Melting Intercalation Method to Prepare Lauric Acid/Organophilic Montmorillonite Shape-stabilized Phase Change Material

A kind of novel shape-stabilized phase change material （SSPCM） was prepared by using a melting intercalation technique. This kind of SSPCM was made of lauric acid （LA） as a phase change material and organophilic montmorillonite （OMMT） as a support material. And the thermal properties and morphology of the SSPCM were characterized by X-ray diffraction （XRD）, transmission electron microscope （TEM）, scanning electronic microscope （SEM）, scanning calorimeter （DSC）, and differential thermal cravimetry （TG）. The DSC result shows that the phase change temperature of the SSPCM is close to that of LA, and its latent heat is equivalent to that of the calculated value based on the mass ratio of LA measured by TG. The XRD, SEM and TEM results demonstrate that the LA intercalates into the silicate layers of the OMMT, thus forming a typically intercalted hybrid, which can restrict the molecular chain of the LA within the structure of OMMT at high temperature. And consequently SSPCM can keep its solid state during its solid-liquid phase change processing.

Studies on the Preparation and the Stability of SOD Modified by Lauric Acid

This paper reported that a way of preparing superoxide dismutase (SOD) modified by lauric acid (LA-SOD) and study on stability of LA-SOD. The results showed that LA-SOD had high specific activity, high stability and high rate of recovery. The stability of LA-SOD in temperature, pH and human gastric juice was much higher than that of natural SOD. Because LA-SOD is kept for a long time at room temperature, it can widen the applied range of SOD and bring out considerable benificial results both in society and economy.

Synthesis and characterization of γ-alumina nanospheres templated by lauric acid

A novel route for the synthesis of alumina nanospheres was reported by a surfactant-governed approach in the presence of lauric acid.The products were characterized using X-ray diffraction （XRD）,scanning electron microscope （SEM） and N2 adsorption-desorption techniques.The results show that the produced alumina nanospheres possess uniform nanosphere sizes ranging from 80 120 nm,and high surface area of 550 m2/g.It suggests that the synthesized alumina nanospheres are formed through self-assembly of surfactant/alumina species complex in 1-propanol system.

Corn cob modified by lauric acid and ethanediol for emulsified oil adsorption

Corn cob is a naturally renewable material with developed micropore and hydrophobic characteristics, which enables it to show good oil adsorption capacity. In order to improve oil adsorption capacity, corn cob was modified with lauric acid and ethanediol. The structure of raw and modified corn cob was investigated using Fourier transform infrared(FTIR) spectroscopy, scanning electron microscopy(SEM), Brunauer-Emmett-Teller(BET) method, thermogravimetric analysis(TGA) and Ze Ta potential analyzer. The effects of p H level, adsorption time, adsorbent dosage, and initial oil concentration on oil absorbency of corn cob were studied. The results indicate that the modification significantly improved the lipophilicity of corn cob, making the modified corn cob with much better adsorption capacity on oil absorbency. Compared with raw corn cob, the maximum saturated adsorption capacity of modified corn cob is 16.52 mg/g at p H 5, and the increasing percentage is found to be 141%, which indicates that the modification causes a better adsorption capacity for oil removal. In addition, due to high oil adsorption capacity, affordable price and low secondary pollution, the modified corn cob could be considered promising alternative for the traditional oil adsorbent to clean up the emulsified oily water.

Cu-Sn-P/stearic acid(lauric acid,BTA)化学镀层制备和性质研究

本文研究了在稳定剂存在的条件下,在钢铁表面制备了Cu-Sn-P多元合金化学镀层,讨论了镀液成分和沉积条件等对镀层性质的影响.采用了硬脂酸、月桂酸和苯并三氮唑对Cu-Sn-P镀层表面进行再处理,从而形成致密保护膜,得到Cu-Sn-P/stearic acid(lauric acid,BTA)镀层,并研究了其性能.

