厌氧生物法处理果胶废水的研究

采用经果胶废水驯化的厌氧污泥处理果胶废水,考察了果胶浓度、温度对厌氧去除果胶和COD的影响,并对降解产物进行了分析.结果表明,与未驯化厌氧污泥处理果胶废水相比,驯化后的污泥对果胶去除率提高了59.2%.果胶浓度分别为100、2 500和4 500 mg·L-1时,果胶降解速率分别为4.5、49.8和74.0 mg·(L·h)-1,说明果胶浓度越高,降解速率越快.果胶浓度低于500 mg·L-1,COD去除率较低,仅为41.6%~82.0%,果胶浓度高于1 000 mg·L-1,COD去除率稳定在91%以上.温度越高,降解果胶所需的时间越短.随着温度在5~35℃范围内变化,厌氧污泥对果胶废水中COD的去除率从38.6%逐渐增加到91.5%,当温度高于35℃时,厌氧污泥对果胶废水中COD的去除率逐渐降低.果胶降解的中间产物主要是乙酸、丙酸、低级酯、烷基醇(C12~C40).     

海州香薷根细胞壁对铜的吸附固定机制研究

海州香薷是铜耐性植物,细胞壁是其吸收积累铜的重要场所.本文利用细胞壁化学改性结合吸附动力学试验和红外光谱学研究了海州香薷根细胞壁及其组分对Cu2+的吸附动力学特征,以及它们吸附固定Cu2+的功能基团.吸附动力学试验表明,海州香薷根细胞壁对Cu2+吸附300 min后,吸附量已接近饱和水平,达到最大吸附量的90%左右;500 min时达到吸附饱和,饱和吸附量为5.85 mg·g-1.当细胞壁进行化学改性后,如氨水处理细胞壁使果胶变成低酯化的酰胺类果胶或者去除细胞壁中的纤维素,根细胞壁对铜的吸附量会显著降低.果胶和纤维素分别吸附了19.85%和25.48%的Cu2+,是细胞壁吸附固定Cu2+的两大主要组分.红外光谱研究也表明,在海州香薷根细胞壁吸附Cu2+的过程中,羟基、羧基和氨基是Cu2+的主要结合位点.其中,果胶为Cu2+的结合提供了羟基官能团,纤维素和半纤维素为Cu2+的结合提供了羧基官能团,而细胞壁蛋白提供了氨基官能团等结合位点.由此可见,根细胞壁及其各个组分对Cu2+具有较高的吸附固定能力,是海州香薷根系Cu耐性的重要机制.     

薜荔瘦果的营养成分研究

首次对薜荔（ＦｉｃｕｓｐｕｍｉｌａＬ．）瘦果进行营养成分分析,结果表明：薜荔花被果胶含量为３２７０％,蛋白质含量为３８０％,总糖含量为２０３３％,总黄酮含量为１５１４％；薜荔种子果胶含量为１５１５％,蛋白质含量为１５７０％,粗纤维含量为２６２０％,总黄酮含量为２０８％；种子含油率高达３０１３％,油的多不饱和脂肪酸与饱和脂肪酸的比值（ＰＵＦＡ／ＳＦ）为１０９３；薜荔瘦果的维生素和矿质元素含量也很丰富。研究结果为合理开发研制薜荔保健食品提供科学依据     

综合利用柑桔皮的优化工艺

探索了从拮皮中提取色素，果胶及橙皮甙 的新工艺，该工艺简易易行，成本低；桔皮得到了充分的利用，取得了大大高于文献报道的提取效率。     

柑桔类果皮资源的综合利用研究

柑桔类水果皮中主要含有香清油、类胡萝卜色素、橙皮甙、果胶和纤维素等有用成分，此外，还含有上百种配糖体、环肽等生物活性成分。介绍了这些化学成分的提取分离方法以及它们在食品、医药等领域的应用。     

六种水果不能空腹吃

大家都知道,吃水果有益健康,但吃水果也有讲究,有些水果是不适合在空腹的状态下进食的。西红柿:含有大量的果胶、柿胶酚、可溶性收敛剂等成分,空腹食用容易与胃酸发生化学作用,凝结成不易溶解的块状物,造成胃扩张和胃胀痛。柿子:含有柿胶酚、果胶、鞣酸和鞣红素等物质,具有很强的收敛作用。空腹食用,容易和胃酸结合凝成难以溶解的硬块,引起“胃柿结石症”。香蕉:含有大量的镁元素,若空腹大量吃香蕉,会使血液中含镁量骤然升高,造成人体血液内镁与钙的比例失调,对心血管产生抑制作用,不利健康。甘蔗和鲜荔枝:空腹时吃甘蔗或鲜荔枝切勿过量,否…     

