利用白云石石灰去除与回收污泥厌氧消化液中氮和磷

以白云石石灰为实验材料去除与回收污泥厌氧消化液中的氮磷,通过小试实验研究不同投药固液比S/L、初始pH值、反应温度、搅拌速度及反应时间对去除与回收氮磷效果的影响。实验结果表明,在最佳投药固液比S/L为300mg/L,最佳初始pH值范围为8.5~9.5,反应温度为25.0℃,搅拌速度为150 r/min,反应时间为24 h条件下,氨氮(NH+4-N)和磷(PO3-4-P)的去除率分别为37.26%和89.60%。利用X射线衍射仪(XRD)、扫描电镜(SEM)对沉淀产物进行了表征,通过分析可知沉淀产物中含有磷酸铵镁(MAP),可实现废水中氮磷经济有效的回收。     

碱液预处理玉米秸秆的条件优化及添加剂的选择

利用稀NaOH溶液预处理玉米秸秆,以去除木质素,减少半纤维素、纤维素的损失为目的,采用响应曲面法对预处理条件进行优化,得到的最佳预处理条件为:NaOH溶液浓度0.77%(w/w),预处理时间16 h,温度45.6℃。并且,进一步研究了不同添加剂(聚乙二醇、吐温-80和尿素)与NaOH溶液协同作用下秸秆中木质素的去除效果,结果表明尿素与NaOH的混合溶液对木质素去除效果最显著。秸秆在45.6℃,0.77%NaOH和0.2%尿素混合溶液中浸泡16 h后,纤维素回收率为86.33%,半纤维素回收率为69.89%,木质素去除率为64.93%;与原秸秆相比,纤维素含量提高了31.70%,半纤维素含量提高了6.62%,木质素含量减少了46.48%。     

螯合铁离子吸收剂处理H2S恶臭气体的研究

应用螯合铁吸收剂处理Ｈ２Ｓ恶臭气体，实验表明，该方法处理含Ｈ２Ｓ恶臭污染是行之有效的。处理的最佳工艺参数为：ｐＨ８．５￣９。螯合铁浓度为０．２％、吸收温度３０℃、适当搅拌吸收液，气流速度以低速为宜。Ｈ２Ｓ去除率大于９８％。     

玉米芯水热预处理条件优化及木质素的结构表征

利用基于3因素3水平的Box-Behnken设计响应曲面实验,研究了添加干冰为辅助介质的水热预处理条件:预处理温度,预处理时间以及辅助介质添加量这3个因素以及这3个因素中两两交互作用对木质素含量的影响,并对水热预处理条件进行了优化。并采用13C固体核磁波谱(NMR)和红外(FT-IR)光谱分析了木质素的结构变化。根据方差分析,辅助介质添加量对木质素含量的影响最为显著,其次是预处理时间,预处理温度的影响最弱。以木质素含量最小为目标,根据二元回归方程预测出最佳的预处理条件为:温度180℃,时间90 min,0.47 g辅助介质添加量,在最优条件下,木质素含量预计为21.2%,脱除率达到31.6%。固体13C NMR和FTIR分析表明,在水热预处理过程中,木质素的致密结构遭到了破坏,木质素高聚体进行了解聚,产生了单体和低聚体。并且确定玉米芯中的木质素主要是紫丁香基型木质素和愈创木基型木质素。     

酸热处理提剩余污泥胞外聚合物的条件优化

以蛋白质浓度、多糖浓度和DNA浓度为表征,对酸热法提取剩余活性污泥中的胞外聚合物进行了条件优化,考察了pH值、温度和提取时间对破解剩余污泥细胞提胞外聚合物(EPS)效率影响的最优条件,并对EPS提取液进行FT-IR分析。结果表明,影响提取效率大小为pH值>温度>提取时间,酸热处理提胞外聚合物的最佳条件为pH=1.25,T=100℃,t=4 h。     

