不同青贮玉米品种和栽培密度对生物产量和品质的影响研究

采用裂区试验设计,对4个适宜本地区种植的品种中原单32(CK)、宁单40、银玉238、桂青贮1号,设置了低密(6.75×10^(4)株/hm^(2))、中密(7.5×10^(4)株/hm^(2))、高密(8.25×10^(4)株/hm^(2))3个梯度水平,研究了密度和品种对宁夏六盘山区青贮玉米生物量和品质的影响变化,旨在为宁夏六盘山区青贮玉米高产优质寻求最优品种和密度搭配。结果表明:①密度和品种间的产量差异均达到了极显著性差异(P<0.01),其中低密度下(6.75×10^(4)株/hm^(2))桂青贮1号的产量最高,中密度(7.5×10^(4)株/hm^(2))下银玉238的产量最高,高密度(8.25×10^(4)株/hm^(2))下桂青贮1号的产量最高。②不同品种不同密度下的酸性洗涤纤维含量、中性洗涤纤维含量、淀粉含量、粗蛋白含量之间均呈显著性差异(P<0.05),其中宁单40在密度(7.5×10^(4)株/hm^(2))下淀粉含量最高,中原单32在高密度(8.25×10^(4)株/hm^(2))下粗蛋白含量最高,银玉238在中密度(7.5×10^(4)株/hm^(2))下ADF含量、NDF含量最高。③同一品种不同密度下单株鲜重、含水量和干物质含量差异不显著,而株高、穗位高、茎粗、单株干重有显著性差异。综上所述,密度和品种对植株的农艺性状、产量和品质均有影响,但影响的差异显著取决于合理的密植和适宜品种的最优搭配。

复合菌系预处理对玉米秸秆厌氧沼气发酵的影响

以玉米秸秆为原料,利用本实验室通过基因组重排育种后能高效降解木质纤维素的菌株对玉米秸秆进行预处理,并对预处理后的秸秆进行厌氧沼气发酵。通过正交试验确定复合菌系处理秸秆的最佳条件为:初始pH值为6.00、玉米秸秆含量为2.0%、TR2-35孢子液接种量1.0%、PR2-24孢子液接种量0.5%。通过对秸秆预处理发酵料液的定时检测,确定最佳的预处理时间为8 d,此时发酵液的pH值为6.82,适合厌氧产甲烷菌的生长,发酵液中的COD含量达到最大,为10080 mg/L,秸秆及其成分也达到降解的高峰,适合厌氧沼气发酵。通过设计1 L的厌氧沼气发酵排水集气装置,有效反应体积800 mL,进行20 d沼气发酵,结果表明:预处理组总产气量为6083 mL,总甲烷量为4316 mL,分别较未预处理组提高61.14%和93.63%。