Corn straw return can increase labile soil organic carbon fractions and improve water-stable aggregates in Haplic Cambisol

Corn straw return to the field is a vital agronomic practice for increasing soil organic carbon(SOC)and its labile fractions,as well as soil aggregates and organic carbon(OC)associated with water-stable aggregates(WSA).Moreover,the labile SOC fractions play an important role in OC turnover and sequestration.The aims of this study were to determine how different corn straw returning modes affect the contents of labile SOC fractions and OC associated with WSA.Corn straw was returned in the following depths:(1)on undisturbed soil surface(NTS),(2)in the 0–10 cm soil depth(MTS),(3)in the 0–20 cm soil depth(CTS),and(4)no corn straw applied(CK).After five years(2014–2018),soil was sampled in the 0–20 and 20–40 cm depths to measure the water-extractable organic C(WEOC),permanganate oxidizable C(KMnO4-C),light fraction organic C(LFOC),and WSA fractions.The results showed that compared with CK,corn straw amended soils(NTS,MTS and CTS)increased SOC content by 11.55%–16.58%,WEOC by 41.38%–51.42%,KMnO4-C and LFOC by 29.84%–34.09%and 56.68%–65.36%in the 0–40 cm soil depth.The LFOC and KMnO4-C were proved to be the most sensitive fractions to different corn straw returning modes.Compared with CK,soils amended with corn straw increased mean weight diameter by 24.24%–40.48%in the 0–20 cm soil depth.The NTS and MTS preserved more than 60.00%of OC in macro-aggregates compared with CK.No significant difference was found in corn yield across all corn straw returning modes throughout the study period,indicating that adoption of NTS and MTS would increase SOC content and improve soil structure,and would not decline crop production.

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.

Effects of Agitating Intensity on Anaerobic Digestion Performance of Corn Straw Silage

Anaerobic fermentation can increase biomass energy use efficiency of crop straws and realize win-win of energy and environment.This paper explored the biogas generation performance of anaerobic digestion of cow dung liquid as nitrogen source in three different levels of stirring intensity at 30℃ constant temperature condition. Through p H value,biogas production,chemical oxygen demand( COD),methane content,volatile fatty acid( VFA),principal component analysis( PCA) and modified Gompertz model,effects of agitating intensity on anaerobic digestion performance of corn straw silage were evaluated. Results indicate that the COD removal rate of three agitating intensity levels is higher than 85%,and p H value is about 6.5; the cumulative biogas production after 20 days is 2h > 4h > 1h of agitating; in the49 th day,the biogas production is 1.9 Lat 30 min /2h,1.7 L at 30 min /4 h,and 1. 6 Lat 30 min / h; the maximum biogas production rate is 30 min /2h > 30 min /4h > 30 min / h; and the maximum methane production rate is 30 min /4h > 30 min /2h > 30 min / h; in the same energy consumption,the biogas production at 30 min /4h is higher than 1h. In conclusion,overall analysis of energy consumption and economic factors indicate that 30 min /4 h agitating intensity is more suitable for straw biogas fermentation project. This study is expected to provide theoretical foundation for biogas fermentation project.

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

Recycling of Secondary Aluminum Dross to Fabricate Porous <i>γ</i>-Al₂O₃Assisted by Corn Straw as Biotemplate

In the aluminum industry, secondary aluminum dross (SAD) is an inevitable solid residue, which usually contains 30 - 70 wt% Al2O3. In this work, Al(OH)3 was extracted from SAD through acid-leaching and alkali purification process. The as-obtained Al(OH)3 precipitation then was calcinated to synthesize porous γ-Al2O3 assisting by an agricultural waste biomass-corn straw as biotemplate. Effects of H2SO4 concentration, reaction temperature and time on the recovery of SAD were investigated. Furthermore, the dependence of calcination temperature on specific surface area, pore volume and content of porous γ-Al2O3 was analyzed. X-ray diffraction (XRD) and X-ray fluorescence (XRF) were used to inspect the phase compositions and their contents, respectively. Scanning electron microscopy (SEM) was employed to analyze the morphologies of the sintered porous γ-Al2O3. It was found that the highest recycle rate of aluminum from SAD was obtained under optimum conditions of 80&#176;C, acid concentration of 1.6 mol/l, and reaction time of 5 h by acid process. The porous γ-Al2O3 with specific surface area, 261.22 m2/g and average pore diameter, 52.64 nm, was obtained under calcination at 850&#176;C through mixing the as-obtained Al(OH)3 precipitation and corn straw.

