Low Temperature Energy Systems with Applications of Renewable Energy 1st edition by Andriy Redko, Oleksandr Redko, Ronald DiPippo ISBN 0128166024 9780128166024
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Product details:
ISBN 10: 0128166024
ISBN 13: 9780128166024
Author: Andriy Redko, Oleksandr Redko, Ronald DiPippo
Low-Temperature Energy Systems with Applications of Renewable Energy investigates a wide variety of low-temperature energy applications in residential, commercial, institutional, and industrial areas. It addresses the basic principles that form the groundwork for more efficient energy conversion processes and includes detailed practical methods for carrying out these critical processes.
This work considers new directions in the engineering use of technical thermodynamics and energy, including more in-depth studies of the use of renewable sources, and includes worked numerical examples, review questions, and practice problems to allow readers to test their own comprehension of the material.
With detailed explanations, methods, models, and algorithms, Low-Temperature Energy Systems with Applications of Renewable Energy is a valuable reference for engineers and scientists in the field of renewable energy, as well as energy researchers and academics.
- Features end-of chapter review sections with questions and exercises for practical study and utilization.
- Presents methods for a great variety of energy applications to improve their energy operations.
- Applies real-world data to demonstrate the impact of low-temperature energy systems on renewable energy use today.
Low Temperature Energy Systems with Applications of Renewable Energy 1st Table of contents:
Acknowledgments
1. Principles and operation of refrigeration and heat pump systems
1.1. Trends in usage of low-temperature technologies
1.2. Worldwide energy saving policies
1.3. Fundamentals of energy management and audit of refrigeration and heat pump facilities
1.4. Energy-saving cooling and heat pump systems
1.5. Efficiency of heat pump and refrigeration systems
Example 1 – Basic vapor-compression heat pump
Example 2 – Basic vapor-compression refrigerator
Example 3 – Exergy analysis of basic vapor-compression heat pump
1.6. Working fluids for refrigeration and heat pumps systems
1.7. Operating modes of heat pumps
1.8. Accumulation and transport of low-temperature energy
1.9. Summary
Nomenclature
Greek letters
Subscripts
Review questions
Exercises
2. Characteristics of low-temperature energy sources for heat pumps
2.1. Ambient air usage in space conditioning
2.2. Building and construction ventilation air
2.3. Natural water as a source of energy
2.4. Industrial water as an energy source for heat pumps
2.5. Use of soil heat
2.6. Optimal usage of low-temperature heat sources
2.7. Summary
Nomenclature
Review questions
Example: sizing a European residential ground-source heat pump
Exercises
3. Effective use of heat pumps for various heating applications
3.1. Heat pumps in individual and multi-family residences
3.2. Heat pumps for indoor and outdoor pools
3.3. Heat pumps for heating buildings and public premises
3.4. Water-loop heat pump systems
3.5. Heat pumps in district heating systems
3.6. Summary
Nomenclature
Review questions
Exercises
4. Heat pumps in the drying industry
4.1. Introduction and overview of drying using heat pumps
4.2. Experience with heat pumps for various drying applications
4.3. Grain drying with heat pumps
4.4. Wood drying with heat pumps
4.5. Summary
Nomenclature
Greek letters
Subscripts
Review questions
Example
Exercise
5. Heating with geothermal systems
5.1. Geothermal direct heat usage: International experience
5.2. Modern technology, geothermal field development, and geothermal heating systems
5.3. Geothermal district heating systems
5.4. Geothermal heated greenhouses
5.5. Geothermal aquaculture
5.6. Heating circuits with single- and two-stage heat pump systems
5.7. Summary
Nomenclature
Greek letters
Subscripts
Review questions
Exercises
6. Geothermal energy in combined heat and power systems
6.1. Introduction to geothermal CHP systems
6.2. Generic CHP system: thermo-economic analysis
6.3. Cycle choices for geothermal CHP plant
6.4. Working fluid selection criteria in CHP stations
6.5. Optimization of geothermal CHP cycles
6.6. Case studies
6.7. Summary
Nomenclature
Subscripts
Review questions
Exercises
7. Biofuels conversion: energy-saving processes and use of biogas
7.1. World usage and basic processes of bioconversion technology
7.2. Technical description of bioreactor processes
7.3. Energy-saving systems for biogas-producing plants
7.4. Bioreactor calculations
7.5. Efficiency of biofuel usage in energy supply systems
7.6. Systems for heat supply using thermochemical organic wastes
7.7. Pyrolysis boiler systems
7.8. Summary
Nomenclature
Greek letters
Subscripts
Review questions
Exercises
8. Hybrid systems with renewable energy sources
8.1. Solar electric power stations: A brief overview with examples
8.2. Solar thermal heating systems
8.3. Solar assisted heat pumps in heating systems
8.4. Combined geothermal and heat pump heating systems
8.5. Solar and geothermal energy hybrid power systems
8.6. Biomass and geothermal energy hybrid power systems
8.7. Optimum operating conditions for hybrid fuel-geothermal heat pump
8.8. Summary
Nomenclature
Review questions
Example
Exercises
9. Industrial waste heat resources
9.1. Overview of industrial waste energy utilization
9.2. Quantitative measures of waste heat outputs
9.3. Waste energy recovery methods
9.4. Power generation technologies using waste heat
9.5. Summary
Nomenclature
Review questions
Exercises
Index
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Tags: Andriy Redko, Oleksandr Redko, Ronald DiPippo, Low Temperature, Energy Systems