一株秸秆纤维素降解菌株的筛选及其降解特性

纤维素是自然界一种最重要的可再生资源,本文从玉米地土壤中分离出 1 株产纤维素酶能力较强的菌株J-N3。以羧甲基纤维素为唯一碳源的分离培养基和刚果红染色法进行初筛,再将筛选到的菌株进行液体发酵培养并测定酶活。结合形态学特征与分子生物学鉴定结果得知,菌株J-N3为芽孢杆菌属( Bacillus)。并对其酶学性质进行初步研究,得到酶最适pH为6.0时,最适反应温度为50 ℃。玉米秸秆经菌株 J-N3处理20 d 时,秸秆失重率及纤维素分解率分别达到26.22%、31.01%。     

地方高校转型背景下生物工程专业课程设计教学改革与探索

以地方本科高校转型发展为背景,以提高生物工程专业应用技术人才培养质量为目标,针对地方高校生物工程专业课程设计教学的特点和存在的问题,以生物工程专业的本科教学为例,探讨课程设计教学改革的有效措施,为探索课程设计教学环节的改革措施提供了参考。     

离子液体/NMP对双马萃余煤的结构和萃取性能影响

为研究离子液体/NMP对双马萃余煤的结构和萃取性能影响,首先分别用乙醇和丙酮对宁东双马煤样(SM)进行分步萃取,得到萃余煤(SMEC),然后将不同种类的离子液体(ILs)分别与N-甲基吡咯烷酮(NMP)混合后对SMEC进行萃取.用TG研究ILs/NMP萃取前后煤样热分解特性的变化,用FT-IR研究ILs/NMP萃取前后煤样官能团的变化,用GC/MS分析萃取物的种类.结果表明,ILs/NMP萃取后煤样的热失重增大,萃余煤中含氧官能团含量下降.另外,疏水型离子液体/NMP对SMEC煤的累积萃取率大于亲水型离子液体/NMP的累积萃取率.亲水型离子液体[Bmim]Cl/NMP和[Bmim]BF4/NMP分别萃取出51种和44种有机物质;疏水型离子液体[Bmim]NTf2/NMP和[Bmim]PF6/NMP分别萃取出28种和29种有机物质.疏水型离子液体/NMP对SMEC煤中含氧官能团化合物的萃取能力强于亲水型离子液体/NMP;疏水型离子液体/NMP对SMEC煤中含杂原子化合物的萃取能力小于亲水型离子液体/NMP.     

热压烧结Ti3AlC2材料的制备、结构与性能研究

采用热压工艺研究了不同工艺制度和原料中不同的Si含量对Ti3AlC2合成的影响.研究表明在1 300℃～1 500℃,30MPa压力和Ar气氛中热压摩尔比为n(TiC)n(Ti)n(Al)n(Si)=2110.2的混合粉末,可以得到纯度达98%(质量分数)以上的致密块体Ti3AlC2材料;添加的Si均匀分布在基体中,形成固溶体,当添加Si的摩尔比为0.2时,固溶体的化学式为Ti2 76Al0 78Si0.22C2.烧结试样的晶体为层片状结构,1 300℃和1 400℃时,烧结试样的晶粒尺寸分别为10μm～15μm和20μm～30μm.材料的维氏硬度为3.3 GPa～5.0 GPa,弹性模量为289 GPa,抗压强度为785 MPa,抗弯强度为375 MPa,断裂韧性为7.0 MPa·m1/2;25℃时,电导率为3.1×106 S·m-1,热容为125.4 J/mol·K,热导率为27.5 W/m·K;热膨胀系数为8.8×10-6 K-1.     

