共查询到19条相似文献,搜索用时 140 毫秒
1.
废鸡油脂制取生物柴油试验研究 总被引:3,自引:0,他引:3
生物柴油作为一种绿色清洁替代型燃料,受到科研和产业界的广泛重视,原料油脂的廉价稳定供应是生物柴油产业化的关键.该文对来源于鸡肉制品加工的废鸡油作为生物柴油原料的潜力进行了探索,在NaOH催化剂作用下,通过与甲醇转酯化反应制备生物柴油.试验考察了醇油摩尔比、NaOH用量、反应温度、反应时间等因素对油脂转化率的影响,并对制备的生物柴油样品进行了燃料指标分析.结果表明,炼制鸡油较为适宜的转酯化反应条件为反应温度50℃、醇油摩尔比9:1、NaOH用量1.3%、反应时间90~120 min,获得油脂转化率约90%.试验生物柴油样品多项理化指标能够满足EN14214生物柴油标准及国内O#柴油标准. 相似文献
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以菊芋粉为原料同步糖化发酵生产燃料乙醇 总被引:3,自引:1,他引:3
利用粟酒裂殖酵母(Schizosaccharomyces pombe)能发酵菊芋未水解糖液高产乙醇的特点提出了以菊芋粉为原料,同步糖化发酵生产燃料乙醇的新工艺。在摇瓶中考察了原料预处理方法、原料浓度和初始pH值对乙醇发酵的影响,进而在5 L发酵罐中考察了未调控pH值和恒定pH值与通气情况对乙醇发酵的影响。结果表明:该菌株最适pH值为4.0;100目筛分的菊芋粉发酵效果良好,115℃灭菌处理优于121℃,在此条件下,菊芋粉浓度200 g/L时,乙醇产量达到66.58 g/L,理论转化率为85.88%;发酵液pH值下降对乙醇发酵没有影响,通入适量氧气会导致乙醇产量的下降,这表明粟酒裂殖酵母进行乙醇发酵时不需要供氧;通入氮气保持厌氧环境不能显著提高乙醇产量,不通气进行乙醇发酵也达到高的转化率,因此在工业生产中,不必保持厌氧发酵环境。在此基础上,对菊芋粉补料发酵进行了试验,补料至菊芋粉终浓度为300 g/L,发酵终点乙醇浓度为94.81 g/L,理论转化率为81.54%。这些研究工作,为以菊芋为原料的燃料乙醇工业化生产提供技术依据。 相似文献
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淀粉基聚酯型耐水性木材胶粘剂(英) 总被引:6,自引:3,他引:3
从高光效的谷物作物玉米中很容易分离出的淀粉适合作为绿色化学工业的可再牛原料.该文介绍一种聚酯型耐水性无甲醛玉米淀粉基木材胶粘剂制作工艺.该工艺包括了4个步骤:1)玉米淀粉硫酸固相氧化制备氧化淀粉;2)氧化淀粉常压快速液化制备高反应活性淀粉基多元醇;3)高活性淀粉基多元醇与等当鼍多兀酸(酸酐)混合和部分酯化交联;4)经过预酯化的产物用无水乙醇稀释使之成为可喷雾施胶的聚酯型木材胶粘剂.使用该新型木材胶粘剂所制备的杨木胶合板的胶合强度和耐水性能可以达到国标Ⅰ类板的要求.该文报道了硫酸的质量分数、氧化反应温度和时间;液化剂与氧化淀粉质量比、液化反应温度和时间、交联剂的羧基与多元醇羟基的当量比等加工工艺参数以及施胶量、热压温度、压力、热压时间等使用技术参数对用该种聚酯型木材胶粘剂制备的杨木胶合板的胶合强度和耐水性的影响. 相似文献
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为提高甘薯淀粉加工副产物的高值化利用水平,本试验以植物乳杆菌(Lp)、干酪乳杆菌(Lc)、保加利亚乳杆菌(Lb)、戊糖片球菌(Pp)、嗜热链球菌(St)、商业植物乳杆菌(SZ)6种乳酸菌分别对甘薯渣进行发酵,系统分析不同发酵产物的pH值、总酸含量及营养功能成分,并采用灰色理论加权关联度对甘薯渣发酵产物进行综合营养评价,筛选适宜发酵甘薯渣的乳酸菌菌种。结果表明,6种乳酸菌的发酵能力存在显著差异,其中Lb组pH值最低(3.15),Lc组总酸含量最高(27.90);同时,不同乳酸菌对发酵产物中营养功能成分的影响存在显著差异,其中Lb组乳酸含量最高(11.60 mg·mL-1),SZ组乙酸含量最高(66.99μg·mL-1),Lb组可溶性膳食纤维含量最高(0.74 g·100 mL-1),St组总酚含量最高(146.87μg GAE·mL-1)。与未发酵样品相比,Lc组游离氨基酸总量提高了3.71倍;所有发酵产物中的Mg、Ca、Fe、Zn、Se等矿物质元素含量均显著提高。进一步通过灰色理论加权关联度分析发现... 相似文献
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设施土壤中三唑酮降解动力学研究 总被引:1,自引:0,他引:1
经25℃下培养1个月,采用GC/MS定量监测设施土壤和无菌土壤中三唑酮和降解产物三唑醇的含量变化。结果表明设施土壤中三唑酮的降解符合热力学方程,半衰期为15.2 d,无菌土壤处理后三唑酮的半衰期为39.4 d。土壤中降解产物三唑醇有立体选择体,在设施土壤中三唑醇的对映体选择值(EF)为4,无菌土壤中三唑醇的EF值为2。三唑醇的降解符合一元三次方程,设施土壤中三唑醇在第7 d达到最高点后含量逐步降低,无菌处理土壤中三唑醇含量最高点出现在第14 d。 相似文献
