Property and performance amelioration of pelagic clay from the East Pacific

To make use of the pelagic clay as polymer filling, the properties of clay sediments from the ocean investigation zone of China in the East Pacific were studied by the SSA, XRF, ICP/MAS, FTIR, XRD, SEM, DTA/TG and granularity distributing etc. , and experiments were settled to improve the whiteness and activation of the clay based on these data. Compared with land clay, pelagic clay holds many particular features, such as fine particles and incompact accumulation, worse crystallization and more defects, high activity, complex mineral and chemical components, and low whiteness etc. Processing the purified pelagic clay with acids and zinc, then baked it at different temperatures, the whiteness of clay can be increased from 23.8% to 73.1%, and the optimized conditions is： consistency of vitriol 25%, ratio of clay to water 4： 1, reaction time 4h, reaction temperature 90℃, dosage of zinc 2.0 g/L, and baking temperature 700℃. And the SSA of whited clay is increased too. Using the dry milling method to modify the pelagic clay with organic reagents, the optimized technique is KH550, concentration 1.5%, reaction time 20 min. XRD, FTIR and SEM testing indicate that the mechanism of organic activation was mainly surface absorbing and chemical combination secondly.     

Properties and organic activation of ocean clay in the East Pacific

In order to make use of ocean clay reasonably and excavate its potential applications the properties of ocean clay in Chinese investigating area of the East Pacific have been tested with the chemical analysis, XRFS, ICP/MAS, granulometry and SSA, etc. The results show that the clay sediments of this area are rich in clay minerals, fine granularity, bigger SSA, bigger water absorbability and lower ion changing ability etc. To improve the adaptability of ocean clay and macromolecule materials, using the dry milling method with silane, aluminate, stearic acid coupling agents etc the properties of ocean clay are improved. The effect has been evaluated by testing the water absorbing of the modified ocean clay and their dispersing in paraffin liquid. The result is that KH550 is better than any other active reagents, and the best activation technics is that 1.5 % （volume） of KH550 quantity, 20min of milling time. The DTA, XRD, SEM and IR analyses and SSA testing show that the organic activation can not change the mineral structure but can densify the structure of clay, and activation mechanism is chemical covered mainly and chemical combined secondly.     

Properties and organic activation of ocean clay in the East Pacific

In order to make use of ocean clay reasonably and excavate its potential applications the properties of ocean clay in Chinese investigating area of the East Pacific have been tested with the chemical analysis, XRFS, ICP/MAS, granulometry and SSA, etc. The results show that the clay sediments of this area are rich in clay minerals, fine granularity, bigger SSA, bigger water absorbability and lower ion changing ability etc. To improve the adaptability of ocean clay and macromolecule materials, using the dry milling method with silane, aluminate, stearic acid coupling agents etc the properties of ocean clay are improved. The effect has been evaluated by testing the water absorbing of the modified ocean clay and their dispersing in paraffin liquid. The result is that KH550 is better than any other active reagents, and the best activation technics is that 1.5% (volume) of KH550 quantity, 20min of milling time. The DTA, XRD, SEM and IR analyses and SSA testing show that the organic activation can not change the mineral structure but can densify the structure of clay, and activation mechanism is chemical covered mainly and chemical combined secondly.     

Modification of HDPE filling with pelagic clay

In order to improve the properties of HDPE, the authors used the method of suspended diffusion for purification the pelagic clay, used silane coupling agent to increase its organic activation, and prepared the composites of organic pelagic clay/HDPE by melting them in different conditions. The affections of process conditions and quantity of pelagic clay to the properties of composites were analyzed by testing their mechanical properties, thermo stability and barrier properties. According to test the structure of composites, it is indicated that pelagic clay has good compatibility with HDPE. The result shows that the pelagic clay can improve mechanical properties, thermo stability and barrier properties of HDPE properties effectively.     

