ABSTRACT
In making a choice of solar Photovoltaic or diesel generator system as an alternative for power
generation, life cycle costs (LCC) analysis are considered to be potentially important to such a
decision. It incorporates all costs arising from owning, operating, maintaining and ultimately
disposing of a project. In this study, a software computer program is developed to determine life
cycle cost of solar Photovoltaic and diesel generator systems in Nigeria. The software is
developed through an approach involving load determination, energy resources determination,
system sizing and a typical residential building. Depending on the user’s needs, selected
location, material and criteria, the result of the software will show cost difference between solar
Photovoltaic and diesel generator power systems as well as cost variation in different designers’
specifications for either of the systems. This study adopts a process of requirements engineering,
(RE), to complement object oriented (OO) modeling using the Unified Modeling Language,
(UML). The RE process generates structured layers of textual requirements at each level of
development and is supported by the UML. It incorporates use case diagram and activity
diagrams as the unified modeling language tool. The Key methodology adopted for providing a
structured approach to the UML is evolutionary prototyping which focuses on vertical dimension
approach. Using the vertical dimension in the evolutionary prototyping, the study, presents a
logical detail of the data processing function of the system. All the coding used to develop the
software is done in python programming language. The code developed in this study is tested by
comparing cost of Solar PV and diesel generator, using specific load description of a household,
located in Amawbia, Awka of Anambra state. Results of the test show that solar PV system is cost
effective compared to diesel generator over a period of 30 years.Though the capital cost for the
PV system is high (42.276% of total LCC) as compared to the capital cost of the diesel generator
(0.88% of LCC), the cost of diesel and maintenance of the generator over the system study life is
very high (75% of the total LCC cost and 19.08% of LCC respectively) compared to its solar PV
counterpart (zero cost of energy and 11.576% of LCC respectively).
CHARLES, M (2021). Development Of Software For Life Cycle Cost Analysis Of Solar Photovoltaic And Diesel Generator Systems In Nigeria. Afribary. Retrieved from https://tracking.afribary.com/works/development-of-software-for-life-cycle-cost-analysis-of-solar-photovoltaic-and-diesel-generator-systems-in-nigeria
CHARLES, MBAH "Development Of Software For Life Cycle Cost Analysis Of Solar Photovoltaic And Diesel Generator Systems In Nigeria" Afribary. Afribary, 02 May. 2021, https://tracking.afribary.com/works/development-of-software-for-life-cycle-cost-analysis-of-solar-photovoltaic-and-diesel-generator-systems-in-nigeria. Accessed 26 Nov. 2024.
CHARLES, MBAH . "Development Of Software For Life Cycle Cost Analysis Of Solar Photovoltaic And Diesel Generator Systems In Nigeria". Afribary, Afribary, 02 May. 2021. Web. 26 Nov. 2024. < https://tracking.afribary.com/works/development-of-software-for-life-cycle-cost-analysis-of-solar-photovoltaic-and-diesel-generator-systems-in-nigeria >.
CHARLES, MBAH . "Development Of Software For Life Cycle Cost Analysis Of Solar Photovoltaic And Diesel Generator Systems In Nigeria" Afribary (2021). Accessed November 26, 2024. https://tracking.afribary.com/works/development-of-software-for-life-cycle-cost-analysis-of-solar-photovoltaic-and-diesel-generator-systems-in-nigeria