浓磷酸预处理废弃棉织物回收葡萄糖和涤纶的优化

为了实现废弃棉织物的高效资源化利用,采用浓磷酸预处理,将棉纤维转化为葡萄糖,并回收高纯度涤纶。以磷酸浓度、磷酸与原料液固比、预处理温度和时间为研究对象,以涤纶回收纯度、葡萄糖收率为考察指标,采用中心组合设计(CCD),建立响应面模型对预处理工艺参数进行优化。并确定了最佳的浓磷酸预处理工艺条件为:磷酸质量分数85%,液固比15∶1,预处理时间7 h,预处理温度50℃。在此条件下涤纶回收纯度可达100%,葡萄糖收率可达79.0%,且实验验证值与模型预测值较为接近,模型精度较高。此外,再生纤维素不经干燥直接酶水解,葡萄糖收率可被进一步提高至83.0%。     

磷酸铵镁沉淀法回收尿液中N和P的实验研究

以源分离尿液为研究对象,在氨氮含量为2 850 mg N/L的微稀释尿液中,投加MgCl2.6H2O和Na2HPO4.12H2O,以磷酸铵镁沉淀法回收N和P。通过正交实验确定影响磷酸铵镁沉淀反应的因素依次为:pH值、PO34-∶NH4+、Mg2+∶NH4+、温度。在搅拌速度=100 r/min、反应温度=15℃、反应时间=10 min的条件下,实验分别考察了pH值、PO43-投加量、Mg2+投加量对磷酸铵镁沉淀法去除N、P的影响,结果表明最佳工艺条件为pH=9.5,Mg2+∶NH4+∶PO34-=1.3∶1.0∶1.0。最佳工艺条件下尿液中的NH4+-N可从2 850 mg/L降低到约125 mg/L;剩余磷酸盐浓度约7 mg/L。SEM及XRD分析表明,沉淀物的主要成分为呈斜方晶系的磷酸铵镁晶体。     

离子液体催化木质素转化制备丁香醛

木质素的高值转化对于生物质的全组分利用具有重要意义,直接关乎生物炼制产业链的经济可行性。离子液体作为一种新型催化剂,具有较高的可设计性、结构稳定性和热稳定性,可用于木质素催化转化制备具有高附加值的小分子产物以提高木质素的利用效率。以乙醇胺类和胍类离子液体为催化剂,考察了木质素种类与用量、催化剂种类与浓度、反应温度和pH值等因素对丁香醛收率的影响。结果表明:当催化剂为乙醇胺四氟硼酸盐[MEA]BF4,木质素与催化剂用量比为2∶1,固液比1∶150,温度160℃,pH=4.35,反应6 h后丁香醛收率最高,为9.20%。     

甲壳素生产过程中色素和蛋白质的回收利用

采用乙醇为溶剂，提取虾壳中的虾红色素，通过正交试验，确定最佳工艺条件为乙醇浓度95%、温度75℃、浸提0.5h，此时虾红色素得率为4.92%。同时研究了不同pH值对蛋白质回收率的影响，当pH值=3.0时蛋白质回收率最高，为84.20%。     

氧化铁红生产中氨的回收及循环利用

利用吹脱工艺处理水热法制备氧化铁红产生的高浓度氨氮废水。经试验所得最佳的吹脱工艺参数为pH=12、CaO浓度30%、吹脱温度100℃和负压吹脱30 min。在此条件下,氨的回收利用率可达97.40%。用硫酸铁溶液吸收吹脱后氨水,使得氨得到了循环利用。水热实验证明回收的氨水并不影响氧化铁红产品的质量。     

超滤法预处理L-乳酸发酵液

以白酒酒糟乳酸发酵液为研究对象,采用截留分子量为100 kDa的中空纤维超滤膜（聚偏氟乙烯PVDF膜）去除其中的蛋白质等杂质,为后续电渗析分离提纯L-乳酸提供合格的料液。研究表明,操作压力、温度、pH值和进料速度对蛋白质截留率、乳酸回收率和发酵液的膜通量均有影响;乳酸回收率与蛋白质截留率基本呈负相关关系,是因为被截留的蛋白质等在膜面形成滤饼层,有吸附并截留乳酸的作用。通过单因素实验,确定了在操作压力为20 kPa,温度为27℃,pH为3.9,进料速度为280 mL/min的情况下处理效果最好,蛋白质截留率可达到98.01%,乳酸回收率可达到97.78%,发酵液的膜通量为7.26 L/（m2·h）。     

