亚士涂料保温一体化成品板入选首批上海自主创新产品目录

近日，经上海市科学技术委员会推荐申报和专家评审，本协会的会员单位-亚士漆（上海）有限公司生产的亚士涂料保温一体化成品板被入选2009年度（首批）上海自主创新产品目录。根据规定，入选上海自主创新产品目录的产品必须具备具有自主知识产权、创新程度高、技术先进、符合国家法律法规、具有自主品牌、质量可靠等要求，入选后的成品将在政府采购、国家重大工程采购等财政性资金采购中优先购买，并在高新技术企业认定、促进科技成果转化和相关产业化政策中给予重点支持。     

CAXA 3D实体设计在化工装备选型设计及安装中的应用

随着科学技术的飞速发展,现代化工企业在技术改造中可以选择的化工装备日益丰富,在此过程中对于化工设计制图的要求日趋提高。CAXA 3D实体设计作为一款将可视化自由设计与精确化设计结合的国产三维设计软件,因其使用逻辑通俗易懂,对计算机硬件要求相对宽松,在提供三维数字化设计方案的同时可以输出传统二维工程图纸等优点而被本公司引进使用。经一段时间的实践,此软件已成为本公司在化工装备选型、设计及实际安装中的得力工具。     

产品生命周期评价系统的软件设计及开发

论述生命周期评价系统软件的总体设计方法,确定用户界面设计的内容及布局方案,分析系统的组成结构;对清单数据和分析模型的数据库建设进行分析,论述程序设计的方法及实现代码;分别对清单分析功能模块和影响评价模块的开发方法及代码进行说明,实现了产品生命周期的自动化分析及评价功能,提出基于LCA的环境与经济优化分析方法.     

染料、颜料产品多批拼混过程中色光强度预测软件的研究与开发

应用现代测量技术和颜色科学的理论，开发了用于同一品种不同批次染(颜)料产品的拼混过程中，拼混产物色光强度的预报软件。本软件以数值表示产品的色光和强度，描述了各批次产品的颜色特性与拼混后产品颜色特性间的数学关系，并具有界面友好、操作简单、信息包含量大、适用性广等特点。实验证明，预报结果与实测数据之间具有很高的一致性。     

Cu/SBA-15 is an Efficient Solvent-Free and Acid-Free Catalyst for the Rearrangement of Benzaldoxime into Benzamide

Abstract  

Cu/SBA-15 catalysts with various Cu loadings in the range of 5–20 wt% were prepared by an impregnation method and characterized by N₂ adsorption, X-ray diffraction, temperature programmed reduction and X-Ray photoelectron spectroscopic techniques. Cu/SBA-15 catalysts are found to be highly active and selective for the Beckmann rearrangement of benzaldoxime into benzamide under solvent-free and acid-free conditions.     

Zirconium-Containing Materials for Ceramics and Refractories Manufactured from Baddeleyite-Containing Products of the Kovdorskii Mining-and-Dressing Works Joint-Stock Co.

A technology for manufacturing zirconia-based materials of various quality grade intended for production of ceramic and refractory components is developed.     

New methods for the one-pot processing of polysaccharide components (cellulose and hemicelluloses) of lignocellulose biomass into valuable products. Part 3: Products synthesized via the biotechnological conversion of poly- and monosaccharides of biomass

Part 3 of the review discusses the modern aspects in the biotechnological synthesis of the valuable chemicals derived from the lignocellulosic biomass, including ethanol, n-butanol, isobutanol, 2,3-butanediol, and lactic and succinic acids. A comparative characteristic of different approaches (including SHF, SSF, SSCF and CBP) toward biosynthesis of valuable products is given. It is shown that the consolidated processing of lignocellulose into the valuable chemicals is a promising approach toward their direct synthesis by fermentation, but remains less efficient than other processing methods. Development of genetic engineering tools and the application of synthetic biology will allow to develop more efficient strains and advanced biotechnological processes for lignocellulose processing.