NaOH预处理对玉米秸秆纤维结构特性和酶解效率的影响

为研究不同温度下Na OH预处理对玉米秸秆纤维结构特性和酶解得率的影响,为确定纤维原料碱法预处理的适宜条件提供理论依据,采用稀Na OH溶液对玉米秸秆分别在60、80、105℃下预处理,测定了预处理前后纤维原料的化学组成和酶解得率,并采用扫描电镜(SEM)、X射线衍射仪(XRD)和傅里叶变换红外光谱仪(IR)对预处理前后玉米秸秆的纤维结构进行了表征。结果表明:Na OH预处理能够有效脱除玉米秸秆中木质素,增加纤维素和半纤维素比例,提高纤维素结晶度,产生的润涨作用导致纤维束状结构疏松。Na OH 80℃预处理1 h后,玉米秸秆中纤维素结晶度达到63.7%,60 h的酶解得率达到71.4%;碱处理温度进一步升高则会充分暴露纤维表面纹孔,同时使纤维素分子内氢键重新形成,容易进一步损失半纤维素,降低纤维素的润涨程度,从而降低酶解效率。80℃条件下碱处理能够有效改善玉米秸秆纤维结构,提高其转化利用效率。

CaSO_4-Ca(OH)_2-H_2O体系中硫酸根的平衡浓度

测定了25℃时不同pH值下CaSO4-Ca(OH)2-H2O三元体系中SO42-的平衡浓度,考察了Na+离子的影响.结果表明,pH值在3.0～12.0范围内SO42-平衡浓度最小,为0.01235mol/L,基本不受pH值的影响;Na+的存在使溶液中SO42-的平衡浓度增大,且二者呈线性关系.应用Pitzer电解质溶液理论对体系进行了活度修正,计算结果与实验测定结果基本一致.研究结果为含SO42-工业废水处理提供了一定的理论依据.

NaAlO_2为铝源时不同碱源对MCM-22分子筛合成的影响

研究了以Na Al O2为铝源时不同碱源对MCM-22分子筛合成的影响。以KOH为碱源时,得到纯相MCM-22分子筛的K/Si O2比值范围变窄;在体系中引入含羟基的低聚物以后,合成纯相K/Si O2的比值范围得以扩大,其原因是羟基与碱羟基的作用降低了碱羟基的活度;在体系中引入硝酸钾,对合成没有影响。可以扩大在Si O2-Na Al O2-HMI-Na OHH2O体系中,以KOH为碱源,加入多羟基低聚物扩大了合成纯相MCM-22的K/Si O2比值范围;而KNO3的引入对合成结果影响较小。以Ba(OH)2为碱源时,当Ba/Si O2≤0.061时,可以得到纯相MCM-22分子筛,且样品的结晶度随着Ba/Si O2比值的增大出现一个最高点,当Ba/Si O2比值继续增大时,也即体系的碱度增大,合成产物则发生从无定形物-混晶的转变。在体系OH-/Si O2比值不变时,以(KOH+Na OH)为碱源,合成产物均为纯相MCM-22,且产物的结晶度随KOH/Na OH比值的增大而有所提高。采用KOH+Ba(OH)2作碱源,保持K/Si O2比值不变,随着Ba/Si O2比值的增大,产物MCM-22的结晶度逐渐减小。当其他因素不变时,合成产物随体系碱度的增大而逐步发生从MCM-22-无定形-转晶的变化;同时,MCM-22分子筛的结晶度随体系碱度的变化出现最大值。

三元正极材料前驱体Ni_(0.5)Co_(0.2)Mn_(0.3)(OH)_2洗涤工艺的试验研究

研究了以共沉淀法制备三元正极材料前驱体Ni_(0.5)Co_(0.2)Mn_(0.3)(OH)_2洗涤工艺对前驱体含硫量和含钠量的影响,提出了制备低钠硫三元正极材料前驱体的优化工艺条件。即采用一段洗碱加一段洗水的工艺处理:洗碱温度为70℃,洗碱中氢氧化钠的浓度为0.4 mol/L,洗碱量为三元前驱体质量的3倍;洗水温度为85℃,洗水量为三元前驱体质量的15倍。结果表明此工艺所得三元前驱体中硫酸根含量为1803 ppm、钠含量为46 ppm。

Functional and molecular mechanism of intracellular pH regulation in human inducible pluripotent stem cells

