气相爆轰波传播特性的数值模拟及实验对照

本文应用基元反应模型和频散可控耗散格式(DCD)对氢氧爆轰波进行了二维数值模拟.氢氧混合物的化学反应模型考虑了8种组分20个反应方程式.在处理化学反应引起的刚性问题时采用了时间算子分裂的方法.本文首先对爆轰波数值结果和实验结果进行了对照验证,然后对爆轰波在楔面反射由马赫反射向规则反射转变的过程进行了数值分析,得到了反射转变临界角,并和实验结果及理论分析进行了比较,结果是令人满意的;本文还对爆轰波的多波结构进行了初步的数值分析.

Release of Sulfur and Chlorine during Cofiring RDF and Coal in an Internally Circulating Fluidized Bed

An internally circulating fluidized bed (ICFB) was applied to investigate the behavior of chlorine and sulfur during cofiring RDF and coal. The pollutant emissions in the flue gas were measured by Fourier transform infrared (FTIR) spectrometry (Gasmet DX-3000). In the tests, the concentrations of the species CO, CO2, HCl, and SO2 were measured online. Results indicated when cofiring RDF and char, due to the higher content of chlorine in RDF, the formation of HCl significantly increases. The concentration of SO2 is relatively low because alkaline metal in the fuel ash can absorb SO2. The concentration of CO emission during firing pure RDF is relatively higher and fluctuates sharply. With the CaO addition, the sulfur absorption by calcium quickly increases, and the desulfuration ratio is bigger than the dechlorination ratio. The chemical equilibrium method is applied to predict the behavior of chlorine. Results show that gaseous HCl emission increases with increasing RDF fraction, and gaseous KCl and NaCl formation might occur.

Destruction of Chemical Agents in a Plasma Reactor with Working Gas of Hydrogen

Transport Phenomena in Ammonothermal Growth of Gallium Nitride

GaN can be used to fabricate blue/green/UV LEDs and high temperature, high power electronic devices. Ideal substrates are needed for high quality III-nitride epitaxy, which is an essential step for the manufacture of LEDs. GaN substrates are ideal to be lattice matched and isomorphic to nitride-based films. Bulk single crystals of GaN can be grown from supercritical fluids using the ammonothermal method, which utilizes ammonia as fluid rather than water as in the hydrothermal process. In this process, a mineralizer such as amide, imide or azide is used to attack a bulk nitride feedstock at temperatures from 200 - 500癈 and pressures from 1 - 4 kbar. Baffle design is essential for successful growth of GaN crystals. Baffle is used to separate the dissolving zone from the growth zone, and to maintain a temperature difference between the two zones. For solubility curve with a positive coefficient with respect to temperature, the growth zone is maintained at a lower temperature than that in the dissolving zone, thus the nutrient becomes supersaturated in the growth zone. The baffle opening is used to control the mixing of nutrients in the two zones, thus the transfer of nutrient from the lower part to the upper part. Ammonothermal systems have been modeled here using fluid dynamics, thermodynamics and heat transfer models. The nutrient is considered as a porous media bed and the flow is simulated using the Darcy-Brinkman-Forchheimer model. The resulting governing equations are solved using the finite volume method. We investigated the effects of baffle opening and position on the transport phenomena of nutrient from dissolving zone to the growth zone. Simulation data have been compared qualitatively with experimental data.

New Numerical Algorithms in SUPER CE/SE and Their Applications in Explosion Mechanics

The new numerical algorithms in SUPER/CESE and their applications in explosion mechanics are studied. The researched algorithms and models include an improved CE/SE (space-time Conservation Element and Solution Element) method, a local hybrid particle level set method, three chemical reaction models and a two-fluid model. Problems of shock wave reflection over wedges, explosive welding, cellular structure of gaseous detonations and two-phase detonations in the gas-droplet system are simulated by using the above-mentioned algorithms and models. The numerical results reveal that the adopted algorithms have many advantages such as high numerical accuracy, wide application field and good compatibility. The numerical algorithms presented in this paper may be applied to the numerical research of explosion mechanics.

