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Explanatory Notes
Instructions
Anotation:
After a brief introduction to chemical reactions commonly present in electrochemical sources, the technologies and manufacturing of commonplace accumulator batteries and primary cells are discussed in detail. In the course, there is presented the current state of the field of batteries for different types of applications - electromobility, stationary backup systems and energetics. Emphasis is also placed on the trends in simultaneously using of battery storage for balancing network characteristics, especially in combination with the RES.
Study targets:
A student are well-educated of properties of fundamental type of the eleectrochemical sources, theit application at realization of electronic circuits, technology of realization accumulator systems and methods of actuating of electronic equipment
Course outlines:
1. | | Basic chemical and electrochemical reactions in the field of electrochemical sources |
2. | | Methods for energy storage, basic notions and quantities |
3. | | Primary cells, properties, utilization |
4. | | Lead accumulators - types, construction, parameters and utilization |
5. | | Alkaline accumulators NiCd, NiMH, construction, characteristics, utilization |
6. | | Lithium accumulators Li-ion, Li-pol, power applications |
7. | | Large volume electrolytic batteries - redox systems |
8. | | Safety rules for handling with rechargeable batteries, risks, measurement and diagnostics. |
9. | | BMS, accupack, utilization of accumulators in consumer electronics |
10. | | Utilization of rechargeable batteries for independent traction |
11. | | Stationary applications (UPS systems), cooperation of UPS with related systems |
12. | | Hybrid systems using electrochemical methods for energy storage |
13. | | Environmental and economical aspects of the use of rechargeable batteries |
14. | | Perspective technologies and future utilization of electrochemical sources |
Exercises outline:
1. | | Course organization, safety in the laboratory |
2. | | Metals electrochemical potentials |
3. | | Basics of electrochemical sources simulation |
4. | | Discharging characteristics of primary cells |
5. | | Charging characteristics of accumulators - Pb, Li-ion, LiFePo4 |
6. | | Charging characteristics of accumulators - NiCd, NiMh |
7. | | Discharging characteristics of accumulators |
8. | | Measurement of internal resistance of accumulators |
9. | | Measurement of temperature rise of rechargeable battery, temperature distribution - thermography |
10. | | Measurement of BMS behaviour |
11. | | Micro-cycling and energy recuperation in independant traction |
12. | | Measurement of basic characteristics of UPS systems |
13. | | Energy flows in photovoltaic off-grid systém |
14. | | Course-credit |
Literature:
[1] | | Cetl, T.: Aplikace elektrochemických zdrojů, skriptum ČVUT, 2004 |
[2] | | Battery university, dostupné online z http://batteryuniversity.com |
[3] | | Linden's handbook of batteries / Thomas B. Reddy, 4th ed. New York : McGraw-Hill, 2011. |
Requirements:
A student has to obtain a credit before an examination
Keywords:
Electrochemical sources, secundary cells, accumulators, UPS
Subject is included into these academic programs:
Page updated 10.12.2024 15:51:35, semester: L/2024-5, Z/2025-6, Z/2024-5, Send comments about the content to the Administrators of the Academic Programs |
Proposal and Realization: I. Halaška (K336), J. Novák (K336) |