1.
Transforming and Remoulding:Lao She s Reforming Thinking of the Chivalrous Culture;
转化与再造:老舍对侠文化的改造思路
2.
The Investigation and Discussion of the Reforming Thought of Nanning Local Net Neywork Intellectualized;
南宁本地网网络智能化改造思路探讨
3.
Thinking of the Pluralistic Reforms of Property Right in China s Petroleum and Chemical Industry;
我国石化企业的产权多元化改造思路
4.
The Philosophy and Recognition of the Readjustment and Reconstruction of the Surface Engineering of Fuyu Oilfield;
扶余油田地面工程调整改造思路与认识
5.
Xia-culture in the Modern Literature;
现代文学中的侠文化——现代文人的文化改造思路
6.
Restructure Existing Industrial Parks into Eco-industrial Parks: The Strategy and Method;
工业园产业生态化改造的对策与思路
7.
Ideas on the Transformation and Construction of Modern Rural Distribution Networks;
新农村现代流通网络改造与建设思路
8.
New Idea of HFC Network Bidirectional Transformation--EPON Solution
HFC网络双向改造的新思路——EPON解决方案
9.
Some Ideas for Technical Project of City Highway Reconstruction
对城市旧路改造技术方案的几点思考
10.
The New Thoughts of Reconstruction Coming from the New Building of Danish Royal Library
从丹麦皇家图书馆看旧建筑改造的新思路
11.
Reforming Strategies for "Creativity Study" offered to Science and Technology Specialties;
面向理工科专业的“创造学”课程教学改革思路
12.
Exploring the Practical Teaching Reform in the Major of Mechanical Manufacture by Innovative Thinking;
以创新思路探索机械制造专业实践教学改革
13.
A new idea of joint stock system transformation for state-owned enterprise in the northeast old industrial base;
东北老工业基地国企股份制改造新思路
14.
The Basic Concept of Readjustment and Reconstruction of the Surface Engineering Optimization of Daqing Oilfield;
大庆油田地面工程优化调整改造基本思路
15.
On fostering college students creativity;
大学生创造性学习能力培养的改革思路
16.
Reflection of Zhongshan Road Street Improvement Project in Nanjing
南京中山东路街景改造工程引发的思考
17.
The Idea and Practice of Technological Process Transformation of Heavy-medium Powder for Coal Preparation
选煤用重介质粉工艺流程改造的思路与实践
18.
After reforming, the top cyclohexene in separating column decreased from6.5% to4.0%, the top cyclohexene of recovery column decreased from3.5%~4.8% to2.5%, the purity of cyclohexene increased from95% to97%.
本次改造提供了一种萃取精馏塔扩能改造的新思路———更改部分工艺,提高提馏段效率。