对数值模拟气相爆轰中二阶段化学反应模型再研究

采用改进的高精度时-空守恒元解元算法(the space-time conservation element and solution element method,CE/SE method)和考虑组分的二阶段化学反应模型(Sichel的二步模型)对气相爆轰问题的数值模拟进行了分析.分析发现采用Sichel的二步模型得到的数值结果虽然比早期二阶段化学反应模型(旧二步模型)更接近实验值,但是仍然不能得到爆轰过程准确气体动力学参数.为此通过修改组分的质量分数分布形式对Sichel的二步模型进行了改造,然后采用新的二步模型对平面爆轰波进行了数值模拟.数值结果表明采用新的二步模型计算得到气体动力学参数更接近于实验值和基元反应模型的计算值,在计算精度上有较大提高.

Catalytic Cracking and Heat Sink Capacity of Aviation Kerosene Under Supercritical Conditions

Catalytic cracking of China no. 3 aviation kerosene using a zeolite catalyst was investigated under supercritical conditions. A three-stage heating/cracking system was specially designed to be capable of heating 0.8 kg kerosene to a temperature of 1050 K and pressure of 7.0 MPa with maximum mass flow rate of 80 g/s. Sonic nozzles of different diameters were used to calibrate and monitor the mass flow rate of the cracked fuel mixture. With proper experiment arrangements, the mass flow rate per unit throat area of the cracked fuel mixture was found to well correlate with the extent of fuel conversion. The gaseous products obtained from fuel cracking under different conditions were also analyzed using gas chromatography. Composition analysis showed that the average molecular weight of the resulting gaseous products and the fuel mass conversion percentage were a strong function of the fuel temperature and were only slightly affected by the fuel pressure. The fuel conversion was also shown to depend on the fuel residence time in the reactor, as expected. Furthermore, the heat sink levels due to sensible heating and endothermic cracking were determined and compared at varying test conditions. It was found that at a fuel temperature of similar to 1050 K, the total heat sink reached similar to 3.4 MJ/kg, in which chemical heat sink accounted for similar to 1.5 MJ/kg.

Thermal cracking of aviation kerosene for scramjet applications

Thermal cracking of China No.3 aviation kerosene was studied experimentally and analytically under supercritical conditions relevant to regenerative cooling system for Mach-6 scramjet applications. A two-stage heated tube system with cracked products collection/analysis was used and it can achieve a fuel temperature range of 700-1100 K, a pressure range of 3.5-4.5 MPa and a residence time of approximately 0.5-1.3 s. Compositions of the cracked gaseous products and mass flow rate of the kerosene flow at varied temperatures and pressures were obtained experimentally. A one-step lumped model was developed with the cracked mixtures grouped into three categories: unreacted kerosene, gaseous products and residuals including liquid products and carbon deposits. Based on the model, fuel conversion on the mass basis, the reaction rate and the residence time were estimated as functions of temperature. Meanwhile, a sonic nozzle was used for the control of the mass flow rate of the cracked kerosene, and correlation of the mass flow rate gives a good agreement with the measurements.

Release of Sulfur and Chlorine During Cofiring Rdf and Coal In An Internally Circulating Fluidized Bed

An internally circulating fluidized bed (ICFB) was applied to investigate the behavior of chlorine and sulfur during cofiring RDF and coal. The pollutant emissions in the flue gas were measured by Fourier transform infrared (FTIR) spectrometry (Gasmet DX-3000). In the tests, the concentrations of the species CO, CO2, HCl, and SO2 were measured online. Results indicated when cofiring RDF and char, due to the higher content of chlorine in RDF, the formation of HCl significantly increases. The concentration Of SO2 is relatively low because alkaline metal in the fuel ash can absorb SO2. The concentration of CO emission during firing pure RDF is relatively higher and fluctuates sharply. With the CaO addition, the sulfur absorption by calcium quickly increases, and the desulfuration ratio is bigger than the dechlorination ratio. The chemical equilibrium method is applied to predict the behavior of chlorine. Results show that gaseous HCl emission increases with increasing RDF fraction, and gaseous KCl and NaCl formation might occur.