AIM To establish a functional and molecular model of the intracellular pH(pH_i) regulatory mechanism in human induced pluripotent stem cells(hiPSCs).METHODS hiP SCs(HPS0077) were kindly provided by Dr. Dai from the Tri-Service General Hospital(IRB No. B-106-09). Changes in the pH_i were detected either by microspectrofluorimetry or by a multimode reader with a pH-sensitive fluorescent probe, BCECF, and the fluorescent ratio was calibrated by the high K^+/nigericin method. NH_4Cl and Na-acetate prepulse techniques were used to induce rapid intracellular acidosis and alkalization, respectively. The buffering power(β) was calculated from the ΔpH_i induced by perfusing different concentrations of(NH_4)_2SO_4. Western blot techniques and immunocytochemistry staining were used to detect the protein expression of pH_i regulators and pluripotency markers.RESULTS In this study, our results indicated that(1) the steadystate pH_i value was found to be 7.5 ± 0.01(n = 20) and 7.68 ± 0.01(n =20) in HEPES and 5% CO_2/HCO_3^- buffered systems, respectively, which were much greater than that in normal adult cells(7.2);(2) in a CO_2/HCO_3^--buffered system, the values of total intracellular buffering power(β) can be described by the following equation: β_(tot) = 107.79(pH_i)~2-1522.2(pH_i) + 5396.9(correlation coefficient R^2 = 0.85), in the estimated pH_i range of 7.1- 8.0;(3) the Na^+/H^+ exchanger(NHE) and the Na^+/HCO_3^- cotransporter(NBC) were found to be functionally activated for acid extrusion for pHi values less than 7.5 and 7.68, respectively;(4) V-ATPase and some other unknown Na^+-independent acid extruder(s) could only be functionally detected for pHi values less than 7.1;(5) the Cl^-/OH^- exchanger(CHE) and the Cl^- /HCO_3 anion exchanger(AE) were found to be responsible for the weakening of intracellular proton loading;(6) besides the CHE and the AE, a Cl^--independent acid loading mechanism was functionally identified; and(7) in hiPSCs, a strong positive correlation was observed between the loss of pluripotency and the weakening of the intracellular acid extrusion mechanism, which included a decrease in the steady-state pH i value and diminished the functional activity and protein expression of the NHE and the NBC.CONCLUSION For the first time, we established a functional and molecular model of a pHi regulatory mechanism and demonstrated its strong positive correlation with hiPSC pluripotency.

不同预处理条件对水稻秸秆厌氧消化产气性能的影响

为探索合理的预处理方法以实现水稻秸秆的高效厌氧消化,笔者研究了NaOH,H_2SO_4与纤维素酶处理3种预处理方法对水稻秸秆厌氧消化产气性能的影响。将经预处理的60 g干物质的水稻秸秆放入发酵瓶中,在恒温(35℃±1℃)下进行沼气发酵试验。比较不同质量分数的NaOH,H_2SO_4,不同投加量纤维素酶预处理水稻秸秆的厌氧发酵效果,综合原料分解程度、总产气量、气体组分含量变化等指标,得出6%NaOH,2%H_2SO_4,纤维素酶添加量为40 U·g-1TS的预处理效果要分别优于同一组中其余质量分数的NaOH,H_2SO_4和不同添加量的纤维素酶;对比不同处理方法预处理水稻秸秆厌氧发酵产沼气的效果,经过纤维素酶预处理的单位固体发酵产气量、底物分解率、甲烷体积百分数总体表现优于对照组、NaOH以及H_2SO_4预处理组。因此,生物预处理可能成为今后水稻秸秆沼气工程较理想的预处理方法。

富钾正长岩水热碱法沸石化及成矿意义

本文以富钾正长岩粉体为原料,首次通过直接水热碱法处理,成功合成了方沸石和羟钙霞石,合成温度260℃,时间4 h。通过控制正长岩粉体、氢氧化钠和水的配比,可分别将正长岩粉体中的微斜长石、斜长石和石英转化为方沸石或羟钙霞石,同时正长岩中的K2O和过剩的Si O2被溶出进入液相,可用于制取钾盐。不同类型富钾正长岩直接水热碱法沸石化的成功,为解释自然界中的沸石成因、长石与沸石的共生及转化关系、与沸石化有关的金属矿化机制以及油气成因等,提供了实验证据,也为直接利用廉价的长石类硅铝质矿物原料合成沸石提供了新的技术途径,对于利用非水溶性钾资源制取钾盐具有指导意义。