Research on purification and modification of I/S bentonite

Analyzing raw material's structure and performance of bentonite from Panzhihua in Sichuan, the authors think that it is adequate for agglomerant of iron smelting. According to its composition and property we have researched the purification and modification of I/S bentonite under conditions of different dispersants and sodium agent. XRD test result reveals that the essential minerals of Panzhihua bentonite are I/S mixed-layer ones, and FTIR analysis shows that when adding 1 5% sodium pyrophosphate to the bentonite slurry during purification, the composition of quartz in bentonite decreases to less than 4% and I/S is more than 90%. The optimized modification technic conditions are Na2CO3 (4%) and CMC-Na (3%) as modified agents, the clay and water are 10 vs. 1, and the temperature is 75℃. It is 40 min for stirring time and reacting time is 4 h. Under the conditions we can get the modified I/S bentonite with colloid index more than 500 ml/15 g.     

蓝田高岭土的工艺矿物学研究

高岭土的工艺矿物学特征直接决定着它的工业用途。本文作者采用化学的方法、X射线衍射、热分析、扫描电镜以及一系列物性测试手段,对蓝田高岭土的物质成分及其工艺性能进行了系统的研究,认为蓝田高岭土虽然白度偏低,但其可塑性、结合性、干燥性和烧结性均较好,可以作为日用陶瓷和建筑卫生陶瓷的主要原料,也可作为电瓷或其它陶瓷配方中的结合粘土。     

湖泊沉积物的矿物组成、成因、环境指示及研究进展

湖泊沉积物是不同地质、气候、水文条件下各类碎屑、黏土、自生/生物成因矿物以及有机物质等的综合体。沉积矿物蕴含着丰富区域和全球环境演变信息,如湖水的化学组成、流域构造、气候、水文以及人类活动的相互作用等。相关信息可以赋存在矿物外部微形貌、内部微结构、化学组成、物理和化学性质、同位素组成、谱学特征、成因以及共生组合等方面。因此,湖泊科学的许多关键课题都离不开矿物学,特别是在利用湖泊沉积物进行区域及过去全球变化研究中,深入的机理研究归根到底都要涉及矿物学,如流域化学风化作用、粒度组成、生物壳体化学组成、测年材料的选择等。然而,由于湖泊沉积物中矿物的多源性、复杂性,如何有效提取和解译其中的环境信息,是一项长期困扰研究者的课题,湖泊沉积矿物学的研究往往被许多研究者所忽视,中国的相关研究也较为薄弱。笔者综述了湖泊沉积物中碎屑、黏土、自生/生物矿物的矿物组合、特征、成因在(古)环境反演中的作用及最新研究进展,提出除了继续加强对湖泊沉积物中矿物来源、成因和古环境示踪的深入研究以外,矿物相间的转变及其对湖水和孔隙水组成的响应、一些非晶质或隐晶质及低丰度矿物相在湖泊化学和动力学中的作用也是很有潜力的研究领域,最后提出了研究中存在的一些问题、面对的挑战以及对研究前景的展望。     

钻井液用高分子聚合物高温流变特性影响因素探究

聚合物对钻井液的高温流变特性具有重要影响。对比了聚合物种类、加量、剪切时间、盐、造浆黏土等对聚合物溶液高温流变性的影响，并对不同温度下的剪切速率-剪切应力关系进行了流变模型拟合。结果表明，温度升高、剪切时间及盐量增加均导致黏度降低，超过190℃后黏度下降速率加剧；含5%甲酸盐与5%卤盐的样品黏度在降温阶段的黏度恢复率分别为86.8%和2.7%；以宾汉模式对造浆黏土与聚合物混合液进行拟合，220℃时的动切力最高达到5.47 Pa。温度升高使得聚合物溶液由假塑性向牛顿性演变的趋势增强。高于130℃时，长时间剪切导致黏度下降的趋势明显，此时含甲酸盐的聚合物溶液黏度较含卤盐的高，且降温阶段的黏度恢复率也较高。黏土的存在增强了混合液的网间结构，有利于高温下携带岩屑。      

不同脱乙酰度壳聚糖接枝丙烯酰胺的合成与表征(英文)