Phase-matching control of high-order harmonic generation in a two-color laser field

The phase-matching condition of high-order harmonic generation driven by intense few-cycle pulses could be controlled by adding second-harmonic pulses to change the ionization fraction of the gaseous medium. The harmonic generation efficiency could be improved by moving the phase-matching point with an all-optical control of the ionization fraction or a proper change of the confocal parameter. A specific order of harmonics could be easily controlled to reach phase matching at a fixed higher gas pressure by adding second-harmonic pulses with a suitable intensity. Such an all-optical phase-matching control was demonstrated to be dependent upon the temporal delay between the fundamental-wave and second harmonic pulses.

溶胶-凝胶多孔二氧化硅减反膜稳定性研究

多孔SiO2膜层经热处理后，具有很高的激光破坏阈值，但是结构中有许多Si-OH亲水基团，导致光学透过率受环境相对湿度的影响很大。实验目的是改善膜层内部结构，使膜层结构中的亲水基团转变为疏水基团。提高膜层的疏水性，增强膜层的透过率稳定性。系统地研究了膜层透过率随时间变化的规律，在氨气和六甲基二硅氮烷(HMDS)混合气氛下热处理膜层，处理后生成Si-O-Si(CH2)3非极性疏水基团，使膜层的疏水性大大提高，因而膜层的透过率稳定性有大幅度提高。稳定性的提高延长了膜层的寿命。处理后膜层的表面粗糙度良好，均方根表

新疆紫草细胞悬浮培养生产紫草宁衍生物的动态测定机理化因子调控

本文在本实验室提供的新疆紫草愈伤组织高产系A1的基础上，采用二步培养法，进行摇瓶悬浮培养，分别在生长及生产培养基中测定了细胞生长，次生产物合成，培养基的C源（蔗糖）消耗，溶氧，电导率和pH值的动态变化曲线，确定了各动态曲线之间的关系，为进一步的放大培养提供了参考依据。同时，还测定了与细胞生长密切相关的过氧化物酶及与产物合成密切相关的苯丙氨酸解氨酶(PAL)的活性的动态变化曲线，进一步将宏观参数的动态变化与微观参数的动态变化联系起来。 本文还对不同理化因子对生产培养基中悬浮培养的细胞的生长及紫草宁衍生物合成的影响进行了研究。结果表明：过高或过低的供氧水平均不利于细胞的生长及产物的合成;C源及N源有较好的协同作用，适当地提高C源及N源的水平能明显提高紫草宁衍生物的产量：接种前往培养基里加入一定量的前体苯丙氨酸( Phe)，能明显提高紫草宁衍生物的产量，而在培养中期添加则有一定的负致应;一定量的拜土及琼脂(agar)的添加，对产物的合成均具有正效应，并且作用大小和细胞的生理状态有关。高密度培养的研究表明，在合适的接种量和培养基浓度下，适当提高溶氧，较大幅度地提高产量是有可能的，这还有待于进一步的研究验证。

