Simulation of off-grid generation options for remote villages in Cameroon E. M. NFAH a,[1], J.M....
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![Page 1: Simulation of off-grid generation options for remote villages in Cameroon E. M. NFAH a,[1], J.M. NGUNDAM b, M. Vandenbergh c, J. Schmid c[1] a I.U.T. Fotso.](https://reader035.fdocuments.in/reader035/viewer/2022062713/56649cce5503460f94999bb5/html5/thumbnails/1.jpg)
Simulation of off-grid generation options for remote villages in Cameroon
E. M. NFAH a,[1], J.M. NGUNDAM b, M. Vandenbergh c , J. Schmid ca I.U.T. Fotso Victor, P.O. Box 134, Bandjoun, University of Dschang, Cameroon.b School of Engineering, P.O. Box 8390, University of Yaoundé I, Cameroonc ISET e.V., Königstor 59, D-34119, Kassel, Germany.
[1] Corresponding author. Tel. : +237-539-0043; fax : +237-344-2449; e-mail: [email protected]
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PLAN Energy crisis in Cameroon Remote Area Power Supply (RAPS) systems AC-bus Configuration Simulated Off-grid Options Simulation Data Results Conclusion
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Energy crisis in Cameroon
In spite of the huge hydroelectric potential of Cameroon, severe power cuts in recent years have a heavy toll on the country’s economy.
Customers supplied by low voltage networks suffer most due to their low energy demands.
The local power authority and government have embarked on hydrothermal expansion as a solution for grid connected areas.
Considering that existing power networks cover only 40% of the country and that the national access rate to electricity is barely 11%, many remote villages will remain without electricity for many years.
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Remote Area Power Supply Systems
The energy needs of most remote villages and rural enterprises can be met with off-grid RAPS systems.
In most cases, local generation of electricity from solar energy (3-6 kWh/m²/day), wind energy (5-10 m/s), pico hydro resources and/or fuel generators is often more economical than grid extension.
The components of RAPS systems can be sized with HOMER if the daily village load, power system component sizes and costs are specified as well as other relevant parameters.
The RAPS system model used in this simulation is based on the European AC-bus (single- or three- phase) configuration currently used in 100 systems.
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Simulated off-grid options pico hydro/biogas generator/battery systems (S1) pico hydro/diesel generator/battery systems (S2) photovoltaic/biogas generator/battery systems (S3) photovoltaic/diesel generator/battery systems (S4) biogas generator/battery systems (S5) diesel generator/battery systems (S6) biogas generator systems (S7) diesel generator systems (S8)
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Simulation Data
Typical village power demand Typical pico hydro resource Typical solar resource Financial data
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Single phase power system model
PV Generator Diesel Generator
System loadsAC-Bus 230 V/1~
~~ ~
BatteryBattery
G
MLamp
ElectricalMachine
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3-phase power system model
PV module & string inverters Diesel Generator
System loadsAC-Bus 400 V/3~
Battery Bank
G
M
ElectricalMachine
~ ~ ~ ~ ~ ~
Lamp
Lamp
Lamp
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Typical village power demand
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Typical pico hydro resource
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Typical solar resource
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Financial Data
3kW AC PV generator capital costs: 15000€ 3.3kW bi-directional inverter: 2200€ 3kWh Exide OPzV battery: 1020€ O&M costs of battery: 51€/yr 5kW pico hydro capital costs: 20000€ Pico hydro replacement cost: 5500€ Pico hydro O&M : 500€/yr 15 petrol/biogas generator capital costs: 8610€ Petrol costs: 1€/l LPG costs: 0.7€/m³ Grid extension costs: 5000€/km Grid O&M costs: 125€/km Grid power price:0.1€/kWh Fuel generator lifetime: 30000 hrs Project lifetime: 25 years
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Results
168-hour load profile generated with HOMER with 5% hourly and daily noise.
Configuration of feasible off-grid generation options with a 40% increase in the cost of components imported from Europe.
Energy costs for off-grid options. Breakeven grid distances for off-grid options.
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168-hour load profile generated with HOMER
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Configurations for off-grid options
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Energy costs for off-grid options
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Breakeven grid distances for off-grid options
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Conclusion
PV/biogas/battery systems were found to be the most economical option for villages located in the northern parts of Cameroon with at least 6.21kWh/m²/day.
Pico hydro/biogas/battery systems were also found to be the cheapest option for villages in the southern parts of Cameroon with a hydro flow of at least 68l/s.
These options performed better than grid extension for distances greater than 33.5 and 9km respectively and their energy costs were computed as 0.527 and 0.215€/kWh respectively.
These options can be used in the Cameroon’s current energy plan for the provision of energy services to most remote villages located beyond 9 or 33.5km