Difference between revisions of "Energy Sources for Maintaining Battery Charging Systems (BCS)"

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'''Grid electricity '''is probably the cheapest of all available energy sources on a per-unit basis. In remote areas, however, the cost of connection may considerably exceed the cost of meeting local needs through systems based on renewable energy technologies (RET) .
 
  
Using available '''hydro power '''potential to charge batteries seems to be a possibility to supply energy at lowest costs in remote areas. For a brief overview please go [http://energypedia.info/index.php/Hydro_battery_charging_station here]. This solution, however, is only applicable under restricted local conditions (i. e. existence of hydro power potential).
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= Overview <br/> =
  
For detailed information please go to: [http://energypedia.info/index.php?title=File:Design_mhp_battery_charging_station_part1.pdf&page=1 MHP battery charging station - part 1], [http://energypedia.info/index.php?title=File:Design_mhp_battery_charging_station_part2.pdf&page=1 part 2], [http://energypedia.info/index.php?title=File:Design_mhp_battery_charging_station_part3.pdf&page=1 part 3].
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[[Battery_Charging_Systems_(BCS)|Battery Charging Systems (BCS)]]
  
If hydro power is not available, '''wind energy '''can be cheaper than using photovoltaics or diesel generator sets, particularly if the fuel supply is far from the user. However, a steady wind regime is required.
 
  
'''Solar''' battery charging (PV) is one comfortable but also expensive possibility to charge the battery direct in the house of the consumer.
 
  
For detailed information about Solar Battery Charging Stations in Mali please go [http://energypedia.info/index.php/Solar_Battery_Charging_Stations here].
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= Costs<br/> =
  
'''Hybrid systems''' of different of the abovementioned energy sources for electricity generation in BCS are equally possible and might be a good solution for places where no steady wind regime or water flow can be garantueed.
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== Grid Electricity<br/> ==
  
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[[Portal:Grid|Grid]] electricity is probably the cheapest of all available energy sources on a per-unit basis. In remote areas, however, the cost of connection may considerably exceed the cost of meeting local needs through systems based on '''renewable energy technologies (RET)'''.
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► For further information about grid click [[Portal:Grid|here: Grid Portal on energypedia]].
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== Hydro Power<br/> ==
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Using available [[Hydro Power Basics|hydro power]] potential to charge batteries seems to be a possibility to supply energy at lowest costs in remote areas.
 +
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► Brief overview about [[Hydro_Battery_Charging_Station|Hydro Battery Charging Station]]
 +
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This solution, however, is only applicable under restricted local conditions (i. e. existence of hydro power potential).
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== Photovoltaics ==
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[[Solar Battery Charging Stations|Solar battery charging]] is a convenient possibility to charge batteries direct in the house of the consumer or to charge batteries at a central location in a village or community. PV panels come in all sizes implyingany system can be properly dimensioned. Apart from cleaning in order to ensure maximum cvapacity is available, PV panels hardly require any maintenance.Production costs have gone down considerably over the last years and at presentPV panels can be bought arount € 1 / Wp<br/>
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► Detailed information about [[Solar_Battery_Charging_Stations#Example_.22Energising_Development.22_Mali|Solar Battery Charging Stations in Mali]] <br/>
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<br/>
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== Wind Energy<br/> ==
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If hydro power is not available, [[Wind_Energy_-_Introduction|wind energy]] can be cheaper than using solar or diesel generators, particularly if the fuel supply is far from the user. However, a steady wind regime is required.
 +
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<br/>
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== Hybrid Systems<br/> ==
 +
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Hybrid systems of different of the abovementioned energy sources for electricity generation in BCS are equally possible and might be a good solution for places where no steady wind regime or water flow can be garantueed.
 +
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<br/>
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= Further Information =
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*[[:Category:Battery Charging Systems|Battery Charging Systems]]
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*[[Hydro Battery Charging Station|Hydro Battery Charging Station]]<br/>
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*[[Solar Battery Charging Stations|Solar Battery Charging Stations]]<br/>
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<br/>
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= References<br/> =
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<references />
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[[Category:Hydro]]
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[[Category:Hybrid_Systems]]
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[[Category:Grid]]
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[[Category:Wind]]
 
[[Category:Battery_Charging_Systems]]
 
[[Category:Battery_Charging_Systems]]

Latest revision as of 06:37, 11 November 2014

Overview

Battery Charging Systems (BCS)


Costs

Grid Electricity

Grid electricity is probably the cheapest of all available energy sources on a per-unit basis. In remote areas, however, the cost of connection may considerably exceed the cost of meeting local needs through systems based on renewable energy technologies (RET).

► For further information about grid click here: Grid Portal on energypedia.


Hydro Power

Using available hydro power potential to charge batteries seems to be a possibility to supply energy at lowest costs in remote areas.

► Brief overview about Hydro Battery Charging Station

This solution, however, is only applicable under restricted local conditions (i. e. existence of hydro power potential).


Photovoltaics

Solar battery charging is a convenient possibility to charge batteries direct in the house of the consumer or to charge batteries at a central location in a village or community. PV panels come in all sizes implyingany system can be properly dimensioned. Apart from cleaning in order to ensure maximum cvapacity is available, PV panels hardly require any maintenance.Production costs have gone down considerably over the last years and at presentPV panels can be bought arount € 1 / Wp

► Detailed information about Solar Battery Charging Stations in Mali


Wind Energy

If hydro power is not available, wind energy can be cheaper than using solar or diesel generators, particularly if the fuel supply is far from the user. However, a steady wind regime is required.


Hybrid Systems

Hybrid systems of different of the abovementioned energy sources for electricity generation in BCS are equally possible and might be a good solution for places where no steady wind regime or water flow can be garantueed.


Further Information


References