根细胞壁及其组分差异对植物吸附、转运Zn的影响

采用水培实验,研究了不同植物根细胞壁组分差异对Zn吸收、转运的影响及其机制.结果表明,在50mg/LZn处理下,不同植物对Zn的吸收、转运系数顺序为:小白菜≈芥菜≈生菜>青椒>西红柿>水稻,而在20mg/L Zn处理下,生菜茎叶中Zn的转运系数则大于芥菜,这可能与低浓度条件下Zn对生菜产生的低剂量刺激效应有关;利用植物活体根细胞解吸法对不同植物活体根系细胞壁中的Zn含量测定结果表明,不同植物的根细胞壁在去除了果胶成分后,根细胞壁中Zn的含量显著增加,其中水稻根细胞壁增加最大,达到53.7%,增加最小的是青椒(21.1%),而去除半纤维素后则显著降低了不同植物根细胞壁中Zn的含量,尤其是水稻根细胞壁最明显;吸附动力学实验表明,不同处理后的细胞壁对Zn的吸附是个快速反应过程,在吸附30min内所有处理均达到最大吸附量的91%以上,去除果胶显著增加不同细胞壁对Zn的吸附量,而进一步去除半纤维素后,不同细胞壁对Zn的最大吸附量显著下降.以上结果表明,半纤维素含量的增加明显提高了不同植物根束缚Zn的能力而降低向地上部的运输.     

电子废弃物的回收利用——以手机电池为例

电子废弃物作为一种新的废弃物出现,引起人们对其处理方法的研究,本文以手机电池为例,研究了其处理方法和减量化措施,并提出了一些建议。     

粒状电介质形态对介质阻挡放电特性的影响

选取自制高岭土颗粒和氧化铝颗粒作为介质阻挡放电的电介质,并将其作为板-板式气体放电填充床反应器的填充材料,通过对反应器放电特性的实验研究。研究了电场强度、李萨如图形、放电功率以及电流脉冲情况,初步探讨了粒状电介质阻挡放电机制。并从粒径、成分、排序三个角度进行了结果分析,进而总结这三方面因素对气体放电的影响规律。     

回用蒸煮黑液、实现达标排放

精制棉生产时产生的蒸煮黑液中含有大量的棉超短绒、果胶、油脂、棉蜡、木糖等,色度大于2000倍,CODCr质量浓度高达6000mg/L以上,生化性差,难处理。若将蒸煮黑液预处理,高浓度回收利用,低浓度与洗涤废水混合经厌氧、好氧、混凝处理后,不但出水水质达到GB8978-1996《污水综合排放标准》一级标准,而且大大降低了投资和运行费用。     

Biodegradation and ecotoxicological assessment of pectin production wastewater

The chemical composition of pectin production wastewater and its toxicity during biological treatment were investigated. Samples of wastewater from di erent steps of a pectin production wastewater biological treatment plant were investigated including the influent of the treatment (1), after denitrification tank (2), after anaerobic treatment (3) and final e uent (4). The conventional physicochemical characteristics of samples did not indicate wastewater toxicity. However, toxicity assessments carried out on Vibrio fischeri and Scenedesmus subspicatus indicated low EC50 values. The fractionation of the samples using an XAD resin showed that the toxicity was associated with the organic matter. Wastewater apparent molecular mass distributions were 14.3, 25.0, 24.4 and 29.6 kDa for samples 1–4, respectively. Finally, characteristics of the sample by pyrolisis-gas chromatography-mass spectrometry (Py-CG-MS) demonstrated its polyphenolic nature and a 23% increase in the levels of such compounds after the first biological treatment step.     

提取七叶皂苷钠的废水处理

提取七叶皂苷钠废水中含有七叶皂苷钠、淀粉、色素、胶质。其中七叶皂苷钠易起泡,不易回收和处理,本文采用加抑泡剂(YP1),深度处理回收釜残液,使综合废水浓度降低,经水解酸化3h,好氧生物处理6h,出水CODCr<100mgL,达到国家规定的排放标准。     

Endogenous nitric oxide mediates alleviation of cadmium toxicity induced by calcium in rice seedlings