循环晶种法制取氢氧化镁的实验研究

采用循环晶种的方法制取了氢氧化镁。对料浆过滤性能、氢氧化镁纯度、TG-DSC进行了分析,利用透射电子显微镜和X-ray对其形貌和晶体结构进行了表征。文章对氢氧化钠法制取氢氧化镁有一定的参考价值。

Water Permeability in Fly Ash-Based Geopolymer Concrete

This research investigated the water permeability coefficient of fly ash-based geopolymer concrete. The effect of sodium hydroxide （Na（OH）） concentrations and Si/AI ratios on water permeability and compressive strength of geopolymer concretes were studied. The geopolymer concrete were prepared from Mae Moh fly ash with sodium silicate （Na2SiO3） and sodium hydroxide （Na（OH）） solutions. In the first group, concentration of Na（OH） was varied at 8, 10, 12, and 14 molar and the Si/AI ratio was kept constant at 1.98. In the second group, a concentration of Na（OH） was kept constant at 14 molar and the Si/AI ratio was varied at 2.2, 2.4, 2.6, and 2.8. The hardened concretes were air-cured in laboratory. The compressive strength and water permeability were tested at the age of 28 and 60 days. The results showed that compressive strengths of geopolymer concrete significantly increased with the increase of a concentration of Na（OH） and Si/AI ratio. The water permeability coefficients increase with the decrease of compressive strength. In addition, the high reduction of water permeability coefficients with time was found in geopolymer concrete with lower Na（OH） concentration than that higher Na（OH） concentration.

果皮废弃物木质纤维素水解实验分析

为了研究果皮废弃物(柚子皮、橘子皮、香蕉皮)Na OH预处理与酶水解的效率,探讨三种果皮混合酶水解的可行性。第一步选择原料进行前处理和不同浓度(0.5%、1%的Na OH)的碱预处理;第二步通过选取较优预处理(1%的Na OH预处理)样品,根据配方试验设计的单纯形格子点设计的方法制样,建立混合样品比例进行酶水解实验分析。通过测定计算样品水解率,得出酶Accellerase1500对香蕉皮的选择性最强;验证了三种果皮混合酶水解的可行性,对实际的生物质乙醇的生产具有重要的参考价值。

NaOH预处理对杂交狼尾草厌氧发酵产沼气的影响

研究了Na OH预处理对杂交狼尾草厌氧消化制沼气的影响。采用质量分数分别为0%、2%、4%、6%和8%的Na OH溶液对杂交狼尾草进行碱预处理,在中温(35℃)、TS质量分数6%、接种率20%及初始p H为7.0条件下,进行厌氧发酵实验。对比了处理前后原料木质纤维素含量,探讨了不同浓度预处理对发酵过程沼气产量、甲烷浓度、p H以及产气速率的影响。结果表明,Na OH预处理有助于提高杂交狼尾草厌氧发酵的产气量和产气速率,其中4%Na OH预处理为较优条件。经4%Na OH溶液常温浸润24 h后,杂交狼尾草木质素降解率最大,比未处理实验组提高了31.2%;厌氧发酵总产气量比未处理实验组提高了31.6%。

碱性氧化浸出废弃手机线路板中的锡、铅

废弃手机线路板中含有重金属铅、镉、汞等有毒有害物质,处理不当会对环境和人体健康造成危害,但同时废弃手机线路板元器件中还含有丰富的有价金属元素。为回收废弃手机线路板元器件中的锡、铅,进行了碱性氧化浸出试验。结果表明,在氢氧化钠浓度为4 mol/L、间硝基苯磺酸钠浓度为11 g/L、浸出温度为80℃、浸出时间为60 min条件下,锡、铅浸出率分别达到99.51%和99.01%,其余主要金属浸出率均低于6%。