气体信号分子一氧化氮和乙烯的生物学功能：一氧化氮在植物盐胁迫中的作用和乙烯激活钙离子通道

一氧化氮（NO）是重要的植物信号分子，参与许多植物生理过程。以拟南芥野生型和Atnoa1突变体为材料研究了NO在植物抗盐胁迫中的作用。 T-DNA插入AtNOA1基因的第一个外显子，使Atnoa1突变体中NOS活性大幅度下降，NO释放减少。用不同浓度的NaCl对拟南芥野生型和Atnoa1突变体进行盐胁迫处理后，Atnoa1突变体中Na+离子积累较野生型多，K+离子吸收较野生型少，从而使突变体中的Na+/K+比野生型高，对突变体造成了更大的伤害。Atnoa1突变体种子萌发和幼苗生长对盐胁迫更敏感。盐胁迫处理后，Atnoa1突变体的存活率比野生型低。无论是在正常生长条件下，还是盐胁迫条件下，Atnoa1突变体中的H2O2和TBARS含量都比野生型中高，说明Atnoa1突变体对盐胁迫和氧化胁迫都比野生型更敏感。用NOS抑制剂和NO清除剂处理拟南芥野生型，减少内源NO释放量，使其在盐胁迫条件下的Na+/K+比增高。盐胁迫处理降低了野生型体内的NOS活性，减少了NOA1蛋白的表达，DAF-2DA标记的NO荧光强度减弱。用NO供体SNP处理Atnoa1突变体，可以减少盐胁迫引起的Na+/K+比增加。以上研究结果证明NOS介导的NO合成在植物抗盐胁迫中起重要作用。 乙烯作为一种植物气体激素参与植物生长发育的许多生理生化过程。植物细胞自由钙离子（[Ca2+]c）是重要信号分子，在植物应答外界信号中起非常重要的作用。外界信号通过开启植物细胞质膜的钙离子通道，使得胞外钙离子进入细胞，导致瞬间[Ca2+]c的增加，激活钙依赖型的蛋白和蛋白激酶，从而改变生理生化过程。本研究利用膜片钳和激光共聚焦显微技术，研究了外源乙烯对烟草悬浮细胞质膜Ca2+离子通道和细胞中[Ca2+]c活性的影响。乙烯供体乙烯利和乙烯合成前体ACC能够迅速诱导内向型电流，表明这些处理能开启离子通道。通过离子替代实验和离子通道的药理学分析证实乙烯利和ACC激活了一种对Ba2+, Mg2+和Ca2+等阳离子具有通透性的离子通道，La3+、Gd3+和Al3+抑制该通道的活性。乙烯受体拮抗物（1-MPP）和ACC合成酶抑制剂，能够减弱乙烯利和ACC对这种通道的活化作用，说明乙烯利和ACC是通过乙烯活化此类Ca2+离子通道。用Ca2+敏感的荧光标记物Fluo-3标记，通过激光共聚焦显微观察，发现乙烯利能够诱导烟草悬浮细胞中[Ca2+]c离子浓度的增加，而且Gd3+和BAPTA显著抑制乙烯利诱导的细胞中[Ca2+]c离子的增加。说明外源Ca2+离子通过质膜上被激活的Ca2+离子通道进入细胞，使细胞中[Ca2+]c离子浓度增加。以上结果说明，乙烯活化质膜上的Ca2+离子通道，使细胞外Ca2+离子进入细胞，导致细胞中[Ca2+]c离子浓度增加，是乙烯信号转导途径的重要步骤。

