Exergy: Energy, Environment and Sustainable DevelopmentElsevier, 2007. szept. 18. - 472 oldal This book deals with exergy and its applications to various energy systems and applications as a potential tool for design, analysis and optimization, and its role in minimizing and/or eliminating environmental impacts and providing sustainable development. In this regard, several key topics ranging from the basics of the thermodynamic concepts to advanced exergy analysis techniques in a wide range of applications are covered as outlined in the contents. - Comprehensive coverage of exergy and its applications- Connects exergy with three essential areas in terms of energy, environment and sustainable development- Presents the most up-to-date information in the area with recent developments- Provides a number of illustrative examples, practical applications, and case studies - Easy to follow style, starting from the basics to the advanced systems |
Részletek a könyvből
1 - 5 találat összesen 85 találatból.
xi. oldal
... cooling system 6.3.1. Introduction 6.3.2. Operation and design of experimental system 6.3.3. Energy analysis 6.3.4. Exergy analysis 6.3.5. Results and discussion 6.4. Closing remarks Problems EXERGY ANALYSIS OF HEAT PUMP SYSTEMS 7.1 ...
... cooling system 6.3.1. Introduction 6.3.2. Operation and design of experimental system 6.3.3. Energy analysis 6.3.4. Exergy analysis 6.3.5. Results and discussion 6.4. Closing remarks Problems EXERGY ANALYSIS OF HEAT PUMP SYSTEMS 7.1 ...
2. oldal
... cooling effect in the region being cooled. These are only some of the numerous engineering applications. Thermodynamics is relevant to a much wider range of processes and applications not only in engineering, but also in science. A good ...
... cooling effect in the region being cooled. These are only some of the numerous engineering applications. Thermodynamics is relevant to a much wider range of processes and applications not only in engineering, but also in science. A good ...
5. oldal
... cooling water may be directed to a drain after being used for a cooling application, even though some thermal energy remains in the water. The economics of recovering this heat needs to be investigated to determine if it is worth ...
... cooling water may be directed to a drain after being used for a cooling application, even though some thermal energy remains in the water. The economics of recovering this heat needs to be investigated to determine if it is worth ...
9. oldal
... cooling water. The important temperature difference is thus the difference in temperature between the incoming steam, usually about 700◦C, and the water in the condenser, which is typically between environmental conditions (around 0–25 ...
... cooling water. The important temperature difference is thus the difference in temperature between the incoming steam, usually about 700◦C, and the water in the condenser, which is typically between environmental conditions (around 0–25 ...
13. oldal
... cooling capacity can be stored from one season where it is available in the environment to another season when it is unavailable but in demand. 1.4.5. Exergy vs. energy Energy analysis is the traditional method of assessing the way ...
... cooling capacity can be stored from one season where it is available in the environment to another season when it is unavailable but in demand. 1.4.5. Exergy vs. energy Energy analysis is the traditional method of assessing the way ...
Tartalomjegyzék
1 | |
23 | |
36 | |
60 | |
68 | |
76 | |
CHAPTER 7 EXERGY ANALYSIS OF HEAT PUMP SYSTEMS | 91 |
CHAPTER 8 EXERGY ANALYSIS OF DRYING PROCESSES AND SYSTEMS | 103 |
CHAPTER 15 EXERGY ANALYSIS OF FUEL CELL SYSTEMS | 303 |
CHAPTER 16 EXERGY ANALYSIS OF AIRCRAFT FLIGHT SYSTEMS | 325 |
CHAPTER 17 EXERGOECONOMIC ANALYSIS OF THERMAL SYSTEMS | 335 |
CHAPTER 18 EXERGY ANALYSIS OF COUNTRIES REGIONS AND ECONOMIC SECTORS | 363 |
CHAPTER 19 EXERGETIC LIFE CYCLE ASSESSMENT | 397 |
CHAPTER 20 EXERGY AND INDUSTRIAL ECOLOGY | 417 |
CHAPTER 21 CLOSING REMARKS AND FUTURE EXPECTATIONS | 424 |
NOMENCLATURE | 426 |
CHAPTER 9 EXERGY ANALYSIS OF THERMAL ENERGY STORAGE SYSTEMS | 127 |
CHAPTER 10 EXERGY ANALYSIS OF RENEWABLE ENERGY SYSTEMS | 163 |
CHAPTER 11 EXERGY ANALYSIS OF STEAM POWER PLANTS | 229 |
CHAPTER 12 EXERGY ANALYSIS OF COGENERATION AND DISTRICT ENERGY SYSTEMS | 257 |
CHAPTER 13 EXERGY ANALYSIS OF CRYOGENIC SYSTEMS | 277 |
CHAPTER 14 EXERGY ANALYSIS OF CRUDE OIL DISTILLATION SYSTEMS | 290 |
REFERENCES | 429 |
GLOSSARY OF SELECTED TERMINOLOGY | 440 |
CONVERSION FACTORS | 443 |
THERMOPHYSICAL PROPERTIES | 445 |
INDEX | 451 |
Gyakori szavak és kifejezések