脱木素工艺处理造纸废水的实践与机理

脱木素工艺为中小制浆企业的黑液治理提供了新的方法。系统中酸化纤维污泥减小碱木素胶粒间的斥力 ,吸附废水中已析出的木质素和细小纤维 ;酸破坏了系统中胶体的水化膜 ,增大了胶体的粒径 ;混凝剂中和胶体表面电荷 ,增加颗粒间的接触机会 ,同时发挥了絮凝沉降的作用。该工艺与传统工艺相比 ,减少了酸及混凝剂的用量 ,木素沉降速度快。当试验废水pH =5、绝干纤维污泥与进水CODCr质量之比为 1.1、硫酸铝投加量为 160mg/L时 ,CODCr去除率高于 63 %。     

稻秆负荷与pH对稻秆厌氧发酵产酸系统启动过程的影响

为探讨稻秆负荷（即稻秆VS/污泥VSS）与发酵pH对稻秆厌氧发酵产酸系统启动过程产挥发性脂肪酸（VFAs）效果的影响,利用厌氧搅拌罐反应系统考察在不同的稻秆负荷（0.556、0.945、1.334和1.724 g/g）和不同的发酵pH（8.0、9.0和10.0）启动运行条件下的产酸性能,并分析了系统启动过程产酸与稻秆主要成分降解之间的关系。实验结果表明,VFAs浓度随稻秆负荷提高而增大,随发酵pH的升高而降低;发酵18 d时,发酵pH为9.0时,稻秆负荷1.334 g/g的产酸效果最好,VFAs浓度与稻秆产酸量分别为4 385.10 mg/L和2.19 gVFAs/g稻秆,此时半纤维素、纤维素和酸性洗涤木质素降解率分别为32.69%、22.53%和6.40%;稻秆负荷为0.945 g/g条件下,VFAs浓度在pH为8.0时达到最高值4 409.51 mg/L,此时稻秆降解量也最多,半纤维素、纤维素和酸性洗涤木质素降解率分别为28.60%、47.32%和22.69%。研究表明,稻秆负荷与发酵pH通过影响稻秆半纤维素、纤维素和木质素的降解影响稻秆厌氧发酵产酸的进程和效果。     

利用白云石回收污泥厌氧消化液中的磷

为经济有效地从污泥厌氧消化液中回收磷,构建了以白云石提供钙镁源的磷回收方法,探讨了磷回收的工艺条件与效果。通过盐酸酸化厌氧消化液以降低其碳酸盐含量,同时利用白云石溶于冷稀盐酸的特性使其钙镁缓慢释放到酸化的厌氧消化液中形成第一步磷回收体系,考察体系酸化pH、白云石与厌氧消化液的固液比以及反应pH对白云石的钙镁释放和磷回收效果的影响;第一步磷回收后的上清液为第二步厌氧消化液磷回收提供钙镁源,研究投加钙磷摩尔比对磷回收效果的影响。实验结果表明,当固液比为5.0时,在酸化pH为4.0～4.5且酸化溶出时间为10 h以及反应pH为9.0的条件下,第一步磷回收产物以磷酸钙盐沉淀为主,厌氧消化液磷回收率及回收产物含磷率（以P2O5计）分别达到99.43%和38.49%;第一步磷回收后的上清液按一定的钙磷摩尔比投加到酸化后的厌氧消化液中进行第二步磷回收,当投加钙磷摩尔比为0.20时,在反应pH为9.0的条件下,回收产物同时含有磷酸钙盐和磷酸铵镁,厌氧消化液中氮、磷回收率分别达到13.19%和90.90%,回收产物氮、磷含量（以P2O5计）分别为0.26%和39.58%;经XRD、XRF、ICP及SEM等分析表征,2步磷回收的产物以磷酸钙盐和磷酸铵镁为主要成分,杂质少。研究表明,利用白云石为钙镁源,通过分别构建不同的磷回收体系可以分步从污泥厌氧消化液中经济有效地回收磷,且磷回收率和回收产物含磷率高。     