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试验以一种酿酒葡萄为原料,利用顶空固相微萃取/气相色谱-质谱联用技术(HS-SPME/GC-MS)检测了不同可同化氮含量(200、300、400 mg/L)、酵母多糖(150、250、350 mg/L)、发酵温度(14、18、22℃)、初始pH值(3.3、3.5、3.7)和SO2添加量(40、70、100 mg/L)处理发酵酒样中的挥发性香气化合物,探讨了复合酿造因子对贵人香干白葡萄酒主要香气物质含量的影响关系。结果表明,300 mg/L的可同化氮有利于高级醇、酯类、单萜化合物的积累;酵母多糖添加量为250 mg/L时,单萜化合物质量分数达到最大值(198.54μg/L);发酵温度从14℃升高到22℃时,高级醇含量显著升高,酯类和单萜含量显著降低;提高葡萄汁初始pH有利于单萜化合物的积累,不利于高级醇、酯类的生成;添加70 mg/L的SO2时,单萜化合物质量分数最高(181.73μg/L)。正交试验极差分析表明,发酵温度和SO2添加量对高级醇含量影响较大;发酵温度与可同化氮对酯类香气物质含量的影响较大,酵母多糖和pH值对单萜类香气物质含量影响较大。各处理组间的聚类分析可知,可同化氮和酵母多糖对主要香气化合物的影响关联度较高、葡萄汁初始pH值和SO2添加量关联度较高。较低的发酵温度有利于酒样中香叶醇、异戊醇、苯乙醇、辛酸乙酯的生成,添加中等浓度的可同化氮和酵母多糖可促进乙酸异戊酯、乙酸己酯和己酸乙酯的合成,较高的初始pH值有利于芳樟醇、香茅醇和香叶醇的积累。综合分析,发酵温度18℃、初始pH值3.5、70 mg/L SO2、300 mg/L可同化氮、250 mg/L酵母多糖酿造贵人香干白葡萄酒,可有效促进酒样中主要香气化合物的合成释放。 相似文献
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废弃食用油脂两相厌氧发酵酸化条件优化 总被引:2,自引:1,他引:2
油脂的水解和长链脂肪酸的降解是油脂厌氧发酵过程中的限速步骤,提高水解酸化阶段挥发性脂肪酸(volatile fatty acid,VFA)的产率,有助于后续甲烷化反应的进行。利用响应面方法(response surface methodology,RSM)对废弃食用油脂两相厌氧发酵水解产挥发酸条件进行优化,考察了初始p H值、原料负荷、反应时间和接种量对产生挥发酸浓度的影响,提出采用该工艺的数学模型及优化后的工艺参数。结果表明,各影响因子对挥发酸的影响顺序为:接种量反应时间原料负荷初始p H值,方程的F值为15.65,相关系数为0.9359,调整相关系数为0.8761,说明数学模型可以较好地模拟真实的反应曲面。优化得到最佳的工艺参数为初始p H值6.2、负荷300 g/L、反应时间8 d、接种量40%,在该条件下,实际产挥发酸7 221.0 mg/L,与预测值7 224.0 mg/L吻合且重现性较好。厌氧产甲烷试验表明,酸化后废弃油脂较未酸化油脂在甲烷产量、甲烷含量、总化学需氧量(chemical oxygen demand,COD)去除率及挥发性固体(volatile solid,VS)去除率方面分别提高了44%、11%、28%和51%,经酸化处理比未酸化油脂的厌氧发酵时间(完成一个厌氧发酵周期内总产气量的80%的时间)缩短了28%。该研究结果为废弃食用油脂的两相厌氧发酵中试提供了参考。 相似文献
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以马铃薯为辅料的黄酒发酵条件优化 总被引:2,自引:1,他引:2
采用响应面方法对以马铃薯为辅料的黄酒发酵条件进行了优化。通过单因素试验、正交试验及中心组合试验优化得到以马铃薯为辅料酿造黄酒的最佳发酵条件为:酵母添加量0.114%(原料量的0.114%)、主发酵温度28℃、麦曲添加量14.0%(原料量的14.0%)、料水比1∶0.7、每100 g原料添加425μL糖化酶、发酵初始pH值4.0。在优化得到的发酵条件下酿造得到的以马铃薯为辅料的成品黄酒,其酒精度、酸度、色、香、味等各项理化指标和感官指标均符合国家黄酒标准GB/T 13662-2000,成品酒的感官品质得到了改善,且所含游离氨基酸含量为7063.4 mg/L,是普通黄酒游离氨基酸含量的1.2~2.5倍。 相似文献
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前期工作构建了苹果酸转运蛋白基因过表达的卷枝毛霉重组菌株Mc-MT-2,该菌株的脂质含量大幅度提高。该研究从培养基成分筛选、微生物生长控制以及发酵模式等方面深入探讨Mc-MT-2菌株发酵产油脂的调控策略。结果表明,Mc-MT-2菌株最佳生长及产孢培养条件是以葡萄糖与苹果酸为复合碳源且复合配比为9∶1,氮源为胰蛋白胨,其他成分同Kendrick培养基,初始pH值为5。经分批培养获得生物量、脂质含量和脂质产量分别为11.2 g/L,24%和2.6 g/L。在3 L发酵罐扩大培养中,补料培养Mc-MT-2菌株获得生物量、脂质含量和脂质产量最大值为15.4 g/L、28.6%和4.4 g/L,比分批培养分别提高1.38、1.19和1.69倍。该研究为卷枝毛霉重组菌株Mc-MT-2在脂质生产中的进一步应用奠定理论基础。 相似文献
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Selected sugars (fructose, sucrose, or raffinose) and polyhydric alcohols (sorbitol or mannitol) were equilibrated directly with bulk fish oil (10% by weight, excess) and exposed to fluorescent lighting (2550 Lx) for 24 h at 5 degrees C. Data for room temperature-equilibrated samples revealed that polyols functioned as antioxidants in fish oil. Increased times and temperatures of equilibration (to 90-110 degrees C, 1-2 mmHg, to 2 h) greatly enhanced the antioxidant activity of polyols in fish oil exposed to light. Under accelerated oxidation conditions (60 degrees C) in the dark, dispersed sorbitol in bulk fish oil greatly suppressed the peroxide value, primarily by chelating transition metals, while fructose showed a limited antioxidant activity. Sugars with a lower molecular weight and smaller numbers of equatorial OH groups exhibited a higher rate of permeation of sugars into fish oil triacylglycerols and hence rendered greater antioxidant activities. The treatment of bulk fish oils with polyols and then using the oils in the preparation of emulsions greatly reduced their antioxidant activities as compared to those observed for treated bulk oils. The introduction of polyols dissolved in propylene glycol into bulk fish oils at 90 degrees C (0.025% polyol, 0.25 h of equilibration) provided a similar antioxidant activity to that imparted by the introduction of polyols into the oil by equilibrating excess polyols (10% by weight) with them at 90-110 degrees C for 2 h. However, regardless of the method of the introduction of polyols to bulk fish oil, an elevated temperature (90 degrees C) exposure during fish oil treatment was required to induce a notable antioxidant activity. 相似文献
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生物油酯化-加氢提质制备醇酯类燃料 总被引:1,自引:1,他引:0
作为清洁可再生的化石燃料取代燃料,生物油的酸性及不稳定性是阻碍其规模化应用的主要障碍之一。该文基于生物油高酮、醛及酸类含量,研究了生物油轻质组分分步酯化加氢(SHE,separated esterification and hydrogenation)、一步酯化加氢(OEH,one step esterification-hydrogenation)及一步酯化加氢后二次加氢(OEH plus,one step esterification-hydrogenation plus second hydrogenation process)的提质过程,考察了钼改性雷尼镍催化剂(Mo-RN,Mo-Raney Ni)及Ru/C催化剂催化生物油制备醇类燃料的重复使用性能,并研究了酯化-加氢反应过程及反应路径。结果表明,生物油经不同酯化-加氢方法处理后,饱和醇酯含量均显著提高,生物油品质得到改善。其中以OEH plus提质处理后的生物油产物中,饱和醇、酯含量最高,分别达74.21%和9.96%。此外,提质后的生物油p H值及酸量下降最为显著,生物油的p H值由反应前的3.67提高到5.88,酸量由111.52 mg/g降至11.75 mg/g。Mo-RN及Ru/C催化剂在酯化-加氢路径下的重复使用性能良好,催化活性均无明显降低。试验证明利用酯化-加氢提质生物油为生物油精制制备含氧燃料提供有效途径。 相似文献
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F Y Iskander 《Journal of the Association of Official Analytical Chemists》1989,72(3):498-500
A new microanalytical method has been developed to measure iodine value (IV) of oils and fats. Bromine vapor was used to saturate the ethylenic double bonds, and reacted bromine was determined by instrumental neutron activation analysis. The method was applied to measure the iodine values of 7 commercially available vegetable oils: almond oil, sunflower oil, peanut oil, soy oil, sesame oil, corn oil, and olive oil. No significant difference was observed between the iodine value determined by the proposed method and that determined by an officially approved (Hübl) method. Bromine measurements can be performed up to 150 days after bromination with no significant variation in iodine value; thus, availability of an irradiation facility on the premises is not a limitation. No corrosive and toxic reagents are required, and the method is faster than the official methods. The method is also applicable to measuring iodine values of free or esterified fatty acids. 相似文献
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Garti N Yaghmur A Leser ME Clement V Watzke HJ 《Journal of agricultural and food chemistry》2001,49(5):2552-2562
Microemulsions based on five-component mixtures for food applications and improved oil solubilization have been studied. The compositions included water, oil phase [such as R(+)-limonene and medium-chain triglycerides (MCT)], short-chain alcohols (such as ethanol), polyols (propylene glycol and glycerol), and several surfactants and their corresponding mixtures (nonionic, such as ethoxylated sorbitan esters, polyglycerol esters, sugar ester, and anionic, such as phosphatidylcholine). The phase behavior of these systems is discussed with respect to the influence of polyols and short-chain alcohols on the degree of solubilization of oils in the aqueous phase. The alcohol and polyols modify the interfacial spontaneous curvature and the flexibility of the surfactant film, enhancing the oil solubilization capacity of the microemulsions. The solubilization of R(+)-limonene was dramatically improved in the presence of the alcohol and polyols, whereas the improvement of solubilization for triglycerides containing MCT was less pronounced. In some systems high oil solubilization was achieved, and some of them can be easily diluted to infinity both with the aqueous phase and with the oil phase. Viscosity measurements along selected dilution lines [characterized by a single continuous microemulsion region starting from a pseudo binary solution (surfactant/oil phase) to the microemulsion (water/polyol corner)] indicate that at a certain composition the system inverts from a W/O to an O/W microemulsion. 相似文献
15.
玉米秸秆液化制备生物高聚物材料的研究(英) 总被引:1,自引:0,他引:1
该研究旨在探讨低温生物质液化技术及液化产物应用的可能性。以玉米秸秆为原料在酸性、常压条件下快速液化成多羟基化合物,再以多羟基化合物为原料合成一系列的聚合材料。采用不同的有机溶剂,在稀硫酸的催化作用下,对不同的温度下生物质的液化效果进行研究。同时探讨了液化有机溶剂同生物质物料的混合比率对液化过程的影响。试验表明,碳酸乙烯酯比乙烯醇具有较高的液化率。优化试验结果表明,在较佳的液化效果下, 有机溶剂同玉米秆的混合比率为3∶1,反应温度160℃,稀硫酸浓度3%,反应时间2.5 h。液化产物经稀释、调节pH值、过滤、臭氧氧化一系列过程的处理后得到具有高活性多羟基聚合物。阐述了以多羟基聚合物制备各种生物聚合物材料如聚酯薄膜、聚胺酯泡沫和颗粒板的方法。聚酯薄膜是多羟基化合物上的羟基和多元酸上的羧基通过酯化反应形成的;聚胺酯泡沫通过多羟基化合物上的羟基和二异氰酸酯反应形成。研究表明以多羟基化合物和多元酸(酐)形成的聚酯型胶粘剂适合于制造颗粒板。 相似文献
16.
