Transcript Batteries

BATTERIES
of
Renewable energy systems
If one was to perceive a renewable energy system as a
living organism, the "battery" would be the "heart" of the
RE organism. – Mayflower Trading Company
By Jess, Michael & Emily
Cells…
• Most batteries have a number
of cells
• a car battery is 12 volts, and is
supplied as one unit
(monoblock)
standalone power systems
-battery banks are supplied as:
12V, 24V, 48V or 120V
-batteries can be supplied as a
monoblock (12V or 6V) but are
generally supplied as
individual 2V cells.
-A 12V battery bank will consist
of 6 x 2V cells etc.
2 main types
• Lead-acid batteries = most common in
renewable energy systems
- The electrolyte is Sulfuric Acid
- Positive and Negative lead plates
• Nickel-cadmium = less common, last
longer and are much more expensive
Advice
• Increasing the size of a PV array is simple; adding
more batteries later is entirely different.
- The voltage response of any battery has a
direct relationship to its age.
- adding more batteries to a system later will
only allow the system to perform as well as its
worst cell
• The “weakest link” in any “alternative energy”
system is the inadequate sizing of the battery bank
design. In the case of the battery, “bigger is always
better”.
• In all cases, use only true "deep-cycle" batteries.
(Mayflower Trading Company)
Lead-Acid Type
• Shallow vs. Deep Cycle
– Shallow cycle batteries discharge 10%-15% of capacity
– Deep cycle batteries discharge up to 50% of capacity
• Flooded
– “Wet Battery”
– More maintenance intensive
– Less expensive
• Valve regulated
– Completely contained gel electrolyte
– Maintenance free!
Installation
• Ventilation
– Produces H2 and O2
• Out of sunlight
• Off of cold ground
• Catch spilled fluid in drip
tray
• Must be clear of
electronics or potential
sparks
Other Notes
• Batteries are less than perfect containers for storing
the energy of our power systems. For every 1.0 amphour you remove from the batteries, it is necessary
to pump about 1.25 amp-hours back in, to bring the
battery back to the same state of charge. This figure
varies with temperature, battery type, and age, but is
a good rule of thumb by which to calculate
approximate battery efficiency.
• The performance you will get from your batteries
will vary with location, climate, and usage patterns.
Battery Life and Performance
• 15-20 years
• Temperature affected
• Depth of Discharge
affects lifespan
• Usage affects life
span
– Constant small load
vs. instantaneous large
load
Typical Cost
• Good quality 12V
battery banks will cost
from $1000 to $3000.
• A 24V bank will cost
from $2000 to $6000.
• More money = more
capacity.
Suppliers/More Information
• DEKA
– http://www.mrsolar.com/pdf/deka/epm0946.pdf
• Real Goods, Batteries: Questions and Answers
– http://www.solareco.com/articles/article.cfm?id=44
• Global Sustainable Energy Solutions Battery
reference page
– http://www.greenhouse.gov.au/yourhome/technical/pdf/fs410.
pdf