UV/Fenton法预处理橡胶促进剂生产废水

采用UV/Fenton法对橡胶促进剂废水进行预处理.当原水COD约为3000 mg/L时,COD去除率可达65%以上,并得到最佳操作条件为:H2O2投加量为8 mL/L,Fe2 投加量为0.8 g/L,反应时间为30 min,pH=5;同时得到Fenton试剂处理该废水的最佳条件为:H2O2投加量为10 mL/L,Fe2 投加量为0.966 g/L,反应时间为30 min,pH=5;单独UV作用的最佳工艺条件为:反应时间为20 min,pH=5;并就3种处理方法进行了比较,发现UV对Fenton试剂处理橡胶促进剂废水具有一定促进作用.反应前后的紫外光谱说明,经UV/Fenton或Fenton反应后原水中的苯胺、硝基苯等物质已得到了彻底的氧化分解.     

Characterisation and optimisation of three potential aerobic bacterial strains for kraft lignin degradation from pulp paper waste

Eight aerobic bacterial strains were isolated from pulp paper mill effluent sludge. Out of eight through nutrient enrichment technique three potential aerobic bacterial strains ITRC S(6), ITRC S(7) and ITRC S(8) were found capable to effectively degrade the kraft lignin (KL), a major byproduct of the chemical pulping process and main contributor to the colour and toxicity of effluent. Further, these potential strains (ITRC S(6), ITRC S(7) and ITRC S(8)) were biochemically characterised as Gram variable small rod, Gram negative rod and Gram positive rod respectively. Subsequently, 16S rRNA sequencing showed 95% base sequence homology and it was identified as Paenibacillus sp. (AY952466), Aneurinibacillus aneurinilyticus (AY856831), Bacillus sp. (AY952465) for ITRC S(6), IITRC S(7) and ITRC S(8), respectively. In batch decolourization experiments Bacillus sp. ITRC S(8) reduced the colour of lignin amended mineral salt medium, pH 7.6 by 65% after 6th d, at 30 degrees C, A. aneurinilyticus ITRC S(7) by 56% and Paenibacillus ITRC S(6) 43%. Under these conditions the three strains degraded the KL by 37%, 33% and 30%, respectively while the mixed culture of these three bacteria reduced colour by 69%, lignin by 40% and total substrate by 50% under same conditions. Biodegradation of the KL was not affected by low (<0.2 mg l(-1)) dissolved oxygen content; thus oxygen inhibition is more likely to be a metabolism-dependent event. Initially with 48 h incubation the decolourization was slow with decreased pH. Further incubation there was rapid decolourization with slight increase in pH at 6d compared with initial pH by increasing culture optical density. The lignin analysis from medium with HPLC indicated complete degradation rather than biotransformation with complete loss of absorbance peak at 280 nm.     

Polyelectrolyte enhanced ultrafiltration (PEUF) for the removal of Cd(II): effects of organic ligands and solution pH

This study focused on the effects of pH and organic ligands, namely ethylenediaminetetraacetic acid (EDTA), nitrilotriacetic acid (NTA), and citric acids, on the removal and recovery of Cd(II) in polyelectrolyte enhanced ultrafiltration (PEUF). Polyethylenimine (PEI), which can bind with both positively charged metal ions by coordination bonding and negatively charged ligand-metal complexes by charge attraction, was employed as a chelating polymer. The removal and recovery of Cd species was greatly dependent on the chemistry of organic ligands according to solution pH, particularly being related to the distribution of Cd-ligand complexes at different pH levels. In the presence of EDTA, the dominant Cd species are negatively charged Cd(EDTA)(2-) and CdH(EDTA)(-) over the range of pH levels investigated, interacting with PEI via electrostatic attraction and being less pH dependent. On the other hand, the pH effects of both NTA and citric acid systems are similar to that for the system without organic ligands. This was associated with the fact that free Cd ions were predominant at the acidic pH range in both NTA and citric acid systems.     

