生物化工

生物化工学科国际化高等教育平台的构建

The Construction of Internationalization Platform of Higher Education on Biochemical Engineering Subject

论述了生物化工学科国际化高等教育平台构建的目的及意义、构建方法和手段，并对国际化教育平台在教育教学改革、培养高素质创新人才中的作用等方面作了探讨。

This paper reported the purposes , meaning , method and measurement of construction of internationalization platform of higher education on biochemical engineering subject . The actions of teaching reform , training talented person with higher quality , creating ability were also discussed .

将该法应用于生物化工产品丙酸钙、动物蛋白粉等中痕量锰的测定，加标回收率105%，10次测定RSD为4.6%。

This method was applied to determination of trace manganese in some biochemical products with a satisfactory results . The recovery rate of standard addition is 105 % and the RSD is 4.6 % .

金纳米粒子（GNPs）由于在生物化工、医学诊断以及化学催化等领域有广泛用途而日益受到关注。

Gold nanoparticles ( GNPs ) have attracted extensive attentions because of their wide applications in the fields of biological chemistry , medical diagnose and chemical catalyst .

生物化工/制药企业保留核心员工实战策略

Practical Strategy of Retaining Key Employees for Biochemical / Pharmaceutical Enterprises

提高我国的生物化工装备水平

Strive to raise the level of biochemical engineering equipment in China

镰刀菌在生物化工及生态环境治理中的研究进展

Study Progress of Fusarium on Biochemistry Industry and Eco-environmental Control

我国生物化工行业经过长期发展，已有一定的基础。

China 's bio-chemical industry after a long-term development must have been .

未来生物化工发展趋势及对策建议

The Developing Trends of and Countermeasures for the Future Bio-chemistry

对21世纪我国生物化工发展的展望

The Development of Biochemical Industry and Engineering at 21 Century at Home

生物化工是高效化学化工技术与生物技术交叉的产物，是生物技术产业化的关键，也是化学化工技术的主要前沿领域。

Bio chemical engineering is a product of chemical technology and biology technology .

分子印迹技术及其在生物化工领域的应用现状与展望

Molecular Imprinting Technology and its Applications in Biochemical Engineering

生物化工产品生产现状及发展趋势

The Present situation of biochemicals production and its development

高效生物化工堆肥转化技术的应用研究

Applied Research on The Efficient of Bio-chemical Technology in Compost ′ s Transforming

我国生物化工产业的发展与对策

Development of China ′ s bio chemical industry

主要研究领域涉及功能材料、有机合成、固废资源化利用、生物化工等。

He is an executive editor of Journal of Clinical Rehabilitative Tissue Engineering Research .

21世纪生物化工发展及对策

Development and Countermeasures of Bio-chemical Industry in the 21 ~ ( st ) Century

抓住新形式下的发展机遇促进生物化工产业集群化发展

Catch opportunities in new situations to promote clustering development of biochemical industry in China

多元萃取体系及其在生物化工分离过程中应用

Multi-extraction System and the Application in Bioseparation

化学发光分析法测定铬、锰的研究及其在生物化工产品分析中的应用

Study on the Determination of Trace Chromium and Manganese by Chemiluminescence Reaction and Its Application

生物化工中的流化床分离技术

Fluidized Bed Product Separations in Biochemical Engineering

现代生物化工产品：微生物絮凝剂

Modern biochemical product : microbial flocculant

新型生物化工堆肥体系的研究

Studies on New Biochemical Technology Compost

从生物化工的形成、研究内容、研究现状与展望等方面介绍了生物化工。

Biochemieal engineering is introduced in its formation , studying range , present situation and prospect .

国外生物化工的新进展

New advances in biochemical industry

在化工、石油化工、医药工业、生物化工等以生产各种物料和材料的化工类工业生产部门中以及环境保护工程中，混合物的分离占有极重要的地位。

The separation of the mixture is important in chemical , petrochemical , medical , biochemical industries .

其中，生物化工醇是生物炼制产业中的关注焦点。

Among them , bio-chemical polyols is the emerging field and the focus of attention of bio-refining industry .

出格是更始开放往后，生物化工的成长进入了一个崭新的阶段。

In particular the reform and opening-up , the development of bio-chemical industry has entered a new stage .

并通过与传统石油化工的比较，说明系统论用于生物化工具有重要意义。

Compared with petrochemical industry , the importance of using the system theory in biochemical industry was highlighted .

三相流化床反应器广泛应用于化工、石油化工、煤化工和生物化工过程中。

Three phase fluidized bed reactors are widely used in chemical , petrochemical , coal chemical and biochemical industries .