基于秸秆后发酵产沼气的一次发酵时间优化

采用“一次发酵+NaOH处理+二次发酵”工艺,以稻秸为原料,研究一次发酵时间对稻秸沼气发酵的影响.结果表明,一次发酵后的稻秸仍有一定的产气能力,干物质(TS)产气量为28.11~50.73mL/g TS,产气量大小与一次发酵时间成反比;一次发酵后的稻秸经NaOH处理后,稻秸物质结构受到明显破坏,有机物大量溶出,稻秸浸提液COD、总氮、铵态氮和硝态氮浓度分别较未经NaOH处理的稻秸提高128.56%~213.62%、93.92%~110.59%、53.90%~73.78%和112.08%~188.98%;NaOH处理并不能破坏稻秸的骨架结构,但稻秸官能团相对含量发生变化,加剧了纤维素、半纤维素和木质素结构的破坏.将一次发酵15,25和35d的稻秸经NaOH处理后用于沼气发酵,产气量较相应的对照分别提高了77.37%,119.41%和159.94%,一次发酵时间越长NaOH处理促进秸秆产气的效果越好.实验结束时,一次发酵15,25和35d的稻秸总产气量分别为202.78,205.15,210.21mL/g TS,三者间差异不显著,但较对照(CK)显著提高了11.89%、13.20%、15.99%,发酵周期较CK分别增加了-12,-2,8d.综上所述,采用“一次发酵+NaOH处理+二次发酵”工艺时,一次发酵时间选择15d更合适.

改性Ni/La_2O_3催化剂抑制甘油蒸汽重整制氢中的甲烷化反应

为抑制Ni/La_2O_3催化剂在丙三醇重整反应中的甲烷化反应,提高氢气选择性,制备了Ni-M/La_2O_3改性催化剂(M为Mg、Al、Cu、Ca、K、Na等金属),并在固定床反应器中进行催化剂活性评价。结果表明,在催化剂中以氢氧化物形式存在金属助剂(Ca、K、Na)对于甲烷化反应的抑制要优于以氧化物形式存在的(Mg、Al、Cu)。碱性环境下,载体金属镧主要以La(OH)_3和La CO_3OH的形式存在,抑制了La_2O_2CO_3和La_2Ni O_4的生成,从而降低了其对甲烷化反应的催化活性。XRD检测说明了关于抑制甲烷化反应的机理,即Na助剂的添加抑制了La_2Ni O_4的产生,降低了甲烷化反应的选择性。

氢氧化钠亚熔盐体系分解铬铁矿的工艺研究

研究了氢氧化钠亚熔盐体系氧压浸出铬铁矿工艺的主要作用因素对铬浸出率的影响,确定了最佳的工艺参数。结果表明,氢氧化钠亚熔盐氧压浸出过程,对铬浸出影响最显著的因素是温度和氧压力;在铬铁矿粒径为0.038~0.048 mm、矿碱质量比为1∶7、搅拌速度为650 r/min条件下,氢氧化钠亚熔盐氧压浸出铬的最佳反应条件为:浸出温度为245℃、碱浓度为65%(质量分数)、氧气压力为0.8 MPa、反应时间为480 min。在该条件下铬的浸出率为99%以上,活化能为51.49 k J/mol,动力学方程为1-2/3x-(1-x)^(2/3)=2 124.73 PO20.85×e^(-51 490/RT)×t。

Enhancing the selective hydrogenation of benzene to cyclohexene over Ru/TiO_2 catalyst in the presence of a very small amount of ZnO

Highly efficient and greener hydrogenation of benzene to cyclohexene is of great importance but is challenging.In this work,Ru/Ti O2 catalyst was prepared by a simple chemical-reduction method.The catalyst was characterized by transmission electron spectroscopy(TEM),X-ray powder diffraction(XRD),Fourier transform infrared spectroscopy(FTIR),X-ray photoelectron spectroscopy(XPS),and nitrogen adsorption-desorption techniques.It was shown that the Ru nanoparticles with average size of about 2.2 nm were dispersed uniformly on the surface of the Ti O2 support.The effect of a very small amount of Zn O in Na OH solution on the selectivity to cyclohexene was investigated under different conditions by using Ru/Ti O2 catalyst.It was found that the addition of a small amount of Zn O to the Na OH solution could effectively enhance the selectivity to cyclohexene and that the yield of cyclohexene could reach 41.5%.Control experiments revealed that the main reason for the enhancement of the selectivity to cyclohexene was the presence of Zn O in the form of Na2Zn(OH)4 in the alkaline solution,which effectively retarded the further hydrogenation of cyclohexene.A recycling experiment showed that the yield of cyclohexene was not obviously decreased after four reuses.