Effect of Sweet Corn Straw Returning to the Field on Soil Fertility, Yield and Benefit

It is an important way for realizing sustainable development of sweet corn production to stabilize and improve soil fertility of cultivated land in sweet corn production region.Through the test of sweet corn straw directly returning to the field after 6seasons for 3years,the results showed that continuous single application of chemical fertilizer is not conducive to the stability of soil fertility and yield improvement,and implementation of straw returning could receive fertility,improve soil acidic conditions,and enhance the yield of sweet corn.Compared with before the test,the single application of chemical fertilizer increased soil available phosphorus,while the contents of soil organic matter,available nitrogen and available potassium decreased by 1.08,1.18 and 2.47mg/kg respectively,and the soil pH decreased by 0.15.Under the same fertilizer conditions,organic matter contents of single and double-season straw returning increased by 0.71 and 1.29g/kg,available nitrogen increased by 17.15 and 28.27mg/kg,available phosphorus increased by 0.96 and 1.73mg/kg,available potassium increased by 2.41 and 5.92mg/kg,the soil pH increased by 0.16 and 0.2.Compared with the single application of chemical fertilizer,the average yields of single and double-season straw returning increased by 7.5%and 11.8%,and their average income increased by 87.3and 117.1yuan of per mu(667m^2)respectively.

METAGENOMICS COMBINED WITH HIGHTHROUGHPUT SEQUENCING REVEALS THE METHANOGENIC POTENTIAL OF FRESH CORN STRAW UNDER THERMOPHILIC AND HIGH OLR

Dry corn straw(DCS)is usually used in anaerobic digestion(AD),but fresh corn straw(FCS)has been given less consideration.In this study,the thermophilic AD of single-substrate(FCS and DCS)and co-digestion(straw with cattle manure)were investigated.The results show that when FCS was used as the single-substrate for AD,the methane production was 144 mL·g^(−1)·VS^(−1),which was 7.5%and 19.6%higher than that of single DCS and FCS with cattle manure,respectively.In addition,the structure of FCS was loose and coarse,which was easier to be degraded than DCS.At the hydrolysis and acidification stages,Clostridium_sensu_stricto_1,Clostridium_sensu_stricto_7 and Sporosarcina promoted the decomposition of organic matter,leading to volatile fatty acids(VFAs)accumulation.Methanosarcina(54.4%)activated multifunctional methanogenic pathways to avoid the VFAs inhibition,which was important at the CH_(4) production stage.The main pathway was hydrogenotrophic methanogenesis,with genes encoding formylmethanofuran dehydrogenase(K00200-K00203)and tetrahydromethanopterin Smethyltransferase(K00577-K00584).Methanosarcina also activated acetotrophic and methylotrophic methanogenesis pathways,with genes encoding acetyl phosphate(K13788)and methyl-coenzyme M reductase(K04480,K14080 and K14081),respectively.In the co-digestion,the methanogenic potential of FCS was also confirmed.This provides a scientific basis for regulating AD of crop straw.

Influence of fuel mass load,oxygen supply and burning rate on emission factor and size distribution of carbonaceous particulate matter from indoor corn straw burning

The uncertainty in emission estimation is strongly associated with the variation in emission factor （EF）,which could be influenced by a variety of factors such as fuel properties,stove type,fire management and even methods used in measurements.The impacts of these factors are complicated and often interact with each other.Controlled burning experiments were conducted to investigate the influences of fuel mass load,air supply and burning rate on the emissions and size distributions of carbonaceous particulate matter （PM） from indoor corn straw burning in a cooking stove.The results showed that the EFs of PM （EFPM）,organic carbon （EFOC） and elemental carbon （EFEC） were independent of the fuel mass load.The differences among them under different burning rates or air supply amounts were also found to be insignificant （p 〉 0.05） in the tested circumstances.PM from the indoor corn straw burning was dominated by fine PM with diameter less than 2.1 μm,contributing 86.4%±3.9% of the total.The size distribution of PM was influenced by the burning rate and air supply conditions.On average,EF PM,EF OC and EF EC for corn straw burned in a residential cooking stove were （3.84±1.02）,（0.846±0.895） and （0.391±0.350） g/kg,respectively.EF PM,EF OC and EF EC were found to be positively correlated with each other （p 〈 0.05）,but they were not significantly correlated with the EF of co-emitted CO,suggesting that special attention should be paid to the use of CO as a surrogate for other incomplete combustion pollutants.