Ⅰ 虎杖聚酮类化合物生物合成相关基因的克隆及功能分析 Ⅱ 高山红景天酪醇生物合成代谢途径机制分析

Ⅰ 虎杖聚酮类化合物生物合成相关基因的克隆及功能分析 虎杖 (Polygonum cuspidatum Sieb. et Zucc) 属于蓼科蓼属多年生草本植物，在中国和日本民间曾被广泛用于动脉粥样硬化、高血压、咳嗽、化脓性皮肤炎以及淋病的治疗，具有祛风利湿、散瘀定痛、止咳化痰等功效。而在现代医学上最令人瞩目和具有发展前景的是其在抗肿瘤、心血管保护、抗氧化方面的作用，相关疗效主要来自于虎杖中结构迥异、种类丰富的聚酮化合物及其衍生物资源。这些聚酮类化合物主要包括蒽醌、大黄素、大黄素-甲醚、大黄酚、芪类以及类黄酮化合物等。其中，大部分聚酮类化合物生物合成途径机制尚不明确，但可以肯定的是植物类型III聚酮合酶type III polyketide synthases (PKSs) 在这些聚酮化合物的生物合成起始反应中行使着关键的作用。因此，除了我们所熟悉的类黄酮化合物、芪类化合物之外，进一步分离和分析虎杖中其它重要聚酮类化合物生物合成所涉及的类型III聚酮合酶基因的是非常值得期待的。 目前，已经有14个植物类型III PKS基因被克隆和功能分析。植物类型III PKS的共同特征包括基因结构、序列相似性、保守的活性中心、酶学性质以及共同的催化机制等。显花植物（裸子植物和被子植物）中，植物类型III PKS的基因结构绝对保守，除了一个早期报道的金鱼草（Antirrhinum majus）查尔酮合酶chalcone synthase (CHS) 含有第二个内含子外，迄今为止所有已知的植物类型III PKS基因均含有一个内含子且该内含子位置保守。有趣的是，在本研究中，两个含有3个内含子的类型III PKS基因从虎杖中被分离，且两个基因3个内含子的位置完全保守，这是三内含子类型III PKS基因首次得到分离。除了新奇的基因结构外，体外功能分析显示上述两个基因还具有特殊的酶学性质和功能。 本论文围绕上述2个三内含子基因开展了以下工作： 虎杖中一个由三内含子基因编码的新型类型III聚酮合酶 一个类型III PKS的cDNA及其相应的基因（PcPKS2）从药用植物虎杖中被克隆。序列分析结果表明，PcPKS2的开放阅读框被3个内含子分隔，这是一个出人意料的发现，因为截至到目前为止，除了金鱼草一个CHS基因外，所有已知的类型III PKS基因均在固定位置上含有一个内含子。除了特殊的基因结构外，PcPKS2显示了一些有趣的特性：(i) CHS“守卫”苯丙氨酸——Phe215和Phe265在PcPKS2中双双缺失，它们分别被亮氨酸和半胱氨酸取代;(ii) 体外功能分析结果表明，当酶促反应体系的pH值为6.5-8.5时，大肠杆菌中过表达的重组PcPKS2高效地合成丁烯酮非环化产物——4-香豆酰甘油酸内酯（4-coumaroyltriacetic acid lactone (CTAL)）为主产物，而丙烯酮非环化产物bis-noryangonin (BNY) 以及苯亚甲基丙酮为副产物;而当酶促反应体系的pH值为9.0时，PcPKS2高效地合成苯亚甲基丙酮为主产物，而CTAL、BNY为副产物。另外，除了上述3种产物外，在不同的pH条件下，还有痕量的柚皮素查尔酮能被检测到。此外，在4-香豆酰辅酶A（4-coumaroyl-CoA）的类似化合物中，除了4-香豆酰辅酶A外，只有feruloyl-CoA能够被PcPKS2接受作为起始底物。PcPKS2不接受脂肪酰辅酶A——异丁酰基辅酶A（isobutyryl-CoA）、异戊酰基辅酶A（isovaleryl-CoA）以及乙酰辅酶A（acetyl-CoA）作为起始底物。Southern blot杂交结果表明，在虎杖基因组中存在2-4个PcPKS2基因的拷贝。Northern blot杂交结果表明，在根茎和幼叶中，PcPKS2表达量很高，而在根中无表达。叶中的PcPKS2的表达受病原菌诱导，但不受伤诱导。 虎杖中一个编码双功能类型III聚酮合酶的三内含子基因的鉴定 显花植物中，所有已知的类型III PKS 基因均含有一个内含子且位置绝对保守。本研究中，综合运用PCR技术，从富含聚酮类化合物的植物虎杖中克隆得到一个类型III PKS 基因（PcPKS1）及其cDNA。序列分析结果表明，PcPKS1含有3个内含子。系统发育分析结果表明，PcPKS1与其它植物的CHSs归为一类。然而，体外功能分析结果表明，当酶促反应体系pH值为7.0时，大肠杆菌中过表达的重组PcPKS1高效地合成柚皮素查尔酮（naringenin）为单一产物;而当pH值为9.0时，苯亚甲基丙酮（p-hydroxybenzalacetone）几乎为重组PcPKS1的唯一产物。