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Energy-Efficient Industrial Systems: Evaluation and Implementation /
Annotation Proven Solutions for Maximizing Energy Efficiency in Today's Industrial Systems. This practical guide features ten self-contained chapters that thoroughly analyze each component in large-scale industrial facilities and lay out best practices for reducing energy consumption and optimi...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York, N.Y. :
McGraw-Hill Education,
[2016]
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| Edición: | First edition. |
| Colección: | McGraw-Hill's AccessEngineering.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- A. Dedication
- B. About the Author
- C. Preface
- D. Abbreviations and Acronyms
- 1. Energy Management
- Introduction
- Main Drivers for Energy Management
- Typical Energy Management Program
- Energy Policy
- Energy Management Team
- Energy Manager
- Energy Usage and Baseline Data
- Energy Accounting Centers and EnPIs
- Targets and Action Plans
- Energy Audits
- Training
- Awareness
- Documentation
- Internal Audit
- Management Review
- 2. Motors and Drives
- Introduction to Motors
- Speed of Motors
- Slip in Motors
- Motor Efficiency
- Losses in Motors
- High-Efficiency Motors
- Impact of Motor Loading on Efficiency
- Estimating Motor Loading
- Economics of Energy-Efficient Motors
- Input Power Supply to Motors
- Maintenance of Motors
- Motor Drives
- Variable-Frequency Drives
- 3. Pumping Systems
- Types of Pumps
- System and Pump Curves
- Pump Power
- Affinity Laws
- Pressure Losses in Pipes and Fittings
- Parallel and Series Pumping
- Pump Sizing
- Constant-Flow versus Variable-Flow Systems
- Effect of Pump Speed and Size on Efficiency
- Avoiding Use of Bypass Systems
- Use of Small Pumps to Augment Larger Pumps
- Designing to Minimize Pressure Losses
- Pump Efficiency
- Overall Efficiency
- 4. Fan Systems
- Types of Fans
- Fan and System Characteristics
- Fan Selection
- Theoretical Fan Power Consumption
- Affinity Laws
- System Losses
- Fan Discharge and Inlet System Effects
- Filter Losses
- Coil Losses
- Fan Efficiency
- Right Sizing of Fans
- Modulating Airflow Rate
- 5. Boilers and Steam Systems
- Introduction
- Fundamentals of Steam
- Boilers
- Boiler Efficiency
- Energy-Saving Measures for Boiler Systems
- 6. Process Cooling Systems
- Introduction
- Once-Through Systems
- Cooling Tower Systems
- Low-Temperature Cooling Systems
- Refrigeration Systems
- 7. Compressed Air Systems
- Introduction
- Typical System Components
- Free Air Delivery
- Standard Conditions
- Utilization Factor
- Types of Compressors
- Basic Theory of Compression
- Specific Power
- Efficiency
- Multistage and Intercooling
- Heat Recovery
- Dryers
- Receiver Tanks
- System Pressure and Losses
- Compressed Air Leaks
- Using Blowers for Tank Agitation
- Intake Temperature
- Controls
- 8. Heat Recovery Systems
- Introduction
- Modes of Heat Transfer
- Heat Exchangers
- Performance of Heat Exchangers
- Shell and Tube Heat Exchangers
- Plate-Type Heat Exchangers
- Rotary Heat Exchangers
- Fouling in Heat Exchangers
- Overall Heat Transfer Coefficient Values
- 9. Combined Heat and Power Systems
- Introduction
- Internal Combustion Engine
- Gas Turbine
- Steam Turbine
- Combined Cycle
- Need for CHP Systems
- Types of Cogeneration Systems
- Applications and Considerations
- Tri-Generation Systems
- 10. Financial Analysis
- Introduction
- Simple Payback Period
- Return on Investment
- Cash Flow Analysis
- Time Value of Money
- Net Present Value
- Discounting Rate
- Discounted Payback Period
- Internal Rate of Return
- Sensitivity Analysis
- Life Cycle Cost
- A. Bibliography.