Theoretical Study on Free Fatty Acid Elimination Mechanism for Waste Cooking Oils to Biodiesel over Acid Catalyst

A theoretical investigation on the esterification mechanism of free fatty acid (FFA) in waste cooking oils (WCOs) has been carried out using DMol³ module based on the density functional theory (DFT). Three potential pathways of FFA esterification reaction are designed to achieve the formation of fatty acid methyl ester (FAME), and calculated results show that the energy barrier can be efficiently reduced from 88.597 kcal/mol to 15.318 kcal/mol by acid catalyst. The molar enthalpy changes (Δ_rH_m°) of designed pathways are negative, indicating that FFA esterification reaction is an exothermic process. The obtained favorable energy pathway is: H⁺ firstly activates FFA, then the intermediate combines with methanol to form a tetrahedral structure, and finally, producing FAME after removing a water molecule. The rate-determining step is the combination of the activated FFA with methanol, and the activation energy is about 11.513 kcal/mol at 298.15 K. Our results should provide basic and reliable theoretical data for further understanding the elimination mechanism of FFA over acid catalyst in the conversion of WCOs to biodiesel products.     

The effect of atmospheric plasma treatment of recycled carbon fiber at different plasma powers on recycled carbon fiber and its polypropylene composites

To increase the mechanical properties of recycled carbon fiber-reinforced polypropylene (PP) composites, recycled carbon fibers (RCF) were subjected to atmospheric plasma treatment at different plasma powers (100, 200, and 300 W). The changes on surface topography and roughness of RCF were examined by atomic force microscopy. Plasma treatment of RCF increased the roughness value of RCF. The variation of surface elemental compositions and tensile strength of RCF were determined by using X-ray photoelectron spectroscopy and tensile test, respectively. Plasma-treated RCF-reinforced PP composites were fabricated using high speed thermo-kinetic mixer. Plasma treatment of RCF at 100 W increased the tensile and flexural strength values of RCF-reinforced PP composites considerably by 17 and 11%, respectively. However, plasma treatment of RCF at higher plasma powers (200 W and 300 W) decreased tensile and flexural strength values of composites because of the etching of RCF. © 2018 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2019 , 136, 47131.     

Effect of straight vegetable oil blends and biodiesel blends on wear of mechanical fuel injection equipment of a constant speed diesel engine

Vegetable oils and biodiesel have emerged as strong alternative fuels worldwide. However use of new fuels in existing engines leads to issues such as wear of vital moving components, and fuel injection equipment (FIE). It is important to ensure that new alternative fuel does not affect the FIE adversely. In this experimental study, a non-firing engine FIE simulator test rig prototype was developed and 250 h endurance test of FIE was performed with an objective to ensure the long-term compatibility and durability of biofuel blends. The components of FIE such as plunger, nozzle needle, valve, and valve holder were investigated for wear. Test fuels used in this study were Karanja blends (K20, K5), Jatropha blends (J20, J5), Biodiesel blends (B20, B5) and baseline mineral diesel in a non-firing engine FIE simulator. The compatibility of FIE with test fuels in terms of dimensional loss, weight loss and surface texture variations using optical microscopy before and after the endurance test was compared. Biodiesel blends showed relatively lower wear compared to mineral diesel however SVO blends showed no definite trend of the wear results compared to baseline mineral diesel.     

Effect of recycled content and rPET quality on the properties of PET bottles,part II: Migration

Polyethylene terephthalate (PET) bottles were produced from three types of recycled PET (rPET) with four levels of recycled content. The migration of substances from these bottles to water was studied. Several migrated substances were detected. The migrated amounts of acetaldehyde and ethylene glycol complied with the limits given in the food contact material (FCM) legislation. Migration of 2-methyl-1,3-dioxolane was below the limit of 10 μg·L⁻¹, which is conventionally applied for non-intentionally added substances (NIAS) not classified as ‘carcinogenic’, ‘mutagenic’ or ‘toxic to reproduction’ (CMR). Limonene, acetone, butanone and furan were also detected as migrants, of which limonene is a natural fragrant, and the other three are probably residues from solvents used to clean and protect the mould at the small-scale production facility. Finally, benzene and styrene were also found as migrants from rPET. These migrants appear to originate from heat-induced reactions within the PET matrix, which involve contaminants. The formation of benzene in rPET is attributed to polyvinylchloride as contaminant. The migrated amounts of benzene from the PET bottles with recycled content to the water simulant are relatively small (0.03–0.44 μg·L⁻¹) after 10 days at 40°C. Consequently, the margin of exposure is 3.10⁵–8.10⁶. Hence, the level of concern for the public health is low, and the migrated amount represents a low priority for risk management. The FCM legislation demands a risk assessment for migrating NIAS. Depending on the underlying data and exposure scenario, different threshold limits in the food can be derived which can still be considered as safe.     