Ball milling pretreatment of corn straw and Pediococcus acidilactici fermentation for non‑ruminant diet

A new strategy was proposed to improve the utilization rate of corn straw by making non-ruminant feed products.The corn straw was ball milled,and the crushed straw was subjected to solid-state fermentation.After ball milling,the particle size of corn straw decreased signifcantly from 4.85±0.07 cm to 10–100μm,the content of neutral detergent fber and acid detergent fber decreased by 1.3%and 3.5%,respectively,and the total soluble sugar content increased by 16.2 mg/g.At the same time,the straw treated by ball milling as substrate could promote the rapid growth of Pediococcus acidilactici R30,the increase of organic acid production and further improvement of other nutrients during solid-state fermentation.In conclusion,the fermented straw products after ball milling could signifcantly improve the performance of pig feed in terms of digestibility and nutritional value,and better meet the feed needs of non-ruminant animals while saving resources.

混合比例、菌剂和压实密度对玉米秸秆和花生秧混合青贮发酵品质和营养价值的影响

本试验旨在研究混合比例、菌剂和压实密度对玉米秸秆和花生秧混合青贮发酵品质和营养价值的影响。试验分为2部分,试验1研究混合比例和菌剂对玉米秸秆和花生秧混合青贮发酵品质和营养价值的影响。将玉米秸秆和花生秧按5个混合比例(4∶0、3∶1、2∶2、1∶3、0∶4)进行混合,每个比例下设4个组,分别为对照组(CON组,喷洒无菌生理盐水)、植物乳杆菌组(LP组,喷洒1×10^(6)CFU/g植物乳杆菌)、粪肠球菌组(EF组,喷洒1×10^(6)CFU/g粪肠球菌)、植物乳杆菌+粪肠球菌组(LP+EF组,喷洒5×10^(5)CFU/g植物乳杆菌+5×10^(5)CFU/g粪肠球菌),每组3个重复,厌氧发酵60 d。试验2研究压实密度和菌剂对玉米秸秆和花生秧混合青贮发酵品质和营养价值的影响。将玉米秸秆和花生秧按3∶1比例混合后,按不同压实密度(300、450、600 kg/m^(3))进行发酵,每个压实密度下设4个组(同试验1),每组3个重复,厌氧发酵60 d。试验1结果表明:1)随着花生秧比例的提高,有机物、中性洗涤纤维和水溶性碳水化合物含量显著降低(P<0.05),粗蛋白质含量显著升高(P<0.05)。与对照组相比,EF和LP+EF组的中性洗涤纤维含量显著降低(P<0.05),EF组的氨态氮含量显著降低(P<0.05)。2)混合比例对乳酸菌和霉菌数量无显著影响(P>0.05)。与对照组相比,LP、EF和LP+EF组的乳酸菌数量显著升高(P<0.05),LP+EF组的霉菌数量显著降低(P<0.05)。3)混合比例为2∶2组的玉米赤霉烯酮含量显著高于其他各组(P<0.05),混合比例为3∶1和2∶2组的赭曲霉毒素含量显著低于混合比例为4∶0组(P<0.05)。与对照组相比,LP+EF组的玉米赤霉烯酮含量显著降低(P<0.05)。4)混合比例为2∶2组的pH显著高于其他各组(P<0.05),混合比例为3∶1组的乳酸含量显著高于混合比例为2∶2组(P<0.05),混合比例为3∶1组的乙酸含量显著低于其他各组(P<0.05),混合比例为3∶1组的丁酸含量显著低于混合比例为4∶0组(P<0.05)。与对照组相比,LP+EF组的pH显著降低(P<0.05),乳酸含量显著升高(P<0.05);EF组的乙酸含量显著降低(P<0.05)。试验2结果表明:1)压实密度为600 kg/m^(3)组的有机物、粗蛋白质含量显著低于压实密度为300 kg/m^(3)组(P<0.05),水溶性碳水化合物含量显著高于其他各组(P<0.05);随着压实密度的增加,氨态氮含量显著降低(P<0.05)。与对照组相比,EF组的有机物含量显著升高(P<0.05),LP+EF组的粗蛋白质含量显著升高(P<0.05)。2)压实密度对乳酸菌和霉菌数量无显著影响(P>0.05)。与对照组相比,LP和LP+EF组的乳酸菌数量显著升高(P<0.05),LP、EF和LP+EF组的霉菌数量显著降低(P<0.05)。3)压实密度为450和600 kg/m^(3)组的玉米赤霉烯酮和伏马毒素含量显著高于压实密度为300 kg/m^(3)组(P<0.05)。与对照组相比,LP+EF组的玉米赤霉烯酮含量显著降低(P<0.05)。4)压实密度对pH无显著影响(P>0.05)。压实密度为600 kg/m^(3)组的乳酸含量显著高于压实密度为300 kg/m^(3)组(P<0.05),压实密度为300 kg/m^(3)组的乙酸和丁酸含量显著高于其他各组(P<0.05)。综合各项指标,推荐玉米秸秆和花生秧混合青贮的适宜混合比例为3∶1,菌剂为植物乳杆菌和粪肠球菌联合添加,压实密度为450~600 kg/m^(3)。