Influences of lauric acid addition on performance,nutrient digestibility and proteins related to mammary gland development in dairy cows

Lauric acid(LA)has the possibility to improve milk production in dairy cows by improving mammary gland development,however,the mechanism by which it might regulate mammary gland development is unclear.The influence of LA on milk production,nutrient digestibility and the expression of proteins related to mammary gland development in dairy cows were evaluated.Forty primiparous Holstein dairy cows were divided into 4 groups in a randomized block design.Four treatments included the control(0 g/d LA per cow),low-LA(100 g/d LA per cow),medium-LA(200 g/d LA per cow),and high-LA(300 g/d LA per cow).Yields of milk,fat-corrected milk,and energy-corrected milk quadratically increased(P<0.05),and yield and content of milk fat linearly increased(P<0.05)with LA supplementation.Percentages of C12:0,C18:1 and C20:1 fatty acids in milk fat linearly increased(P<0.05),but that of C16:0 fatty acid linearly decreased(P=0.046).Supplementation of LA led to a linear and quadratical increase(P<0.05)in digestibility of dry matter,organic matter,neutral detergent fibre and acid detergent fibre,and ruminal total volatile fatty acid concentration but a linear reduction(P=0.018)in the ratio of acetate to propionate.The enzymatic activities of ruminal pectinase,xylanase,andα-amylase,and populations of total bacteria and anaerobic fungi increased linearly(P<0.05),while populations of total protozoa and methanogens decreased linearly(P<0.05)with increased LA addition.Following LA addition,blood glucose,triglyceride,estradiol,prolactin,and insulin-like growth factor 1 concentrations increased linearly(P<0.05)and albumin and total protein concentrations increased quadratically(P<0.05).Moreover,addition of 200 g/d LA promoted(P<0.05)the expression of protein involved in mammary gland development and fatty acids synthesis.These results suggested that LA addition enhanced milk production and fatty acids synthesis by stimulating nutrient digestion,the expression of proteins associated with milk fat synthesis and mammary gland development.

Tribological properties of aqueous solutions with lauric acid random copolyether (LPE) added

This work presents the results of tribological investigations of lubricating substances composed of water and a nonionic surfactant:lauric acid random copolyether(LPE),as additive.At the current stage of investigation,aqueous solutions with LPE additives are prepared and subsequently the lowering friction and reducing wear behaviors are tested by means of friction/wear tester,in conjunction with that the film forming properties experiments are carried out with a nanoscale film thickness measure apparatus.The contact is under condition of steel-steel tribo-pair.The results show that the coefficient of friction measured decreases considerably to about over 60%relative to water.The film thickness data of friction process lubricated by aqueous solutions with LPE added show that the lubrication is in boundary lubrication regime.The results indicate that aqueous solutions with LPE added can be used to improve the lubricity and they may be applied to real tribological systems.

银杏脱支淀粉-月桂酸复合物的结构及发酵特性

将提取的银杏淀粉用普鲁兰酶进行脱支,得到银杏脱支淀粉。而后将银杏脱支淀粉与月桂酸(lauric acid,LA)复合得到银杏脱支淀粉-月桂酸复合物(ginkgo starch-lauric acid complex,GSL)。采用扫描电子显微镜、分子对接、傅里叶变换红外光谱、X-射线衍射对GSL的结构进行表征,研究发现GSL扫描电子显微镜观察结果为不规则块状结构,且表面呈致密的层状结构;分子对接结果表明月桂酸可通过氢键和疏水作用进入右旋单螺旋淀粉的螺旋腔;短程有序性和长程有序性均有所增强,结晶度提高,内部结构更加致密。体外消化结果表明GSL的消化率降低约20%,抗酶解能力的提高可能是由于抗性淀粉含量显著升高,快速消化淀粉含量显著降低。肠道菌群的发酵处理,发现GSL的pH值明显降低,且产生的短链脂肪酸显著增加。综上,银杏脱支淀粉-月桂酸复合物的低消化和益生元特性,使其有望成为淀粉基新型营养食品的重要来源。

ZrOCl_2·8H_2O: An Efficient and Cheap Catalyst for Esterification of Free Fatty Acids to Methyl Esters

The esterification of lauric acid with methanol could be efficiently catalyzed by ZrOCl2·8H2O, and this reaction was studied to develop a green method for biodiesel production. The influencing factors, such as amount of catalyst, reaction time and molar ratio of acid to methanol, were investigated. The results indicated that the ZrOCl2·8H2O catalyst showed high catalytic activity, and gave a 97.0% methyl laurate conversion rate under the following optimized conditions, viz.: a lauric acid/methanol molar ratio of 1:10, a catalyst dosage of 4%, and a reaction duration of 2 h at methanol refluxing temperature. The catalyst could be easily recovered while its activity could be well retained after three cycles. The ZrOCl2·8H2O catalyst also exhibited excellent catalytic activity for the esterification of different free long-chain fatty acids(including nonedible oils with high acid value) with different short carbon chain alcohols. Therefore, the ZrOCl2·8H2O catalyst has good potential for the synthesis of biodiesel from low-cost feedstocks such as waste vegetable oils and non-edible oils.