Vitamin D_3 increased intestinal Na/Pi-Ⅱb and CYP27B1 mRNA level in rats fed low-phosphorus diets

The objective of the study was to determine the role of vitamin D3(VD3) in regulating adaptation and mechanism of rats to low-phosphorus(P) diets. Rats were assigned to 4 diets containing 0.2%, 0.4%, 0.6%,or 0.8% P consisting of 5 replicate cages with 6 rats per replicate cage and fed for 7 days. Four rats from each replicate cage were treated with ethane-1-hydroxy-1,1-diphosphonicacid, tetrasodium salt(EHDP)and 2 rats remained untreated. Twelve hours prior to preparation on d 7, two of the EHDP-treated rats received an intraperitoneal injection of VD3 [1,25-(OH)_2 D_3] at 600 ng per kg body weight, while two rats did not receive the injection. Rats that did not receive VD_3 injection had decreased(P < 0.001) P absorption, but injection of VD3 resulted in increased(P < 0.001) absorption. The effect of VD3 injection was greater(P < 0.001) for rats fed 0.2% P diet than rats fed 0.8% P diet in ileum. Sodium dependent phosphate cotransporter type IIb(Na/Pi-IIb) and 25-hydroxyvitamin D 1-α hydroxylase(CYP27 B1) mRNA level showed the same trend with P absorption. Serum concentration of VD3 and la-hydroxylase activity in rats fed 0.2% P diet were lower than those fed 0.8% P diet. The injection of VD3 increased(P < 0.001)serum concentration of VD3 and la-hydroxylase activity. Thus, VD3 increased Na/Pi-Ⅱb and CYP27 B1 mRNA level and improved serum concentration of VD3 and la-hydroxylase activity in rats fed low-P diets.

硼-10富集硼烷Lewis碱加合物的合成

天然硼中主要含有两种稳定同位素,即硼-10和硼-11,丰度分别为19.78%和80.22%.其中,富集的硼-10同位素在核工业以及放射治疗癌症等方面有重要应用.因此,硼-10富集含硼化合物的合成具有重要的研究意义.硼烷类化合物是合成这类化合物的主要起始原料,但是目前合成硼-10富集硼烷化合物的方法还比较少.以商业可得的硼-10富集硼酸为起始原料,首先采用改进的文献方法合成了硼-10富集的Na^(10)BH_(4),Na^(10)BH_(4)与碘单质反应生成乙硼烷(^(10)B_(2)H_(6))然后,乙硼烷与各种Lewis碱进行配位,得到了一系列硼-10富集的硼烷Lewis碱加合物,包括四氢呋喃硼烷(THF·^(10)BH_(3))、二甲基硫醚硼烷(DMS·^(10)BH_(3))、N,N-二甲基苯胺硼烷(DMA·^(10)BH_(3))、氨硼烷(NH_(3)·^(10)BH_(3))、三甲胺硼烷(Me_(3)N·^(10)BH_(3))、三苯基磷硼烷(Ph_(3)P·^(10)BH_(3))和N-杂环卡宾硼烷[IPr·^(10)BH_(3),IPr=1,3-双(2,6-二异丙基苯基)咪唑-2-亚基].该方法操作简单,反应收率高,为硼-10富集化合物的合成提供了物质基础.

热碱预处理对菊芋茎秆组成和酶水解影响

为了深入了解菊芋茎秆用于生物能源转化的潜力,在对菊芋茎秆的全秆、韧皮以及髓芯的组成分析基础上,采用不同浓度的Na OH在121℃对菊芋茎秆进行预处理,并对预处理后的茎秆进行酶水解。结果表明:菊芋茎秆具有较高木质素含量(32.0%),且韧皮中木质素含量最高;茎秆中碳水化合物总含量与传统农作物秸秆相当,但纤维素含量相对较高(40.5%),半纤维含量相对较低(19.6%)。经不同浓度Na OH预处理后,相对于未处理茎秆,全秆、韧皮以及髓芯中木质素含量分别降低13.1%–13.4%、8.3%–13.5%和19.9%–27.2%,半纤维素含量分别降低了87.8%–96.9%、87.6%–95.0%和74.0%–90.2%。纤维素含量在全秆、韧皮和髓芯中相应增加了56.5%–60.2%、52.2%–55.4%和62.7%–73.2%。酶水解的结果显示,增加预处理过程中Na OH的浓度,全秆和韧皮的水解率可被提高2.3–2.6倍和10.3–18.5倍。虽然热Na OH预处理可以有效地改善髓芯水解性能,但经过高浓度的Na OH(2.0 mol/L)预处理,髓芯的水解性能下降明显。由此可见,菊芋用于生物能源转化技术中,热碱法可较好地适用于菊芋秸秆预处理。提高碱浓度,有利于半纤维素和木质素的去除,并实现酶水解糖化产率的提高。但鉴于碱浓度过高会造成髓芯糖产率降低,热碱预处理菊芋秸秆工艺条件需进一步优化。