玉米秸秆穰叶对肉羊生长性能、养分表观消化率、血清生化指标及免疫指标的影响

试验旨在研究玉米秸秆穰叶对肉羊生长性能、养分表观消化率及血清生化指标的影响。选取健康状况较好、体重(30.0±3.0)kg的母羊30只,按体重相近原则,随机分为2组,每组3个重复,每个重复5只羊。对照组以整株玉米秸秆作为粗饲料,试验组以玉米秸秆穰叶作为粗饲料,试验组和对照组精料一致。预试期10 d,正式试验期90 d。结果显示,与对照组相比,试验组肉羊的平均日增重提高了10.58%,平均日干物质采食量提高了1.01%,料重比降低了8.66%。试验组肉羊对饲粮中干物质、粗蛋白、粗脂肪、中性洗涤纤维、酸性洗涤纤维、钙及磷的表观消化率分别比对照组提高了6.52%、8.69%、9.43%、8.17%、8.43%、5.87%和6.51%。试验组肉羊血清中总蛋白含量、球蛋白含量及碱性磷酸酶活性分别比对照组提高了3.41%、10.70%和12.42%,尿素氮含量降低了5.00%。试验组肉羊血清中免疫球蛋白A、免疫球蛋白M、免疫球蛋白G、补体C3和补体C分别比对照组提高了5.89%、7.90%、7.58%、6.95%和2.66%。研究表明,与整株玉米秸秆相比,玉米秸秆穰叶是草食家畜的一种优质粗饲料。

玉米秸秆焦油制备生物沥青的性能研究

随着大规模高等级公路建设和养护维修工程的不断推进,沥青材料的需求量逐渐攀升。随着化石资源的消耗,寻找一种能够替代石油沥青的材料已成为道路工程领域的迫切需求。本文以玉米秸秆焦油为原料,对其进行树脂化处理,制备生物沥青。基于BOX-Behnken响应面分析,以树脂得率为评价指标,确定了树脂合成的最佳工艺条件为:酚醛摩尔比为0.8,反应时间为125 min,秸秆焦油添加量为10%。结果表明:随着树脂化产物的增加,生物沥青的针入度也随之增大,且均高于70#石油沥青。B-PF生物沥青延度随掺量增加呈先升高后降低趋势;但H-PF生物沥青延度随掺量的增大而减小。提高生物沥青掺量可使软化点降低。H-PF生物沥青在10%掺量下延度及软化点低于70#石油沥青,而掺量达到20%时,所制备的生物沥青的软化点和延度皆低于70#石油沥青。

