从醇/酮装置酸性废水中回收甲酸

采用共沸—分馏组合法从环己醇和环己酮生产装置产生的酸性废水中回收甲酸,确定了适宜挟带剂的种类及加入量。采用共沸—分馏组合法可获得甲酸质量分数达80%以上的甲酸水溶液,甲酸回收率达70%以上。回收甲酸后,酸性废水的COD由1.0×105~1.6×105m g/L降至500m g/L以下,COD去除率达到99%以上。     

Double-Melting Behavior of Bamboo Fiber/Talc/Poly (Lactic Acid) Composites

The melting and crystallization behavior of pure poly (lactic acid) (PLA) and PLA composites (1% Bamboo Fiber (BF)/PLA, 1% Talc/PLA, 1% BF/1% Talc/PLA) were studied with differential scanning calorimetry (DSC). DSC curves for PLA composites were obtained at various cooling rates, the crystallization temperature and heat of crystallization of PLA composites decreased almost linearly with increasing of log (cooling rate). Moreover, BF has minor effect and talc has the great effect on the crystallization temperature in the PLA composites. With increasing of cooling rate, the main melting temperature of PLA composites decreased. In pure PLA and 1% BF/PLA, the double-melting behavior appeared in the heating curves after slow rate of cooling, and there was the opposite phenomenon of double-melting behavior in other two PLA composites. BF promotes forming the imperfect crystal in the PLA composites during heating process. With increasing of heating rate, the main melting temperature of PLA composites increased except the 1% BF/PLA. At various heating rates, the defects of BF structure promoted the melt-recrystallization and talc promoted forming the small crystals. At last, the recrystallization model was given.     

Biodegradable Copoly(Amino Acid)s Based on 6-Aminocaproic Acid and l-Leucine

Biodegradable copoly(amino acid)s based on 6-aminocaproic acid and l-leucine were prepared by melt condensation polymerization and characterized by Fourier transform infrared spectrometry (FTIR), proton nuclear magnetic resonance spectrometry (¹H NMR), and X-ray diffraction (XRD). The intrinsic viscosity and the density of the copoly(amino acid)s were measured. Thermal properties of the copoly(amino acid)s were performed by differential scanning calorimetry (DSC). Results showed that by increasing leucine content of the comonomers, the intrinsic viscosity, melting point, and melting enthalpy of copoly(amino acid)s decrease while the density increases. The enzymatic degradation of the polymers films was tested using papain; results showed that the copoly(amino acid)s are degradable and the enzymatic degradation rate increases with increasing leucine content in the comonomers.     

Development of Regenerated Cellulose/Citric Acid Films with Ionic Liquids

Nowadays, the importance of green and biodegradable plastics as viable substitutes for non-degradable petroleum-based materials is felt more than ever. Regenerated cellulose (RC) as a potential candidate suffers from poor processability and inferior properties, limiting its wide applications. In this study, it is demonstrated that citric acid (CA) enhances physical, mechanical, and thermal properties of RC films, due to RC-citric acid compatibility. 1-ethyl-3-methylimidazolium chloride (EMIMCl) as a green ionic liquid was employed for the processing of RC. The optimum properties in terms of thermal stability, mechanical strength, contact angle, water uptake, and oxygen permeability were achieved at 10 wt% of CA. However, further incorporation of CA adversely affected the film properties. This behaviour was explained by the crosslinking and plasticizing effects of CA. Furthermore, in vitro cytotoxicity test demonstrated that RC/CA films are cytocompatible, suggesting the potential advantage of using these biopolymeric films for biomaterial and biological applications.

     

Non-Metal Polymeric Bioparticles Based on Maleic Acid/Citric Acid as a Catalyst for H2 Generation from NaBH4

Journal of Polymers and the Environment - Novel metal-free catalysts were synthesized form maleic acid (MA) and citric acid (CA) based polymers for hydrogen generation form NaBH4....     

Comparison of Polylactic Acid/Kenaf and Polylactic Acid/Rise Husk Composites: The Influence of the Natural Fibers on the Mechanical, Thermal and Biodegradability Properties

This paper investigates and compares the performances of polylactic acid (PLA)/kenaf (PLA-K) and PLA/rice husk (PLA-RH) composites in terms of biodegradability, mechanical and thermal properties. Composites with natural fiber weight content of 20% with fiber sizes of less than 100 μm were produced for testing and characterization. A twin-screw extrusion was used to compound PLA and natural fibers, and extruded composites were injection molded to test samples. Flexural and Izod impact test, TGA, soil burial test and SEM were used to investigate properties. All results were compared to a pure PLA matrix sample. The flexural modulus of the PLA increased with the addition of natural fibers, while the flexural strength decreased. The highest impact strength (34 J m⁻¹), flexural modulus (4.5 GPa) and flexural strength (90 MPa) were obtained for the composite made of PLA/kenaf (PLA-K), which means kenaf natural fibers are potential to be used as an alternative filler to enhance mechanical properties. On the other hand PLA-RH composite exhibits lower mechanical properties. The impact strength of PLA has decreased when filled with natural fibers; this decrease is more pronounced in the PLA-RH composite. In terms of thermal stability it has been found that the addition of natural fibers decreased the thermal stability of virgin PLA and the decrement was more prominent in the PLA-RH composite. Biodegradability of the composites slightly increased and reached 1.2 and 0.8% for PLA-K and PLA-RH respectively for a period of 90 days. SEM micrographs showed poor interfacial between the polymer matrix and natural fibers.     