从甲壳素出发,先制备了3种不同脱乙酰度的壳聚糖,选择过硫酸铵_亚硫酸氢钠为氧化还原体系引发剂,合成了壳聚糖接枝丙烯酰胺聚合物;通过红外光谱,电镜扫描对聚合物进行结构表征,结果表明壳聚糖结构发生了变化,通过在相同条件下比较壳聚糖不同脱乙酰度对接枝率的影响,得出了在脱乙酰度为68.5%时聚合物的接枝率最大为250%,其最佳合成工艺为∶m(壳聚糖)∶m(丙烯酰胺)=1∶5,引发剂用量为体系质量分数的0.3%~0.4%,温度55~60℃,反应时间为2.5~3.0 h。     

十二烷基苯磺酸钠—乙二胺对原油的乳化影响

为解决化学驱油体系中无机碱引起地层黏土膨胀、注采系统结垢等问题,充分发挥碱的作用,降低由传统无机碱带来的不利影响,以乙二胺(EDA)作为碱剂,与十二烷基苯磺酸钠(SDBS)复配,与孤东油田原油制备乳状液,考察温度、含水率、SDBS及EDA单独使用和复配使用时的质量分数、乙醇助剂等因素对乳状液的影响,使用析水率和微观结构观测相结合的方法分析乳状液的稳定性.结果表明,当温度低于70℃时,随着温度的升高,原油黏度下降很快;乳状液黏度随含水率的增大先升高后降低,含水率为50%时的黏度最高;50℃、油水质量比为1∶1时,质量分数不超过0.100%的SDBS和EDA单独使用时乳状液的析水率达到50%以上,乳化油滴数量较少;二者复配使用时乳状液的析水率可降至38%,且乳化油滴数量多,稳定性增强;质量分数为0.100%的乙醇助剂的加入可进一步使乳状液的析水率降至30%.     

无黏土相完井液技术及其在元坝天然气藏的应用

元坝天然气藏具有埋藏深、高温高压、储层非均质性强、低孔超低渗、多压力系统等复杂的地层特性.针对该地区储层特点,考虑储层保护,以无机盐和甲酸盐作为基液,通过实验进行处理剂的配比优选和配伍性评价,研究无黏土相完井液技术.结果表明:该系列完井液密度调节范围为1.20～2.00g/cm3,抗温为150℃,悬浮能力强,与储层配伍性好,对岩心损害率小于9%,有利于储层保护.该技术成功应用于元坝10-侧-1井,并获高产气流,天然气产量为50.9701×104 m3/d.     

丙脒盐酸盐的合成工艺研究

采用单因子实验及均匀实验设计,考察了影响丙脒盐酸盐收率的因素,经回归分析,得出了合成丙脒盐酸盐的优化工艺条件:物料配比n(CH3CH2CN)﹕n(CH3OH)﹕n(HCl)=1﹕1.1﹕1.1;整个反应体系为无水体系;在反应前期,溶液温度为0~10℃,pH值为4.0左右,反应时间为9 h;在反应后期,溶液温度为0~20℃,pH值为8.0~8.5;氨-甲醇溶液的质量分数为15.0%。在此优化工艺条件下,丙脒盐酸盐的收率为94.0%,含量≥99%。     

减氧空气与轻质原油低温氧化反应特征

塔河北区块轻质原油与减氧空气在温度和压力作用下,探究其组分变化情况和耗氧量规律。在室内使用高温高压反应釜开展原油静态氧化实验,较为系统地研究不同含氧量及不同注气量的减氧空气对原油的氧化作用;并利用色谱分析对烃类分析,收集反应气体进行气体分析,气体组分和原油组分都有不同程度的变化。研究结果表明：(1)原油样本与减氧空气发生低温氧化反应,重质组分C₂₁以上的组分均下降,低于C₁₃的轻质组分含量均上升;(2)原油氧化效果随着含氧量上升而增强,反应过程组分对应“拐点”靠前;(3)含氧量一定时,改变油气比,反应对应的“拐点”不变;含氧量为下降趋势后趋于平缓;(4)低温氧化过程生成的CO₂含量为上升趋势后趋于平缓;(5)在油藏温度(160℃)下,原油主要涉及2个反应热裂解和加氧反应。热裂解反应与含氧量无关,和温度有关,主要反应温度是160～200℃。高碳组分沥青质等重质组分会分解成饱和烃。加氧反应主要是芳香烃,胶质加氧反应也会生成沥青质。当2种反应同时存在时,沥青质参与热裂解的含量大于加氧反应芳香烃等生成的沥青质量,会导致沥青质含量...     