An Experimental Study on Thermal Characteristics of Laurie Acid as a Latent Heat Storage Material during Melting Process

The objective of this study was to establish the thermal characteristics of the lauric acid (95% purity) as a latent heat storage material filled in the annulus of vertical concentric double pipe during its melting process,The temperature data were used to determine the thermal characteristics,including the temporal temperature variations and the effects of the mass flow rate and the inlet temperature of the heat transfer fluid on the heat transfer coefficient and the heat charging fraction during the melting process,The results indicated that the time to reach to heat charging fraction of 1.0 could be altered by changing the mass flow rate and the inlet temperature of the heat transfer fluid.

月桂酸替代金霉素对肉鸡腿肌肉品质和抗氧化功能的影响

本实验旨在研究月桂酸(lauricacid,LA)对肉鸡肌肉品质、常规营养成分和抗氧化性能的调控作用。实验选用480只1日龄AA肉仔鸡,随机分为4组,每组8个重复,每个重复15只鸡,分别饲喂基础饲粮(对照组)和基础饲粮分别添加75 mg/kg金霉素(抗生素组)、500 mg/kg月桂酸(月桂酸低剂量组;LA500)、1000 mg/kg月桂酸(月桂酸高剂量组;LA1000)的实验饲粮,实验期为42 d。结果表明:与对照组相比,饲粮添加500 mg/kg月桂酸提高了肉鸡腿肌24 h的pH、黄度(b^(*))值和粗脂肪含量,增加了过氧化氢酶(CAT)的活力(P<0.05),上调了SOD2、CAT、GPX1、Nrf2、HO-1的基因表达量(P<0.05),降低了24 h和48 h的滴水损失(P<0.05),饲粮添加1000 mg/kg月桂酸提高了肉鸡腿肌24 h的pH、红度(a^(*))值、黄度(b^(*))值、粗脂肪含量(P<0.05),增加了总抗氧化能力(T-AOC)、总超氧化物歧化酶(SOD)、CAT的活力(P<0.05),上调了SOD1、SOD2、CAT、GPX1、Nrf2、HO-1的基因表达量(P<0.05),降低了24 h的亮度(L^(*))值、滴水损失、48 h的滴水损失和丙二醛(MDA)的含量(P<0.05);与抗生素组相比,添加500 mg/kg月桂酸的饲粮提高了肉鸡腿肌CAT的含量,降低了肉鸡腿肌24 h的滴水损失、MDA的含量(P<0.05),饲粮添加1000 mg/kg月桂酸提高了肉鸡腿肌CAT的含量,降低了肉鸡腿肌24、48 h的滴水损失和MDA的含量(P<0.05)。月桂酸能够改善肉鸡肌肉品质和抗氧化能力,激活Nrf2信号通路相关基因的表达,且效果优于抗生素,饲粮添加1000 mg/kg月桂酸更佳。

日粮中添加月桂酸对肥育猪胴体品质和肉品质的影响

试验旨在探究日粮中添加月桂酸对肥育猪胴体性状和肉品质的影响。选取体重为73.74±2.48 kg的杜×长×大三元杂交猪144头,公母各半,根据初始体重按照随机区组原则分为4个处理,每个处理6个重复,每个重复6头猪。对照组(0.00%月桂酸组)饲喂玉米-豆粕型基础日粮,试验组分别饲喂在基础日粮中添加0.25%、0.50%、1.00%月桂酸的试验日粮,月桂酸和豆油进行等能值替换,保证各组日粮总能相等,试验期为34 d。试验结束时,每个处理选取体重接近同性别平均体重的8头阉公猪屠宰,采集组织样品并测定胴体性状和肉品质。结果表明:随着日粮月桂酸水平的升高,肥育猪的末重(P<0.01)、平均日增重(ADG)和血清瘦素浓度(P=0.04)线性增加,甘油三酯(TG)水平呈二次升高的趋势(P=0.09),高密度脂蛋白胆固醇(HDL-C)水平呈线性升高的趋势(P=0.08);日粮中月桂酸水平的提高显著改变了肥育猪背最长肌中的脂肪酸组成(P<0.05);肥育猪的活体重、热胴体重、胴体长和腰荐结合处背膘厚也随日粮中月桂酸水平的提高呈线性增加(P<0.01),同样地,背最长肌pH24 h线性升高(P=0.02),L*24 h则线性降低(P=0.01)。总之,日粮中添加月桂酸提高了肥育猪的生长性能,显著改变了肌肉的脂肪酸组成,具有改善肥育猪胴体性状、肉品质以及调节脂质代谢和改善肉风味的潜在作用。

