2. CONTENT
1. Introduction
2. Working
3. Types Of Heat Storing Sand Battery
4. Charging And Discharging Of Heat-storing Sand Batteries
5. Material Used In Heat-storing Sand Batteries Points
6. Application Of Heat-storing Sand Batteries
7. Comparison To Other Energy Storage Technologies
8. Conclusion
9. Reference
3. INTRODUCTION
Heat storing sand batteries are a type of renewable energy
storage technology that utilizes the heat capacity of sand
to store and release thermal energy.
These batteries work by heating a volume of sand to a
high temperature using excess renewable energy, such as
from solar or wind power
4. WORKING
Heat-storing sand batteries store thermal energy in sand,
which can then be used to generate electricity.
The batteries consist of two tanks of sand, one at a high
temperature and one at a low temperature, connected by
pipes containing a heat transfer fluid.
When the battery is charged, the heat transfer fluid is
pumped through the pipes from the hot sand tank to the
cold sand tank, transferring thermal energy from the hot
sand to the cold sand.
The stored thermal energy can be used to generate
electricity by transferring the heat to a heat engine, which
in turn drives a generator to produce electricity
7. Charging and Discharging of Heat-Storing Sand
Batteries
Charging Process
Heat is transferred to the sand to store thermal energy
Sand temperature increases until a threshold is reached, at
which point the energy is fully stored
Charging times can vary depending on the type of sand
battery and the temperature of the heat source
8. Discharging Process
● When thermal energy is needed, the sand is exposed to a
heat sink or other device that can extract the heat
● The temperature of the sand drops and the stored energy is
released as heat
● Discharging times can vary depending on the type of sand
battery and the temperature of the heat sink
9. Material used in heat-storing sand batteries points
Sand
Heat transfer fluid
Enclosure material
Electrode and current collectors
10. Application of heat-storing sand batteries
Renewable energy storage
Heating and cooling
Industrial application
Emergency backup power
11. Comparison to Other Energy Storage Technologies
Lithium-ion Batteries
Lithium-ion batteries are widely used for energy storage,
but they have limited energy density and can be expensive
Pumped hydro storage
Pumped hydro storage is a mature and widely-used
technology for large-scale energy storage
However, it requires specific geological features and can b
expensive to build and maintain
12. Comparison to Other Energy Storage Technologies
Flywheels
Flywheels are a technology that stores energy by spinning
a rotor at high speed
They are capable of very rapid charging and discharging.
but can be expensive and have limited energy storage
capacity
Thermal Energy Storage
Thermal energy storage systems store energy in the form
of heat, usually by heating a fluid or material to a high
temperature
They are often used in conjunction with solar thermal
systems or waste heat recovery systems
13. CONCLUSION
Heat-storing sand batteries are a promising technology for
energy storage, with the potential to store large amounts of
energy at a low cost
They can be used in a range of applications, such as
renewable energy storage, building heating and cooling,
and industrial process heat
However, there are still challenges to be addressed, such
as improving efficiency, reducing maintenance
requirements, and integrating with existing energy
systems
14. CONCLUSION
Research and development efforts are ongoing, and many
companies and organizations are investing in this
technology
With further innovation and progress heat-storing sand
batteries may become a key component of a more
sustainable and resilient energy system in the future
15. REFERANCE
Gabriela, Seasonal Sensible Thermal Energy Storage
Solutions, 1st ed. Technical University of Cluj-Napoco, 2017,
p.49. http://lejpt.academicdirect.org/A19/049_068.pd f
S. Kalaiselvam and R. Parameshwaran, Thermal Energy
Storage Technologies for Sustainability, 1st ed. Elsevier, 2017,
pp. 1-64. https://www.elsevier.com/books/thermal-
energystorage-technologies for sustainability/kalaiselvam/978-
0-12-417291-3
"Energy in the UAE / UAE Embassy in Washington, DC, Uae-
embossy.org, 2017.[Online]. Available: http://www.ude-
embassy.org/about-uae/energy-upe. (Accessed: 08-Apr-2017].
O. Atoer, STORAGE OF THERMAL ENERGY, 1st ed.
Ankara: Gazi University, 2006