聚羧酸减水剂对再生石膏性能的影响

对比研究了聚羧酸减水剂(polycarboxylate superplasticizer,PCS)对原生与再生石膏性能的影响,并通过SEM、粒径分析对其作用机理进行分析。结果表明:PCS对再生石膏与原生石膏性能影响差异显著,相同掺量下,PCS对再生石膏具有更强的减水能力;随PCS掺量增加,原生石膏凝结时间延长,而再生石膏的凝结时间却呈先缩短后延长的趋势;原生石膏2h强度与干强分别在0.12%、0.15%掺量下达到峰值,之后强度降低;而随PCS掺量的增加,再生石膏强度不断增加,在掺量0.20%内,并无再生石膏最佳的PCS掺量。分析表明,再生石膏较大的比表面积和较小的粒径是导致PCS对其产生较好减水效果的主要因素,随PCS掺量的增加,再生石膏硬化体致密度增加、晶体搭接更紧密,因此其强度大幅提高。     

废弃混凝土资源化研究进展

废弃混凝土中砂石和水泥石颗粒回收用作再生骨料和再生水泥原料,是废弃混凝土有效资源化的基础.为了达到天然砂石骨料的性能,再生骨料需要经过颗粒整形、裂缝填充和去除黏附的水泥浆等物理化学强化处理.为了达到水泥原料的活性要求,废弃混凝土粉需要经加热和激发剂等活性激发.采用经强化和激发后的再生骨料和再生水泥可以拌制绿化混凝土、墙体砌块等混凝土再生品.综述了废弃混凝土在国内外建筑行业内的有效资源化途径,分析了资源化回用途径中关于再生骨料强化和再生水泥技术等存在的关键问题以及资源化研究的发展趋势.     

Impact of microfluidization or ultrasound processing on the antimicrobial activity against Escherichia coli of lemongrass oil-loaded nanoemulsions

The effect of the ultrasonication and microfluidization processing conditions on the antimicrobial activity of lemongrass oil–alginate nanoemulsions was studied. Sonication led to less effective nanoemulsions against Escherichia coli, being the loss of antimicrobial potential dependent on the amplitude and treatment time applied. Namely, nanoemulsions sonicated at 100 μm for 180 s almost completely lost their bactericidal action, leading to 0.3 log-reductions of E. coli population after 30 min of contact time. On the contrary, nanoemulsions processed by microfluidization exhibited an enhanced antimicrobial activity, which was proportional to the number of cycles through the microfluidization chamber. In fact, whereas the coarse emulsion reduced the E. coli population up to 0.66, 2.25 and 5.85 log-units after 5, 15 and 30 min of contact time, the microfluidized nanoemulsions (10 cycles, 150 MPa) achieved 1.37, 5.29 and 7.07 log-reductions. Therefore, nanoemulsions with an improved functionally could be obtained by microfluidization, whereas ultrasounds seem to have a deleterious impact on the antimicrobial activity of lemongrass essential oil.     

The Quality,Stability, and Bioactive Compound Composition of Virgin and Refined Organic Grape Seed Oil

Samples of virgin and refined organic grape seed oil were studied for their physicochemical quality, oxidative stability, and the bioactive compounds they contained. All of the samples were within the limits established by the Codex Alimentarius with regard to their quality parameters. Lutein, zeaxanthin, β‐carotene, α‐tocopherol, and catechin were the bioactive compounds analyzed, and the virgin oil afforded more significant results. No measurable amounts of zeaxanthin and β‐carotene were observed in the refined oil, most likely due to the refining process that was carried out at high temperatures. The oxidative stability index decreased with increasing temperature, whereas the air flow had no effect on the stability index. The optimal parameters for the oxidative stability are 80 °C and a flow rate of 15 L h^?1, and the virgin oil sample showed the best oxidative stability, possibly because it was not subjected to any treatment after extraction. The results from this study suggest that it would be preferable to consume virgin instead of refined grape oil because it is a better source of bioactive compounds and has a higher stability when heated.