Soybean oil with an iodine value of 136 was hydrogenated to have iodine values of 126 and 117. The soybean oils with iodine values of 136, 126, and 117 were randomly interesterified using sodium methoxide. The oxidative stabilities of the hydrogenated and/or interesterified soybean oils were evaluated by measuring the headspace oxygen content by gas chromatography, and the induction time was measured using Rancimat. The melting points of the oils were evaluated by differential scanning calorimetry. Duncan's multiple range test of the headspace oxygen and induction time showed that hydrogenation increased the headspace oxygen content and induction time at alpha = 0.05. Interesterification decreased the headspace oxygen and the induction time for the soybean oils with iodine values of 136, 126, and 117 at alpha = 0.05. Hydrogenation increased the melting points as the iodine value decreased from 136 and 126 to 117 at alpha = 0.05. The random interesterification increased the melting points of soybean oils with iodine values of 136, 126, and 117 at alpha = 0.05. The combined effects of hydrogenation and interesterification increased the oxidative stability of soybean oil at alpha = 0.05 and the melting point at alpha = 0.01. The optimum combination of hydrogenation and random interesterification can improve the oxidative stability and increase the melting point to expand the application of soybean oil in foods. 相似文献
17.
Efficiency of oil extraction from corn germ was improved by the extrusion pretreatment, and residual oil was taken as the index of this oil extraction process. An orthogonal rotation combination test design of five levels and four factors, consisting of the moisture of material, screw speed, barrel temperature, and die nozzle diameter, was employed to optimize the model and reaction condition. The optimum parameters of extrusion were as follows: moisture of material, W = 12%; extrusion temperature, T = 105°C; screw speed, n = 185 rpm; die nozzle diameter, Φ = 9 mm × 3. Under these optimum conditions, residual oil of this process was 0.61–0.66%, which was lower than residual oil by pressing alone (residual oil of 5–6%) or by a combination of prepressing and hexane extraction (residual oil of nearly 2%). The corn oil obtained by the optimum extrusion parameters was analyzed, and iodine value, acid value, peroxide value, and saponification value were 1,250 g/kg, 400 mg/kg, 5.1 mmol/kg, and 189%, respectively. 相似文献
18.
耦合浮珠-超声辅助溶剂萃取法用于微藻采收及油脂提取 总被引:1,自引:1,他引:0
为了优化微藻生物柴油生产工艺,开发高效低耗的微藻采收与油脂提取技术,该研究使用优化浮珠浮选工艺对小球藻进行采收,随后选取小球藻-表面层状聚合物浮珠聚集体进行破壁提油处理,并通过响应面优化破壁工艺,建立一种新型耦合浮珠-超声辅助溶剂萃取工艺。结果表明,在超声时间为13 min,正己烷:异丙醇体积比例为4,微藻质量浓度为13.6 g/L,超声功率为254 W时,油脂提取效率较高,为18.91%。相比传统气浮法与超声辅助溶剂萃取法,该法采收效率、细胞破壁效率和饱和脂肪酸含量都达到了较高水平,分别为98.36%、90.19%和37.03%。因此,耦合浮珠-超声辅助溶剂萃取工艺是一种有效提取小球藻细胞中油脂的工艺。研究结果为微藻生物柴油制备工艺的发展提供科学依据。 相似文献
19.
Structured lipid (SL) was prepared from roasted sesame oil and caprylic acid (CA) by Rhizomucor miehei lipase-catalyzed acidolysis in a bench-scale continuous packed bed reactor. Total incorporation and acyl migration of CA in the SL were 42.5 and 3.1 mol %, respectively, and the half-life of the lipase was 19.2 days. The SL displayed different physical and chemical properties, less saturated dark brown color, lower viscosity, lower melting and crystallization temperature ranges, higher melting and crystallization enthalpies, higher smoke point, higher saponification value, and lower iodine value, in comparison to those of unmodified sesame oil. The oxidative stability of purified SL was lower than that of sesame oil. There were no differences in the contents of unsaponifiables including tocopherols and phytosterols. However, total sesame lignans content was decreased in SL due to the loss of sesamol when compared to sesame oil. Most of the 70 volatiles present in roasted sesame oil were removed from SL during short-path distillation of SL. These results indicate that the characteristics of SL are different from those of original sesame oil in several aspects except for the contents of tocopherols and phytosterols. 相似文献