磺酸基改性梳状有机硅聚醚破乳剂的制备及性能分析

在铂催化剂条件下,利用含氢聚硅氧烷(PHMS)、烯丙基磺酸盐(COPS-1)和烯丙基聚醚(Y-1)的硅氢化反应生成磺酸盐有机硅聚醚破乳剂(COPESO),采用红外光谱、GPC、粒度、界面张力和破乳性能测试等,对破乳剂进行结构表征,分析破乳性能的影响因素.结果表明:当反应温度为90℃、pH=3、COPS-1质量分数为5%时,对破乳剂引入磺酸基活性基可以得到性能优良多支链高相对分子质量的COPESO,其表面活性高,出水快,水色透明且界面齐,对乳液破乳效果高达94.8%.     

对虾蛋白自溶制备ACE抑制肽的工艺条件优化

以凡纳滨对虾为原料,以ACE抑制率为指标,利用响应面法对虾肉蛋白自溶制备ACE抑制肽的工艺条件进行了优化,即在酶解条件(pH值、温度、虾头虾肉质量比)和ACE(Angiotensin I-converting Enzyme,ACE)抑制率之间建立了数学模型Y=23.59-0.21X1+0.84X2+0.85X3-0.71X12-0.94X22-1.06X32+0.088X1X2-0.46X1X3-0.87X2X3。分析表明,在3个因素中,虾头与虾肉比例对ACE抑制率的影响最为显著。优化后的工艺参数为:pH7.35,温度57.2℃,虾头与虾肉比例为1∶1。根据回归方程的预测结果,反应时间为4 h,其ACE抑制率达41.9%。     

Isolation and characterization of a marine bacterium producing protease from Chukchi Sea, Arctic

A Gram negative bacterium Ar/W/b/75°25＇N/1 producing extracellular alkaline protease was isolated from surface water of latitude 75°25＇N, and longitude 162°25＇W in Chukchi sea, Arctic. The strain can grow at the temperature range from 7℃ to 30℃, and grow better at 30(℃. It can not grow at 40℃. Keeping certain salinity concentration in medium is necessary for cell growth. It grows well in medium containing salinity concentration from 0. 5 % to 10 % sodium chloride. Glucose, sucrose and soluble starch can be utilized by the strain, among which glucose is the optimal carbon source. Peptone is the optimal organic nitrogen source for cell growth and protease producing, and ammonium nitrate is the optimal inorganic nitrogen source.About 75.7% of total protease of the strain are extracellular enzyme. Optimal temperature for proteolytic activity is at 40℃. Protease of the strain keeps stable below 40℃, and shows high proteolytic activity within the pH range from 7 to 11.     

CO2协同低温有水对卵形鲳鲹麻醉保活效果的影响

【目的】探究二氧化碳CO₂麻醉协同低温对卵形鲳鲹有水保活的影响,延长卵形鲳鲹(Trachinotus ovatus)的保活时间。【方法】研究保活过程中CO₂质量浓度、麻醉时间、麻醉温度和鱼质量水比对卵形鲳鲹有水保活时长的影响;在最佳麻醉保活条件下,测定其血清生化指标、肌肉及肝脏氧化应激指标及代谢指标。【结果】卵形鲳鲹在16℃、100 mg/L CO₂水溶液中麻醉3 min其麻醉效果最佳。在15℃低温下进行有水保活,鱼水质量比为2∶1,存活时间最长,为(359±2)min,此条件下复苏率达100%。经过CO₂麻醉协同低温有水保活后的卵形鲳鲹血清谷草转氨酶(GOT)活性显著升高(P<0.05)、尿素氮(BUN)和甘油三酯(TG)含量上升,血糖含量下降。肌肉中的乳酸脱氢酶(LDH)活性显著上升(P<0.05),乳酸(LD)和糖原含量上升,过氧化氢酶(CAT)活性和丙二醛(MDA)含量下降;肝脏中的LDH活性显著上升(P<0.05)、CAT活性和LD的含量上升,MDA和糖原的含量下降。【结论】CO₂协同低温有水对卵形鲳鲹有较好的麻醉效果,有助于保活运输。在保活过程中卵形鲳鲹通过提升能量代谢水平和抗氧化能力应答环境应激,在一定程度上影响卵形鲳鲹保活过程的存活时间。     