月桂酸淀粉酯Pickering乳液的制备及负载姜黄素

以大米淀粉为原料,月桂酸(lauric acid,LA)为酯化剂,通过微波辅助合成月桂酸淀粉酯(lauric acid starch ester,LAS),并对LAS的理化性质进行表征。以LAS颗粒为乳化剂制备Pickering乳液,研究乳液的乳化稳定性。以姜黄素为模型功能物质,研究LAS制备的乳液对姜黄素的负载以及姜黄素Pickering乳液的抗氧化特性和体外消化特性。结果表明:取代度不同,LAS粒径不同,LAS的三相接触角接近90°,表现出比原淀粉更强的疏水性。Pickering乳液稳定性试验结果表明,LAS可形成稳定的Pickering乳液,15 d后仍保持较好的稳定性。制备姜黄素Pickering乳液,姜黄素包埋率达68.00%,DPPH自由基和ABTS+自由基清除率均随着乳液添加量的增加而增加,表明乳液抗氧化性提高。体外消化试验表明,LAS制备的Pickering乳液在胃肠液中均会缓慢释放姜黄素。

二元低共熔脂肪酸相变微胶囊的设计与工艺优化

单一脂肪酸的相变温度普遍较高且易泄漏,不能满足其作为相变材料对夏季建筑空调能耗调节的需求。本工作基于真实溶剂类导体屏蔽模型(conductor-like screening model for real solvents,COSMO-RS),采用COSMOthermX软件对7种中链脂肪酸和10种长链脂肪酸两两组合的136种二元低共熔脂肪酸进行设计计算,筛选预测其共熔温度与摩尔比。进而将最优组合作为芯材,三聚氰胺-尿素-甲醛树脂(MUF)为壁材,通过原位聚合法制备相变微胶囊,系统地探讨不同工艺条件(芯壁比、反应温度、反应时间和反应转速等)对该微胶囊热物理性能的影响。结果表明:COSMO-RS模型可以直观地判断材料氢键供体(hydrogen bond donor,HBD)与受体(hydrogen bond acceptor,HBA)之间的关系,最优组合月桂酸(lauric acid,LA)与肉豆蔻酸(myristic acid,MA)摩尔比为0.66∶0.34的LA-MA(LM)理论共熔温度(33.25℃)与实验结果(33.1℃)相似度达98.08%;在芯壁比2∶1、反应时间3 h、反应温度80℃、搅拌转速200 r/min的条件下,MUF对芯材LM的包覆效率为61.37%,较好地解决了泄漏问题,对降低建筑空调制冷能耗具有潜在的应用价值。

硅烷偶联剂/月桂酸复合改性白炭黑对溶聚丁苯橡胶复合材料性能的影响

使用硅烷偶联剂-氨丙基三乙氧硅烷(APTES)和月桂酸(LA)对白炭黑进行了复合改性,制备了复合改性白炭黑/溶聚丁苯橡胶(SSBR)复合材料,研究了APTES和LA复合改性白炭黑对复合材料硫化特性、力学性能、抗湿滑性能和滚动阻力的影响。结果表明,经复合改性后,白炭黑在30~200℃之间的失重降低54%,团聚现象明显改善;复合改性白炭黑/SSBR复合材料的工艺正硫化时间为20.45min,拉伸强度达到18.8MPa,0℃和60℃的损耗因子分别为0.6788和0.1003。

双位点磺酸功能化离子液体催化合成生物柴油

基于1,2-双(二苯基膦)乙烷,采用两步法合成了一种双位点磺酸功能化季鏻盐离子液体([DPPE-PS][p-TSA]),并用于催化月桂酸和乙醇反应制备生物柴油。采用单因素实验法对反应条件进行了优化,并考察了不同反应条件对月桂酸转化率的影响规律。实验结果表明,在反应温度为80℃、催化剂用量为4.0wt%(基于月桂酸质量)、醇/酸比为8∶1、反应时间为4h的最佳实验条件下,月桂酸转化率可高达94.7%,并且[DPPE-PS][p-TSA]离子液体经过5次重复使用后,催化活性未出现明显降低。