Properties of Starch/PVA Blend Films Containing Citric Acid as Additive

Starch/polyvinyl alcohol (PVA) blend films were prepared successfully by using starch, polyvinyl alcohol (PVA), glycerol (GL) sorbitol (SO) and citric acid (CA) for the mixing process. The influence of mixing time, additional materials and drying temperature of films on the properties of the films was investigated. With increase in mixing time, the tensile strength (TS), elongation (%E), degree of swelling (DS) and solubility (S) of the film were equilibrated. The equilibrium for TS, %E, DS and S value was 20.12 MPa, 36.98%, 2.4 and 0.19, respectively. The mixing time of equilibrium was 50 min. TS, %E, DS and S of starch/PVA blend film were examined adding glycerol (GL), sorbitol (SO) and citric acid (CA) as additives. At all measurement results, except for DS, the film adding CA was better than GL or SO because hydrogen bonding at the presence of CA with hydroxyl group and carboxyl group increased the inter/intramolecular interaction between starch, PVA and additives. Citric acid improves the properties of starch/PVA blend film compared to glycerol and sobitol. When the film was dried at low temperature, the properties of the films were clearly improved because the hydrogen bonding was activated at low temperature.     

动态臭氧/紫外线法处理磺基水杨酸废水

研究了在有或无紫外线 (UV)照射的条件下臭氧 (O3 )对磺基水杨酸废水的处理效果。用O3 与UV协同处理磺基水杨酸废水比仅用O3 和仅用UV的处理效果好得多 ,其COD去除率大于后二者的COD去除率之和。试验选用的动态O3 /UV法处理磺基水杨酸废水的工艺条件为 :O3 发生器放电功率 90 %× 180W ,UV功率 14W ,废水循环流速 10 0mL/min ,处理时间 90min。在此条件下 ,废水COD去除率可达 80 %左右。在上述的O3 发生器放电功率、UV功率、废水循环流速条件下 ,处理 1min时废水变澄清     

TiO2纳米管光电催化降解酸性橙染料

采用电化学阳极氧化法在金属钛表面制备锐钛矿型TiO2纳米管,并以TiO2纳米管薄膜为阳极,考察溶液pH、外加偏压以及NaC1浓度对酸性橙的光电催化降解反应的影响.实验结果表明:在溶液pH为3.0、外加偏压为2.5V、NaCl浓度为0.05 mol/L的最佳实验条件下反应30 min,酸性橙降解率可达99.99％;TiO2纳米管重复使用25次,酸性橙降解率仍可达94.57％.     

Melt Flow Behavior and Processability of Polylactic Acid/Polystyrene (PLA/PS) Polymer Blends

The present investigation dealt with the flow behavior and processability of polylactic acid/polystyrene (PLA/PS) polymer blends using a capillary rheometer. For this purpose, PLA/PS blends with different ratios of the concentrations were prepared using a single screw extruder. The shear viscosity, shear stress, shear rate, power-law index, viscous activation energy at a constant shear stress, and elongational stress were determined. PLA/PS blends exhibited a typical shear-thinning behavior over the entire range of shear rates tested, and the viscosity values of the blends would tend to decrease with increasing amount of PLA. In addition, the polymer blend of 70 % PLA and 30 % PS was found to be relatively less sensitive to the processing temperature, implying that the extrusion process was more desirable for fabrication of PLA/PS polymer blend than the injection process.     

Properties of Glauconite/Polyaniline Composite Prepared in Aqueous Solution of Citric Acid

Hybrid composite made of glauconite and polyaniline was prepared in aqueous solution of citric acid. Scanning electron microscopy combined with energy dispersive X-ray analysis shows uniform aggregates made of glauconite microparticles and polyaniline matrix. The results of X-ray powder diffraction suggest that: (1) citric acid used for the polymerisation of aniline causes formation of emeraldine salt where macromolecular ordering in the amorphous polymer takes place; (2) no chemical interaction between glauconite and emeraldine takes place in the prepared composite. FT-IR spectra of the prepared polymer and composite show features indicating all the functional groups that are present in the diiminoquinone–diaminobenzene state of polyaniline. Thermal stability of the composite was higher than the prepared polymer suggesting the occurrence of an interphase interaction between glauconite and emeraldine. After pyrolysis in purified nitrogen the composite still remained glauconite, and ε-Fe3N together with amorphous and graphitic carbon were found as reaction products. The values of electrical conductivity and magnetization of the composite suggest that optimization of these values might be achieved based upon the relationship between glauconite and polyaniline.     

