boi

BOI的概念在芯片制造领域，各种线材的绑定越来越广泛，在高精密的绑定中，人工无法对其进行识别时，BOI设备便起到了至高的作用。设备通过高清工业CCD相机自动扫描被检测对象，再通过专门的软件进行图像处理和计算，最终将结果反馈给前工序和操作员，以达到品质控制的目的。2100433B

BOI的名称来源于AOI的灵感，人们常把AOI用于自动外观检查，严格的讲，无论应用于哪一行业的外观检测都可称之为AOI，神州视觉科技有限公司是国内进行AOI研发、制造的公司，在十年的AOI研究经验中又发明了绑定测试设备，该设备专门应用于芯片绑定测试及品质控制，为了区别该产品与其本身ALeader AOI产品，BOI便应运而生。

Chapter 1 Introduction to Power Plant Chemistry

1.1 Introduction of Steam Chemistry Systems

1.2 Main Contents of Power Plant Chemistry -

1.3 Chemistry Requirement for Power Plant

1.4 Feedwater and Boiler Water Treatment

Chapter 2 High-Purity Makeup Water Treatment

2.1 Introduction

2.2 Pretreatment

2.3 High-Purity Makeup Treatment Methods

2.4 Regeneration and Co-current/countercurrent Systems

2.5 Demineralizer Performance Calculations

2.6 System Design Calculations

2.7 Mixed-bed Polishing

2.8 Demineralizer Component Fundamentals

2.9 Packed-bed Demineralizers

2.10 Reverse Osmosis

2.11 Electrodialysis and Electrodialysis Reversal

2.12 Electrodeionization

Chapter 3 Corrosion and Prevention of Metal Materials

3.1 Introduction

3.2 Oxygen Corrosion in Thermal Devices

3.3 Acidic Corrosion of Thermal Devices

3.4 Stress Corrosion of Thermal Devices

3.5 Corrosion by Enriched Medium in Boiler

3.6 Corrosion and Prevention of Copper Alloy

3.7 Chemical Cleaning

Chapter 4 Condensate Feedwater Chemistry

4.1 Introduction

4.2 Condensate/Feedwater System Construction Materials

4.3 Condensate Chemistry Dissolved Oxygen

4.4 Mechanical Removal of Dissolved Oxygen and Other Gases

4.5 Chemical Control of Dissolved Oxygen

4.6 Flow-accelerated Corrosion

4.7 Copper Alloy Corrosion and Preventive Measures

4.8 Additional Corrosion Control Requirements

4.9 Oxygenated Treatment

4.10 Feedwater Chemistry Guidelines

4.11 Chemical Feed Systems

4.12 Monitoring and Control of Condensate Contaminants

4.13 Condensate Polishing and Treatment of Condensate

Chapter 5 Boiler Water Chemistry

5.1 Introduction

5.2 Drum-type Boiler Design

5.3 Once-through Steam Generation

5.4 Boiler Water Contamination

5.5 Boiler Water Treatment Programs

5.6 Phosphate Hideout

5.7 Alternative Phosphate and Nonphosphate Programs

5.8 Heat Recovery Steam Generation

Chapter 6 Steam Chemistry

6.1 Introduction

6.2 Primary Carryover Products

6.3 Mechanical Carryover

6.4 Vaporous Carryover

6.5 Solids Introduction by Contaminated Attemperator Water."

6.6 Superheater Exfoliation

6.7 Water Chemistry Limits to Prevent Steam Contamination by Carryover.

6.8 Boiler Water Chemistry Guidelines for Control of Steam Chemistry

6.9 Steam Chemistry Monitoring

6.10 Steam Chemistry Issues at Industrial Plants without Turbine

Chapter 7 Chemistry Sampling

7.1 Introduction

7.2 The Need for Sampling

7.3 Sample Point Selection

7.4 Cogeneration/Combined Cycle/Industrial Plant Sampling

7.5 Techniques to Obtain Representative Samples

7.6 Data Acquisition

Appendix I Glossary of Chemistry in Fossil/Nuclear Power Plant

Appendix II Glossary of Materials in Power Plant

References