含硼金刚石的金属包膜成分及其物相的研究

本文采用铁基触媒加入硼铁的方法，在高温高压条件下合成了含硼金刚石，利用电子探针（EPMA），透射电子显微镜（TEM）两种检测手段，分析了含硼金刚石金属包膜的微观组织结构，化学组成成分，各组成成分的物相及其可能形成的原因。研究结果表明：金属包膜的成分及其物相由正交立方结构的（Fe,Ni）3C，面心立方的γ-（Fe,Ni），面心立方的Fe23（C，B）。及少量的FeB,Ni3B组成，这些成份主要来源于原材料，其含量在高温压过程中是瞬间变化的。     

Microstructure of Titanium after Hydrogenation

ＭｉｃｒｏｓｔｒｕｃｔｕｒｅｏｆＴｉｔａｎｉｕｍａｆｔｅｒＨｙｄｒｏｇｅｎａｔｉｏｎＷａｎｇＹｕ；ＷａｎｇＰｅｉｘｕａｎ；ＺｈａｎｇＪｉａｎｗｅｉ（王宇）（王佩璇）（张建伟）ＵｎｉｖｅｒｓｉｔｙｏｆＳｃｉｅｎｃｅａｎｄＴｅｃｈｎｏｌｏｇｙＢｅｉｊｉｎ...     

工作流技术在ASP公共服务平台中的应用研究*

根据项目特点,建立了适合ASP平台的基于协调理论和反馈机制的扩展活动网络模型,采用XML模式的XPDL规范实现过程定义;然后通过DOM解析XML数据文档和J2EE的技术支持实现了系统的轻量级工作流引擎.详细介绍了系统实现中解决的两个关键问题:事务型操作的处理和并发控制,并提出了基于优先级的锁绑定机制.     

Coordinated Recovery of Middleware Services:A Framework and Experiments

Being the most popular runtime infrastructure for distributed systems, middleware can be viewed as a collection of common services. Since the development, deployment and maintenance of distributed systems rely largely on middleware services, the failure of middleware services puts a significant impact on the reliability and availability of the whole system. Though recovery-based fault tolerance is an effective way to improve the reliability of middleware services, it is far away from practice mainly because of the high complexity and cost of the recovery of correlated failures between interdependent services. In this paper,a framework for detecting and recovering the correlated failures of middleware services in an automated way is presented. First, the problem is investigated from two perspectives, i.e.,analyzing the role and impact of middleware services and illustrating a set of correlated failures in J2EE standard services as motivating examples. Then, a general coordinated recovery model is constructed with the elements necessary and su±cient for detecting and recovering correlated failures in middleware services. The supporting framework is demonstrated on three J2EE application servers, i.e., PKUAS, JBoss and JOnAS, one by one without fundamental modifications. Finally, based on the three enhanced application servers, many cases on J2EE common services, including the transaction service, database service, naming and directory service, security service and messaging service, are studied. The experiment results show the effectiveness and applicability of the framework presented in this paper.     

Simulation study on the gasification process of Ningdong coal with iron-based oxygen carrier

Chemical looping gasification (CLG) of Ningdong coal by using Fe₂O₃ as the oxygen carriers (OCs) was studied, and the gasification characteristics were obtained. A computation fluid dynamics (CFD) model based on Eulerian‐-Lagrangian multiphase framework was established, and a numerical simulation the coal chemical looping gasification processes in fuel reactor (FR) was investigated. In addition, the heterogeneous reactions, homogeneous reactions and Fe₂O₃ oxygen carriers' reduction reactions were considered in the gasification process. The characteristics of gas flow and gasification in the FR were analyzed and it was found that the experiment results were consistent with the simulation values. The results show that when the O/C mole rate was 0.5:1, the gasification temperature was 900 ℃ and the water vapor volume flow rate was 2.2 ml·min^-1, the mole fraction of syngas reached a maximum value of the experimental result and simulation value were 71.5% and 70.2%, respectively. When the O/C mole rate was 0.5:1, the gasification temperature was 900 ℃, and the water vapor volume flow was 1.8 ml·min^-1; the gasification efficiency reached the maximum value was 62.2%, and the maximum carbon conversion rate was 84.0%.     

500kV输电线路运行稳定性评价模型研究

针对目前500 kV输电线路运维工作任务分配不合理,导致巡检效率低以及线路大修技改采取"差异化"改造方案如何选择规划的问题,建立一种输电线路多维度评价模型.该模型采用模糊综合评价方法,选择与输电线路巡检与大修技改密切相关的多个指标,通过层次分析法与熵权法确定各指标权重,计算各指标对应评语集的隶属度,最终得出评估结果.通过具体案例分析,该模型符合实际情况,能较好地对500 kV输电线路运行稳定性进行评估.