不同pH控制策略下剩余污泥中NH4^＋-N、PO4^3--P、COD溶出研究

污水处理厂的剩余污泥中富含氮、磷、COD,在其水解酸化过程中对pH条件进行控制,使污泥中的氮、磷、COD溶出到上清液中并进行回收利用是可行的。在22～25℃的温度条件下,1#反应器中剩余污泥先调节为酸性（pH=3）,在实验第8 d氨氮、磷酸盐溶出量最多后调节为碱性（pH=10）;3#反应器中剩余污泥先调节为碱性（pH=10）,在实验第8 dCOD溶出量最多后调节为酸性（pH=3）;2#反应器为对照实验,pH不进行调节。结果表明：若要以回收污泥中的氨氮、磷酸盐为主,剩余污泥由碱性（pH=10）调节为酸性（pH=3）优于由酸性（pH=3）调节为碱性（pH=10）;若要回收污泥上清液中的COD为主,剩余污泥由酸性（pH=3）调节为碱性（pH=10）优于由碱性（pH=10）调节为酸性（pH=3）。     

Photocatalytic degradation of lignin and lignin models, using titanium dioxide: the role of the hydroxyl radical

The role of hydroxyl radicals on the degradation of lignins during a cellulosic pulp bleaching process including a photocatalytic stage, was assessed using peroxyformic acid lignins EL1 and REL1 and two phenolic niphenyl lignin models 1 and 2. The irradiations were performed in the absence of photocatalyst TiO2 and H2O2 (condition a), in the presence of TiO2 (condition b) and in the presence of H2O2 (condition c). The experiments were conducted in alkaline (pH approximately 11) aqueous ethanol solutions with oxygen bubbling. The relative phenolic content of the irradiated solutions, which is indicative of the involvement of hydroxyl radicals, was determined by ionization absorption spectroscopy. The results obtained show that the catalyzed reaction involves both degradation of the phenolate groups by electron transfer and hydroxylation of the lignin aromatic structure. Benzyl alcohol structural elements in sodium borohydride reduced lignin REL1 and compound 2 were also found as good trapping agents for the hydroxyl radicals. The degradation of EL1 was studied by measuring its fluorescence emission by comparison to the fluorescence of compound 2. The emission spectra indicate that some biphenyl phenolate anions in EL1 are reacting under UV/visible irradiation and some others, probably polyphenolic chromophores emitting less fluorescence, are formed.     

Impact of desiccation and heat exposure stress on Salmonella tolerance to acidic conditions

In a recent study, the pH of commonly used Salmonella pre-enrichment media became acidic (pH 4.0 to 5.0) when feed or feed ingredients were incubated for 24 h. Acidic conditions have been reported to injure or kill Salmonella. In this study, cultures of four known feed isolates (S. montevideo, S. senftenberg, S. tennessee, and S. schwarzengrund) and four important processing plant isolates (S. typhimurium, S. enteritidis, S. infantis, and S. heidelberg) were grown on meat and bone meal and later subjected to desiccation and heat exposure to stress the microorganism. The impact of stress on the isolates ability to survive in acidic conditions ranging from pH 4.0 to 7.0 was compared to the non-stressed isolate. Cell injury was determined on xylose lysine tergitol 4 (XLT4) and cell death determined on nutrient agar (NA). When measured by cell death in non-stressed Salmonella, S. typhimurium was the most acid tolerant and S. heidelberg was the most acid sensitive whereas in stressed Salmonella, S. senftenberg was the most acid tolerant and S. tennessee was the most acid sensitive. The pH required to cause cell injury varied among isolates. With some isolates, the pH required for 50% cell death and 50% cell injury was similar. In other isolates, cell injury occurred at a more neutral pH. These findings suggest that the pH of pre-enrichment media may influence the recovery and bias the serotype of Salmonella recovered from feed during pre-enrichment.