Interfaces in Cross-Linked and Grafted Bacterial Cellulose/Poly(Lactic Acid) Resin Composites

This article presents approaches to maximize the mechanical performance of bacterial cellulose/poly(lactic acid) composites through chemical modification of the interface. This is achieved by both cross-linking the layered bacterial cellulose structure and by grafting maleic anhydride to the matrix material. Unmodified and glyoxalized bacterial cellulose (BC) networks have been embedded in poly(lactic acid) (PLA) resin and then in maleated resin using a compression molding method. The effect of these chemical modifications on the physical properties of these composites is reported. The tensile properties of the composites showed that Young??s moduli can be increased significantly when both BC networks and PLA were chemically modified. Interface consolidation between layers in BC networks has been achieved by glyoxalization. The effect of these modifications on both stress-transfer between the fibers and between the matrix and the fibers was quantified using Raman spectroscopy. Two competitive deformation mechanisms are identified; namely the mobility between BC layers, and between BC and PLA. The coupling strength of these interfaces could play a key role for optimization of these composites?? mechanical properties.     

已二酸生产副产物——混合二元酸的综合利用

采用一水合硫酸氢钠作为催化剂,催化己二酸生产副产物——混合二元酸与甲醇反应合成混合二元酸二甲酯。优化工艺条件为：混合二元酸加入量0．1mol,无水甲醇加入量0．5mol,一水合硫酸氢钠加入量4．0g,环己烷加入量20mL,反应时间1．5h。合成混合二元酸二甲酯的酯化反应收率大于97％。经气相色谱检测,产物中酯的质量分数为98．91％。一水合硫酸氢钠可重复使用3次。     

SO42-/SnO2 -Fe2O3-硅藻土固体酸催化剂的制备及其对染料废水的催化处理

以硅藻土为载体,采用溶胶-凝胶法引入金属氧化物SnO₂和Fe₂O₃,制备了二元氧化物复合型SO₄^2-/SnO₂-Fe₂O₃-硅藻土固体酸催化剂。利用该催化剂与H₂O₂构成非均相类Fenton试剂氧化体系,催化H₂O₂产生氧化能力极强的·OH,用于处理实际翠蓝废水和模拟亚甲基蓝废水。催化剂的最佳制备条件为：H₂SO₄溶液的浓度3 mol/L,浸渍时间2.0 h,焙烧温度550 ℃,焙烧时间3.5 h,焙烧方式为随炉升降温。实验结果表明：采用在最佳工艺条件下制得的催化剂,处理实际翠蓝废水COD去除率可达79.5%、脱色率达99.6%;处理模拟亚甲基蓝废水COD去除率可达83.1%、脱色率达99.6%。     

磷钨酸催化合成混合二元酸二丁酯

采用混合二元酸和正丁醇为原料,以自制磷钨酸为催化剂,甲苯为带水剂,合成了混合二元酸二丁酯.通过均匀设计和单因素实验研究得到混合二元酸二丁酯合成的最佳工艺条件:n(正丁醇):n(混合二元酸)为3.0,催化剂与混合二元酸的质量比为2.2%,甲苯在反应体系中的质量分数为22%,反应时间为2.0 h.在最佳工艺条件下反应的酯化率为99.44%.     

氯乙酸母液氢解制氯乙酸

以氯乙酸母液和氢气为原料，开发了氢解制氯乙酸的新工艺。文中介绍了氢解了反应原理和工艺流程，并介绍了母液预处理，催化剂筛选及氢解反应条件等试验。中试验连续运转的结果表明，工艺路线合理可行，催化剂活性稳定，单程氢解产品产率达到９４％以上，产品氯乙酸的质量达到行业标准，装置运行安全可靠。     

纳米腐植酸基复合树脂的制备及其对Ni~(2+)和Cd~(2+)的吸附

采用水溶液聚合法,以丙烯酸、丙烯酰胺及改性蒙脱土为原料,纳米腐植酸为基体,N,N’-亚甲基双丙烯酰胺为交联剂,过二硫酸钾为引发剂,制备了丙烯酸-蒙脱土-丙烯酰胺/纳米腐植酸复合树脂(简称复合树脂)。考察了溶液pH、吸附时间、吸附温度、初始离子浓度等因素对复合树脂分别吸附Ni~(2+)和Cd~(2+)的影响。实验结果表明:在吸附温度35℃、吸附时间90 min、溶液pH为7、初始Ni~(2+)和Cd~(2+)的浓度分别为0.02 mol/L、复合树脂加入量16.7 g/L的条件下,Ni~(2+)和Cd~(2+)的吸附量分别为383.02 mg/g和359.27 mg/g;复合树脂吸附Ni~(2+)和Cd~(2+)的吸附等温线均满足Langmuir等温吸附方程;吸附过程均符合准二级动力学方程;复合树脂重复使用6次,其对Ni~(2+)和Cd~(2+)的吸附量分别降低了17.1%和9.3%。     

乙烯撑二氨基苯磺酸生产中磺化废酸的处理

对乙烯撑二氨基苯磺酸生产过程中产生的磺化废酸采用浓缩法进行处理,得到的浓硫酸顺生产中使用。废酸浓缩装置的工艺简单,投资少,建设周期短,运行平稳,１年内即可收回投资,经济效益显著。该装置的建成投产,大大改善了周围环境,具有明显的环境效益。