MA/HA二元相变保温材料制备及节能效果模拟研究

为促进建筑节能,以肉豆蔻酸(MA)和碳十六酸(HA)制备二元相变材料,以膨胀珍珠岩作为吸附载体,制备一种保温材料,研究其性能。并结合建筑信息模型(BIM)节能模拟,研究该保温材料节能效果。结果表明,当MA和HA质量配比为70∶30,且保温材料中MA-HA二元相变材料质量分数为70%时,保温材料综合性能最佳。此时,MA-HA二元相变材料导热系数为0.254 W/(m·K),熔化温度和熔化潜热分别是35.64℃、123.48 J/g,凝固温度和凝固潜热分别是30.98℃、112.54 J/g。在经过1000次吸放热相变循环后,相变温度变化率不超过5%,相变潜热变化率不超过8%。BIM节能模拟表明,在使用保温材料后,建筑外围护结构能耗降幅超过30%。

LA-SA\MMA相变微胶囊的制备及其性能研究

通过原位聚合法,制备了以甲基丙烯酸甲酯为壁材,月桂酸、硬脂酸共熔物为芯材的相变微胶囊LASA\MMA相变微胶囊。利用SEM扫描电镜、差示扫描量热仪、马尔文粒径分析仪、傅里叶红外光谱分析仪和TG热重分析仪观察并检测不同芯壁比的微胶囊,结果显示:芯壁比为4:5微胶囊呈圆球状、表面光滑平整,但是略微存在团聚粘着现象。囊壁对芯材起到了一定的保护作用,有效地提高微胶囊的热稳定性。微胶囊耐久性十分优异,可以多次重复使用。然后,使用干法涂层技术把不同质量分数的相变微胶囊涂覆到SMS织物上,产生相变温控织物。通过热成像,讨论经过相变微胶囊涂层整理后的织物,其蓄热控温性能是否受到影响。结果显示:经过涂层整理后的织物,其降温速率下降变慢,能够应对外界环境温度的变化。

月桂酸咪唑啉季铵盐及其复合缓蚀剂的缓蚀性能

以月桂酸、二乙烯三胺和氯化苄为原料,合成了月桂酸咪唑啉季铵盐缓蚀剂,并对产品进行了红外表征。在CO_(2)浓度为500 mg/L的模拟矿井水中,腐蚀温度为50℃,缓蚀剂总使用浓度为60 mg/L的条件下对月桂酸咪唑啉季铵盐及复配缓蚀剂进行电化学缓蚀性能测试。静态腐蚀失重测试结果表明,在二元复配缓蚀剂中,月桂酸咪唑啉季铵盐缓蚀剂与二氧化硫脲具有更好的协同效应,在质量比为1∶2时,缓蚀率达到了85.30%。交流阻抗测试结果表明,在二元复配缓蚀剂中,月桂酸咪唑啉季铵盐缓蚀剂与二氧化硫脲具有更好的协同效应,在质量比为1∶2时,缓蚀率达到了86.68%。极化曲线测试结果表明,月桂酸咪唑啉季铵盐与二氧化硫脲复配的缓蚀剂是以抑制阴极为主的混合型缓蚀剂;其他配方均是以抑制阳极为主的混合型缓蚀剂。由极化曲线参数计算的缓蚀率与阻抗测试的结果基本一致。

基于酶催化合成单甘油酯工艺优化及抑菌活性研究

以月桂酸和甘油为原料,叔丁醇为介质,采用脂肪酶催化合成了月桂酸单甘油酯(GML),采用单因素试验验证了GML的较佳合成工艺,并研究了GML对大肠杆菌的抑制效果,结果表明,叔丁醇与甘油的质量比为1.5∶1,脂肪酶用量为12%,反应温度70℃,甘油和月桂酸的摩尔比为3∶1,反应时间为1.5 h为较优条件。抑菌测试表明GML对大肠杆菌有着显著的抑制作用,抑菌效果随GML质量浓度增大而增强,GML质量浓度达到16 mg/mL时抑菌圈直径不再增大,在pH=5.7的弱酸环境下的抑菌效果和抑菌率的半衰期均强于pH=7.2的中性条件,72 h时pH=5.7的环境下GML对大肠杆菌的抑菌率依旧能够保持在3.9%。