The effect of calcium chloride (CaCl₂) on rice seedling growth under cadmium chloride (CdCl₂) stress, as well as the possible role of endogenous nitric oxide (NO) in this process, was studied. The growth of rice seedlings was seriously inhibited by CdCl₂, and the inhibition was significantly mitigated by CaCl₂. However, hemoglobin (Hb) and 2-(4-carboxyphenyl)-4, 4,5,5-tetramethylimidazolinel- oxyl-3-oxide (cPTIO) weakened the promotion effect of CaCl₂. The results of NO fluorescence localization suggest that growth accelerated by CaCl₂ might be associated with elevated NO levels. The content of Cd, protein thiols (PBT), and nonprotein thiols (NPT) in cell walls, cell organelles, and soluble fractions, respectively, of rice seedlings decreased considerably in the presence of CaCl₂, whereas the content of pectin, hemicellulose 1 (HC1), and hemicellulose 2 (HC2) increased significantly. Elimination of endogenous NO in Cd+Ca treatment could promote the transportation of Cd²⁺ to cell organelles and soluble fractions and increase the content of NPT and PBT in leaves. In addition, transportation of Cd²⁺ to cell organelles and soluble fractions was retarded in roots, the content of NPT increased, and the content of PBT decreased. With elimination of endogenous NO in Cd+Ca treatment, the content of pectin, HC1, and HC2 decreased significantly. Thus, Ca may alleviate Cd toxicity via endogenous NO with variation in the levels of NPT, PBT, and matrix polysaccharides.     

芹菜根细胞壁对镉的吸附固定机制及其FTIR表征研究

对芹菜根细胞壁Cd的吸附固定机制开展了相关研究.芹菜根细胞壁Cd吸附的动力学实验研究表明,根细胞壁经酯化改性处理后其对Cd的累积吸附量相对降低了42.6%,经氨基甲基化改性处理后其对Cd的累积吸附量相对降低了21.0%,经果胶酶改性处理后其对Cd的累积吸附量相对降低了40.5%.同时,利用傅立叶红外光谱技术表征了芹菜根细胞壁上Cd吸附位点的官能团信息.研究结果表明,Cd主要与细胞壁纤维素、半纤维素和木质素中的羧基官能团发生结合作用,同时,根细胞壁上的蛋白质和果胶质也参与了Cd的结合.     

Treatment of oilfield produced water by anaerobic process coupled with micro-electrolysis

Treatment of oilfield produced water was investigated using an anaerobic process coupled with micro-electrolysis (ME), focusing on changes in chemical oxygen demand (COD) and biodegradability. Results showed that COD exhibited an abnormal change in the single anaerobic system in which it increased within the first 168 hr, but then decreased to 222 mg/L after 360 hr. The biological oxygen demand (five-day) (BOD5)/COD ratio of the water increased from 0.05 to 0.15. Hydrocarbons in the wastewater, such as pectin, degraded to small molecules during the hydrolytic acidification process. Comparatively, the e ect of ME was also investigated. The COD underwent a slight decrease and the BOD5/COD ratio of the water improved from 0.05 to 0.17 after ME. Removal of COD was 38.3% under the idealized ME conditions (pH 6.0), using iron and active carbon (80 and 40 g/L, respectively). Coupling the anaerobic process with ME accelerated the COD removal ratio (average removal was 53.3%). Gas chromatography/mass spectrometry was used to analyze organic species conversion. This integrated system appeared to be a useful option for the treatment of water produced in oilfields.     

Catalyzed degradation of disperse dyes by calcium alginate-pectin entrapped bitter gourd （Momordica charantia） peroxidase

Calcium-alginate pectin entrapped bitter gourd peroxidase (BGP) has been employed for the treatment of disperse dyes: Disperse Brown 1 (DB 1) and Disperse Red 17 (DR 17). Peroxidase alone was unable to decolorize DR 17 and DB 1. However, the investigated dyes were decolorized maximally by BGP in the presence of 0.2 mmol/L redox mediator, violuric acid (VA). A slow decrease in percent decolorization was observed when VA concentration was higher than 0.2 mmol/L which could likely be due to the high reactivity of its aminoxyl radical (> N–O.) intermediate, that might undergo chemical reactions with aromatic amino acid side chains of the enzyme thereby inactivating it. Maximum decolorization of the dyes was observed at pH 3.0 and 40°C within 2 hr of incubation. Immobilized peroxidase decolorized 98% DR 17 and 71% DB 1 using 35 U of BGP in batch process in 90 min. Immobilized enzyme decolorized 85% DR 17 and 51% DB 1 whereas soluble enzyme decolorized DR 17 to 48% and DB 1 to 30% at 60°C. UV-visible spectral analysis was used to evaluate the degradation of these dyes and their toxicity was tested by Allium cepa test. The generally observed higher stability of the bioaffinity bound enzymes against various forms of inactivation may be related to the specific and strong binding of enzyme with bioaffinity support which prevents the unfolding/denaturation of enzyme. Thus entrapped peroxidase was found to be effective in the decolorization of the investigated dyes.