后续的研究表明，与典型的CHSs相比，PcPKS1具有另外一些不同的特点：在pH值为9.0时（PcPKS1的苯亚甲基丙酮合成活性最适pH值），在4-香豆酰辅酶A的类似化合物中，只有feruloyl-CoA能够被PcPKS1接受作为起始底物。与CHSs展现出的对脂肪酰辅酶A宽泛的底物特异性不同，在不同的pH条件下，PcPKS1不接受异丁酰基辅酶A（isobutyryl-CoA）、异戊酰基辅酶A（isovaleryl-CoA）以及乙酰辅酶A（acetyl-CoA）作为起始底物。以上数据指出重组PcPKS1是一个具有查尔酮合酶（CHS）和苯亚甲基丙酮合酶（BAS）活性的双功能酶。Southern blot杂交结果表明，在虎杖基因组中存在2-4个PcPKS1基因的拷贝。Northern blot杂交结果表明，PcPKS1可能在防御病原菌和草食动物方面起着重要作用。PcPKS1和PcPKS2共同从虎杖中被分离的事实极有可能暗示了苯丁烷类化合物（phenylbutanoid）及其衍生物存在于虎杖中。 Ⅱ 高山红景天酪醇生物合成代谢途径机制研究 高山红景天（Rhodiola sachalinensis A. Bor）是景天科（Crassulaceae）红景天属多年生草本植物，作为一种适应原性中草药在中国的应用史已经超过800年。最近红景天提取物作为一种重要的商业药用制剂资源，其应用遍及欧洲、亚洲和美国，其主要治疗范围包括抗变应性和消炎，提高心理机敏性等。目前已经非常明确，红景天甙（salidroside）和甙元酪醇（tyrosol）是红景天属植物的主要功效成分，主要分布于这类植物的根中并且具有抗缺氧、抗疲劳、延缓衰老、预防紫外线辐射伤害等功效。红景天甙为酪醇8-O-β-D葡萄糖甙，是酪醇在葡萄糖基转移酶UDP-glucosyltransferase (UGT) 的催化下糖基化后形成的，可以认为是酪醇在植物体内的贮存形式。酪醇作为一种重要的活性分子，同样存在于橄榄树和葡萄酒中。 虽然已经非常明确酪醇来自于莽草酸代谢途径，然而其具体的生物合成途径及其调控仍不明确。总结以往的报道，在酪醇的生物合成上主要存在两种观点：一是酪醇可能来自于苯丙烷代谢途径产生的4-香豆酸（4-coumaric acid）前体;二是来自于酪氨酸的酪胺（tyramine）可能是酪醇生物合成的直接前体。我们的工作兴趣主要围绕着鉴别高山红景天中的酪醇生物合成途径展开： 高山红景天内源苯丙氨酸解氨酶PALrs1的过表达对红景天甙积累的影响 红景天甙是来自于药用植物高山红景天的一种适应原性新型药物，其生物合成途径可能起始于苯丙氨酸或酪氨酸。由于高山红景天野生植物资源的匮乏和相对含量很低，阐明红景天甙的生物合成途径对于增加红景天甙的供给至关重要。在我们以前的工作中，运用cDNA末端快速扩增技术（RACE），一个编码苯丙氨酸解氨酶phenylalanine ammonia-lyase (PAL)的cDNA从高山红景天中被克隆，命名为PALrs1。在本研究中，PALrs1置于35S启动子+Ω增强子序列的控制下通过农杆菌（Agrobacterium tumefaciens）介导法转化回高山红景天。PCR 和 PCR–Southern blot分析结果表明，PALrs1已经整合到了转基因植物的基因组上。Northern blot杂交结果表明，PALrs1已经获得在转录水平上的高水平表达。与预期的结果相同，高效液相色谱High-performance liquid chromatography (HPLC)测定结果显示PALrs1的过表达引起4-香豆酸含量增长3.3倍。然而，与之相反的是，酪醇和红景天甙含量与对照相比反而分别下降4.7和7.7倍。此外，我们发现PALrs1的过表达造成酪氨酸含量下降2.6倍。这些数据暗示着PALrs1的过表达和4-香豆酸的积累并不能促进酪醇的生物合成。酪醇，作为一种苯乙烷类衍生物并非来自苯丙氨酸，而酪氨酸含量的下降则极有可能是酪醇生物合成和红景天甙积累大规模下降的直接原因。

氨对草鱼的急性和亚急性毒性

试验测定了氯化铵对草鱼的急性和亚急性毒性。急性试验采用26,47,60和125日龄的草鱼,亚急性试验用60日龄草鱼种,经0.970,0.455,0.099,0.054和0.012(对照)毫克NH_3/升(未离解氨,un-ionized ammonia)暴露45天。26,47,125日龄草鱼的96小时LC_(50)(半数致死浓度)分别是0.570,1.609和1.683毫克NH_3/升,而47,60,125日龄的48小时LC_(50)则分别为1.727,2.050和2.141毫克NH_3/升。急性毒性试验结