1LF-5型液压翻转犁的设计与试验

为推动玉米秸秆还田保护性耕作农艺的发展,设计了一种集土壤耕作技术、玉米秸秆还田技术于一体的1LF-5型液压翻转犁,一次作业既翻转了土层、松碎了土壤,又可将土壤表层的玉米秸秆与作物残茬翻入土层下,形成隔层进行还田;同时,犁体受到突发外力冲击时,安全装置自动生效,使犁柱绕固定轴栓旋转,从而保护犁体与犁柱的安全。田间试验表明:1LF-5型液压翻转犁的平均耕作深度稳定为33.45cm,平整度为20mm,变异系数在3.166%~3.535%之间;在第1工况下,翻转犁的耕宽平均值为220.75cm,耕宽的变异系数范围为1.21%~1.71%;在第2工况下,翻转犁的耕宽平均值170.1cm,耕作宽度的变异系数范围为1.26%~1.68%;植被覆盖率平均值为89.97%,土垡破碎率为72.27%。机具满足国家标准GB/T14225对于耕作质量的各项要求,也满足翻耕农艺要求。

秸秆炭协助蚯蚓堆肥条件下污泥中重金属时间性变化特征

为降低生活污泥中重金属迁移性和有效性,提高其利用率,以某市生活污水处理厂剩余污泥为研究对象,设置污泥单独堆肥为对照组,添加蚯蚓和不同比例玉米秸秆炭(0%、2%、4%、6%和8%),探究秸秆炭协助蚯蚓堆肥条件下污泥中重金属浓度及其有效态的时间变化规律。结果表明,随堆肥时间增加(0~30 d),污泥pH和总氮(TN)浓度先升高后降低,总有机碳(TOC)浓度逐渐降低,电导率(EC)先降低后升高,总磷(TP)和总钾(TK)浓度逐渐增加,堆肥结束时,pH、TOC浓度和TN浓度分别较初始值平均降低6.38%、20.24%和13.44%;重金属Cd、Zn和Pb浓度先降低后升高,Cu、Ni和Cr浓度先升高后降低;重金属Cd、Cu、Ni和Zn有效态浓度先降低后升高,Cr和Pb有效态浓度先升高后降低,堆肥10 d时,Cd、Cu、Ni和Zn有效态浓度较初始值降低最多,平均降低40.99%、30.65%、16.23%和3.17%。秸秆炭的添加能改善污泥弱酸性环境,提高TK浓度,降低EC和TOC、TN、TP浓度;污泥中重金属(除Pb外)浓度及其有效态(除Cu和Pb外)浓度均随秸秆炭添加比例的增加而降低。通过相关性和逐步回归分析得出,秸秆炭协助蚯蚓堆肥主要通过改变污泥pH及EC与TOC、TP浓度影响重金属有效态浓度,且添加8%玉米秸秆炭时污泥中重金属浓度和有效态浓度降低效果最佳。