absorption chillers chemical exergy chiller cogeneration combustion components compressor condenser considered cooling cost crude oil cycle decreases denotes devices Dincer district heating drying air economic electricity emissions energy and exergy energy resources engine enthalpy entropy environmental impact evaluated evaporation exergetic exergy analysis exergy balance exergy consumption exergy destruction exergy efficiency exergy flow exergy input exergy loss exergy methods fluid fluidization fossil fuel fuel cell geothermal heat exchanger heat pump heat transfer hydrogen improve increase industrial inlet irreversibility kJ/kg liquefaction mass flow rate methane natural gas operating output parameters performance potential power plant preheater pressure quantity ratio reducing reference environment reference-environment refrigeration renewable energy Rosen sector SOFC stack solar pond solar radiation station steam storage sustainable development Table technologies temperature thermal energy thermodynamic total exergy utilization waste wind energy wind speed wind turbine zone
Népszerű szakaszok
45. oldal - It contains within it two key concepts: • the concept of 'needs', in particular the essential needs of the world's poor, to which overriding priority should be given; and • the idea of limitations imposed by the state of technology and social organization on the environment's ability to meet present and future needs.
91. oldal - Further features of the superfluid state are the thermomechanical effects and the phenomenon of "second sound." The former effects, which were found by Allen and Harry Jones (1938) and by Daunt and Mendelssohn (1939), involve the spontaneous flow of superfluid from a region of low temperature to a region of higher temperature and conversely the development of a temperature gradient whenever there is a spontaneous flow of superfluid. These effects were explained by Laslo Tisza ( 1938) and by Heinz...
17. oldal - Q/7~at that location, and the direction of entropy transfer is the same as the direction of heat transfer. To determine the rate of total entropy generation during this heat transfer process, we extend the system to include the regions on both sides of the wall that experience a temperature change. Then one side of the system boundary becomes room temperature while the other side becomes the temperature of the outdoors.
157. oldal - Ta are the charging and discharging outlet temperatures of the heat transfer fluid, respectively. The subscripts 1 , 2 and 3 indicate the temperature of the storage fluid at the beginning of charging, storing or discharging, respectively. Also, t indicates the liquid state and s indicates the solid state for the storage fluid at the phase-change temperature. In addition, for all cases, the inlet temperatures are fixed for the charging-fluid flow at Ta = -10°C and for the discharging-fluid flow at...
45. oldal - UN Conference on Environment and Development in Rio de Janeiro in 1992, the...
91. oldal - The heat pump principle was discovered before the turn of the century as the basis of all refrigeration. The principle of using a heat engine in a reverse mode as a heat pump was proposed by Lord Kelvin in the nineteenth century, but it was only in the twentieth century that practical machines came into common use, mainly for refrigeration. Beginning in the 1970s, air-source heat pumps came into common use. They have the advantage of being...
47. oldal - It can also be expressed in the simple terms of an economic golden rule for the restorative economy: Leave the world better than you found it, take no more than you need, try not to harm life or the environment, make amends if you do.
76. oldal - This is defined as the ratio of the mole fraction of water vapor in the mixture to the mole fraction of water vapor in a...
304. oldal - they are the primary candidates for light-duty vehicles, for buildings, and potentially for much smaller applications such as replacements for rechargeable batteries." The proton exchange membrane is a thin plastic sheet that allows hydrogen ions to pass through it. The membrane is coated on both sides with highly dispersed metal alloy particles (mostly platinum) that are active catalysts. Hydrogen is fed to the anode side of the fuel cell where the catalyst helps the hydrogen atoms to release electrons...
v. oldal - ... the environment. Exergy analysis is a method that uses the conservation of mass and conservation of energy principles together with the SLT for the design and analysis of refrigeration systems and applications. The exergy method can be suitable for furthering the goal of more efficient energy-resource use, for it enables the locations, types, and true magnitudes of wastes and losses to be determined. Therefore, exergy analysis can...