Isolation and characteristics of one marine psychrotrophic cellulase-generating bacterium Ar/w/b/75°/10/5 from Chuckchi Sea,Arctic

Microorganisms living in polar zones play an important part as the potential source of organic activity materials with low temperature characteristics in the bio-technological applications. A psychrotrophic bacterium (strain Ar/w/b/75°/10/5) , producing cellulose at low temperatures during late-exponential and early-stationary phases of cell growth, was isolated from sea ice-covered surface water in Chuckchi Sea, Arctic. This bacterium, with rod cells, was Gram-negative, slightly halophilic. Colony growing on agar plate was in black. Optimum growth temperature was 15℃. No cell growth was observed at 351 or above. Optimum salt concentration for cell growth was between 2 and 3 % of sodium chloride in media. Maximal cellulase activity was detected at a temperature of 35℃ and pH8. Cellulase was irreversibly inactivated when incubated at 55℃ within 30 min. Enzyme can be kept stable at the temperature no higher than 25℃. Of special interest was that this bacterium produced various extracellular enzymes i     

温江站气候资料非均一性检验及订正

为研究人为因素导致的"不连续点"对气候序列均一性的影响,以四川省温江地面观测站为例,结合历史沿革资料,采用标准正态均一性检验法(SNHT法)、Buishand均一性检验法、Pettitt均一性检验法分别对该站1960~2009年平均、最高和最低气温、气温日较差、相对湿度、降水、1mm雨日观测序列作均一性检验分析,并利用逐步回归法对不均一序列进行订正。发现迁站和城市化效应对气象要素的均一性产生影响,其中台站迁移对于气温、相对湿度序列的影响较明显,而对降水量的影响则不显著。订正后平均气温增温速率为0.116℃/(10a),变暖幅度增大;相对湿度订正后倾斜率为0.085/(10a),降幅减弱。研究表明不同要素的均一性受到迁站等因素影响程度各不相同,需要进一步区别分析。     

未来RCP4.5情景下非洲地区主要气候要素时空演变特征

气候变化影响及其适应受到广泛关注。大量研究表明,受气候变化影响所造成的增温和降水减少已影响到非洲地区的农业生产和环境。本文利用HadGEM2区域气候模式输出的RCP4.5情景数据,基于时间序列分析及空间分析方法,对非洲大陆2010-2099年主要关键气候要素时空演变特征进行了预估,探讨了非洲大陆未来90年包括降水、辐射、平均气温、最高气温、最低气温等主要气候要素的时空变化格局。结果表明：各气候要素在不同时段的变化均表现出明显的地域分异差异： ① 相较于1970-1999年基准时段,未来3个时段(2020s、2050s、2080s)降水均增加,在2080s增至峰值,增加地区集中在20 °N附近的尼日尔、乍得、利比亚等国;最高增幅达4.5%;② 辐射增加区域分布在赤道地区和非洲大陆的南北两端,尤其是高海拔地区,如撒哈拉沙漠以北的阿特拉斯山脉附近,加丹加高原等地,最大增幅达0.04%;③ 未来90年非洲地区气温增加明显,包括平均气温、最高气温、最低气温,气温增幅由2020s、2050s、2080s依次递增,到2080s达到最大值,平均气温、最高气温、最低气温的最大增幅分别达到5、4.3和5.1 ℃。总体上,未来90年非洲大陆的气温较1970-1999年基准时段明显增多,但靠近海域的沿海地区增温较小,这是由于受到近海寒流的影响,起到了降温的作用。气温增幅过高也将不利于未来农业生产和地区安全。