玉米秸秆与金针菇菌糠不同混合比例对发酵全混合日粮营养品质和霉菌毒素含量的影响

[目的]研究以玉米秸秆和金针菇菌糠作为粗饲料加工调制肉牛发酵全混合日粮(fermented total mixed ration,FTMR)时二者的最佳配比,为菌糠等副产物高值化利用提供技术支撑。[方法]设置7个不同比例的粗饲料混合处理组,玉米秸秆与金针菇菌糠的比例分别为8∶2(T1组)、7∶3(T2组)、6∶4(T3组)、5∶5(T4组)、4∶6(T5组)、3∶7(T6组)、2∶8(T7组),再以精粗比为4∶6(鲜重)添加肉牛精料补充料,混合均匀后加工制成全混合日粮(total mixed ration,TMR);将不同处理组的TMR样品装入青贮袋,压实密封后抽真空,遮光保存于室内,自然发酵60 d制成FTMR;分别测定并比较TMR和FTMR的营养组分含量和霉菌毒素含量,同时,测定FTMR的发酵参数,确定最优配比。[结果]①随着玉米秸秆与金针菇菌糠配比降低,TMR的DM含量呈逐渐降低趋势,CP含量呈逐渐增加趋势,NDF和ADF含量总体呈逐渐增加趋势,EE含量呈波动性变化。②随着玉米秸秆与金针菇菌糠配比降低,FTMR的DM含量呈逐渐下降趋势,与发酵前相比,T4组的DM损失率最低;T3组和T4组FTMR的CP含量显著(P<0.05)高于其他组,与发酵前相比,T3组与T4组FTMR的CP含量增加;各组FTMR的EE含量差异不显著(P>0.05),与发酵前相比,T1组~T4组FTMR的EE含量下降,T5组~T7组增加;T1组~T5组FTMR的NDF含量显著(P<0.05)低于T6组和T7组,T3组NDF含量最低,与发酵前相比,T3组和T5组FTMR的NDF含量下降;T1组~T5组FTMR的ADF含量显著(P<0.05)低于T6组和T7组,与发酵前相比,T4组和T5组ADF含量下降。③各组FTMR样品均产生酸香味,发酵品质良好;T3组FTMR的pH值最低,显著(P<0.05)低于其余各组,T4组的pH值也较低;随着玉米秸秆与金针菇菌糠配比降低,FTMR的LA含量呈先增加后降低趋势,T4组含量最高,T3组次之,二者均显著(P<0.05)高于其余各组;随着玉米秸秆与金针菇菌糠配比降低,FTMR的AA含量呈先增加后降低趋势,T5组含量最高,T4组和T3组次之;各组FTMR样品均检测到微量的PA,组间差异不显著(P>0.05);T6组和T7组FTMR样品检测到微量的BA,其余各组均未检出;T3组FTMR的AN/TN比值最低,除T6组和T7组AN/TN比值超过10%外,其余各组均小于10%。各组TMR样品以及各组FTMR样品中AFB1、ZEN、OTA含量组间差异均不显著(P>0.05),参考《饲料卫生标准》(GB 13078—2017),发酵前后样品中霉菌毒素均未超过阈值。④主效应分析结果表明,发酵处理显著(P<0.05)降低了TMR的AFB1和ZEN含量,玉米秸秆和金针菇菌糠混合比例处理以及发酵和混合比例组合效应对发酵前后样品的AFB1和ZEN含量无显著(P>0.05)影响;发酵处理、玉米秸秆和金针菇菌糠混合比例处理、发酵和混合比例组合效应对发酵前后样品的OTA含量无显著(P>0.05)影响。[结论]综合营养组分和霉菌毒素含量以及发酵品质分析,采用玉米秸秆混合金针菇菌糠调制FTMR的方式能高效保存利用秸秆和菌糠等副产物,二者以6∶4(T3组)或5∶5(T4组)配比时效果较好。

超声耦合TiO_(2)/UV光催化处理对玉米秸秆组分影响研究

本文采用超声耦合Ti O_(2)/UV光催化处理玉米秸秆,探究处理条件对玉米秸秆组分及结构的影响。研究结果表明,在Ti O_(2)投加量为0.25g·L^(-1)、pH值为8.25、超声强度为0.625W·m L^(-1)、处理1h的条件下,玉米秸秆中木质素和半纤维素含量分别由未处理前的26.06%、20.58%降低到22.85%、18.39%,纤维素含量由37.67%增加到40.39%。超声耦合Ti O_(2)/UV光催化处理可以破坏玉米秸秆的结构,玉米秸秆断裂破碎成细小碎片,表面粗糙有褶皱。本研究可为超声耦合Ti O_(2)/UV光催化技术在玉米秸秆预处理中的应用提供技术参考。

大豆玉米带状种植模式下玉米摘穗机设计与试验

针对丘陵山区大豆玉米带状种植模式的玉米果穗收获有机难用、无机可用的现状,设计一款自走式小型玉米摘穗机。该机采用纵卧式摘穗辊实现果穗摘取,并通过输送装置收集装袋;采用“Y”型布局的L型小甩刀实现茎秆粉碎。对摘穗过程进行动力学分析、对粉碎过程进行静力学分析,确定其核心装置设计参数并进行样机试制。以茎秆粉碎长度合格率、果穗损失率、籽粒破碎率为试验指标进行田间试验,来验证该机设计的合理性。试验表明:在生产率为0.8 hm^(2)/d、果穗籽粒含水率为26.38%、茎秆含水量为71.25%的条件下进行试验,茎秆粉碎长度合格率为92.4%、果穗损失率为2.06%、籽粒破碎率为0.61%。该机设计各项指标符合国家相关标准,能够满足丘陵山地地区玉米机械化收获需求。

