WASCAL Scholar Collection:http://197.159.135.214/jspui/handle/123456789/312026-05-06T00:17:16Z2026-05-06T00:17:16ZA System Dynamics Model of the Nigerian Electricity SystemBabajide, ShariMoumouni, YacoubaAbiodun, MomoduAdamou, Rabanihttp://197.159.135.214/jspui/handle/123456789/4582022-12-16T15:36:59Z2020-01-01T00:00:00ZTitle: A System Dynamics Model of the Nigerian Electricity System
Authors: Babajide, Shari; Moumouni, Yacouba; Abiodun, Momodu; Adamou, Rabani
Abstract: —Policy guides decision. This paper examines policy in
the Nigerian Electric Power Sector (NEPS) to cut transmission
losses (TL) and improve capacity factor (CF) to 5% and 90%,
respectively. A System Dynamics (SD) model developed in
STELLA software package was employed to analyze this policy.
Secondary data were sourced from: a) National Control Centre
(NCC); b) Nigeria Electricity Regulatory Commission (NERC);
and c) National Bureau of Statistics (NBS). Two scenarios were
considered, the pre-privatized and improved scenarios. Results
showed that at TL of 5% and CF of 90% i) electricity outages
would be reduced by about 17.84% from 2010 to 2050; ii) over the
study period a capacity of 473 MW (about 94.6 MW/year) would
be fed back into the system; iii) transmission losses of 3,400 GWh
would have been curtailed by 2050; and iv) cutting down TL and
improving CF alone in NEPS will not totally curtail electricity
outages and deficiencies in NEPS. Therefore, the study
recommends that increasing generating capacity (MW) would go
a long way in curbing electricity deficiencies. Renewable energy
sources could be a better choice. Further studies are recommended
in this regard. It was proven by the study that a system dynamics
modelling approach is suitable for examining long-term behavior
and dynamic feedback in Nigeria’s electricity sector.
Description: Research Article2020-01-01T00:00:00ZA System Dynamic Model of a Distributed Generation for Energy Security in NiameyPouye, ModouMoumouni, Yacoubahttp://197.159.135.214/jspui/handle/123456789/4572022-12-16T15:37:56Z2020-01-01T00:00:00ZTitle: A System Dynamic Model of a Distributed Generation for Energy Security in Niamey
Authors: Pouye, Modou; Moumouni, Yacouba
Abstract: Economic development is based on a reliable and
cost effective energy supply. To sustain their economic growth,
emerging countries need a dependable Distributed Generation
(DG). DG is an efficient way to reach energy security by
minimizing power losses in long and aging transmission lines.
Due to the inherent complexity of electricity systems, this paper
proposes to use a System Dynamics (SD) modelling approach to
investigate the links between electricity supply and demand,
population growth, and real climatic parameters in Niamey,
Niger. Some of the variables utilized in this study were the local
solar radiation and wind speed. Results proved that: (1) the
current population will double in the horizon 2036 under the
actual birth and death rates; (2) the highest summer electricity
demand in the year 2015 was 217 MW; (3) electricity supply can
be far higher than demand by implementing a 50 MW Renewable
Energy Sources (RES) in conjunction with a 10 MW Energy
Storage System (ESS); and (4) through a sensitive analysis,
Niamey and neighboring vicinity would reach energy
independence from 2017 to 2055, and even beyond.
Description: Research Article2020-01-01T00:00:00ZA GIS Approach of Potential Photovoltaic Power Sites in Niamey, NigerLaouali, Ibrahim TanimouneMadougou, SaidouMohamed, MounkailaMoumouni, Yacoubahttp://197.159.135.214/jspui/handle/123456789/4562022-12-16T15:38:29Z2020-01-01T00:00:00ZTitle: A GIS Approach of Potential Photovoltaic Power Sites in Niamey, Niger
Authors: Laouali, Ibrahim Tanimoune; Madougou, Saidou; Mohamed, Mounkaila; Moumouni, Yacouba
Abstract: Nowadays, the daily conversations at summits
and conferences are mainly about energy, climate change,
and environmental issues. Fossil fuels are the main causes
of global warming due to the release of greenhouse gases
(GHG) into the atmosphere, leading to a change in the
climate. Niger, as an emerging nation, has significant
energy potential that is weakly exploited due to socioeconomic factors. Multi-criteria analysis and satellite
imagery were utilized to generate the potential
photovoltaic (PV) energy maps. Three sites were selected
as the most suitable places: 1) Site A with 22.5% or
12.154km2
; Site B with 53.33% or 28.82 km2
; and Site C
with 10.23% or 5.53 km2
. The average annual energy
potential of the selected sites was found to be 45.13 GWh.
This energy potential was based on the: 1) calculated
average annual solar radiation per unit surface area; 2)
total suitable areas; and 3) efficiency of the PV panels.
Description: Research Article2020-01-01T00:00:00ZAssessment of Different Sands Potentiality to Formulate an Effective Thermal Energy Storage Material (TESM)Boubou, BagreKolawole, Muritala IbrahimMakinta, BoukarTizane, DahoJacques, NebieAdamou, RabaniAntoine, Berehttp://197.159.135.214/jspui/handle/123456789/4552022-12-16T15:39:14Z2020-01-01T00:00:00ZTitle: Assessment of Different Sands Potentiality to Formulate an Effective Thermal Energy Storage Material (TESM)
Authors: Boubou, Bagre; Kolawole, Muritala Ibrahim; Makinta, Boukar; Tizane, Daho; Jacques, Nebie; Adamou, Rabani; Antoine, Bere
Description: Research Article2020-01-01T00:00:00Z