热带作物秸秆覆盖对土壤质量及玉米产量和品质的影响

【目的】探究甘蔗叶、菠萝茎叶等热带作物秸秆作为农业覆盖材料对土壤质量及玉米生长的影响,为热带作物秸秆废弃物资源化利用提供参考依据。【方法】以玉米为种植对象,采用田间小区对比试验,设置甘蔗叶覆盖(SLM)、腐熟甘蔗叶覆盖(RSLM)、菠萝茎叶覆盖(PLM)和富贵竹茎叶覆盖(FLM)4个处理,以塑料地膜覆盖(CK1)和无覆盖(CK2)为对照,研究不同秸秆覆盖对土壤pH、有机质、全氮、有效磷和速效钾的影响,以及对玉米产量和品质的影响。【结果】热带作物秸秆覆盖,与无覆盖相比,可以有效提升土壤pH、有机质、全氮、有效磷和速效钾含量,对提升土壤质量具有积极作用。富贵竹茎叶覆盖效果最显著,与塑料地膜覆盖相比,土壤pH提高9.01%,有机质提高6.42%,全氮提高17.59%,速效钾提高477.79%,有效磷含量低于塑料地膜覆盖,但差异不显著;与无覆盖相比,土壤pH提高22.22%,有机质提高21.63%,全氮提高24.51%,有效磷提高2.74%,速效钾提高389.38%。腐熟甘蔗叶和富贵竹茎叶覆盖可以显著提升玉米产量,其他秸秆覆盖对玉米产量和品质的影响均不显著。【结论】热带作物秸秆覆盖可以提升土壤质量、促进玉米增产,富贵竹茎叶覆盖在改良土壤方面的效果显著,腐熟甘蔗叶覆盖对于玉米增产有较好的促进作用。

寒地玉米秸秆力学特性研究

为了合理利用玉米秸秆这种生物质资源,采集了寒地整株玉米秸秆,结合自制试验装置,利用电子万能试验机等设备,测试了整株玉米秸秆不同直径部位在相同加载速率下有节段径向和轴向压缩及无节段抗弯的力学性能。对试验数据进行了拟合,建立了相关数学模型,结果表明:当直径小于20mm时,轴向压缩实验中直径对压力影响并不明显,直径达到25mm左右时影响开始显现,直径大于29mm后影响非常显著;径向压缩时,离秸秆顶端较近的几节直径与压力近似线性相关,但随着直径的增加径向压力并不是均值上升,具有一定的离散性。抗弯试验中,在初始阶段压力在某一范围内上下波动,直径对压力影响并不显著;当直径大于23mm后,所需压力值显著增加;当直径大于30mm之后,直径对压力的影响产生了较为明显的波动性。试验数据真实可靠,拟合结果具有较强的可参考性,可为更好地开发利用秸秆资源及优化秸秆收获装置结构提供理论依据。

玉米秸秆纤维素基保水缓释肥的制备及性能研究

以玉米秸秆纤维素(CSC)和丙烯酸(AA)为原料,采用溶液聚合法制备可降解高吸水聚合物玉米秸秆纤维素-g-聚丙烯酸(CSC-g-PAA)。通过扫描电镜(SEM)和傅里叶变换红外光谱(FTIR)对CSC-g-PAA材料的形貌和结构进行表征。进一步研究CSC-g-PAA在土壤中的持水性、保水性以及降解性。结果表明,CSC-g-PAA在去离子水中的吸水率可达702.89 g/g, 5次循环后CSC-g-PAA的吸水率仍然为初始吸水率的47.27%;添加土壤3%(质量分数)的CSC-g-PAA,土壤持水率为70.51%,36 d后保水率为15.50%;CSC-g-PAA在土壤中50 d的降解率为24.14%。采用液体浸渍法CSC-g-PAA尿素最高负载率为81.76%,具有优异的缓释性能,符合M_(t)/M_(∞)=Ktn模型。CSC-g-PAA能集吸水、保水和负载养分及缓释的功能于一体,在农业生产中具有节水、减施增效的巨大潜力。