Authors :
Onawumi Ayodele Samuel; Akinrinade Nathaniel Abidemi; Olojede, Moses Abiodun;Ajayeoba Abiola Olufemi; Sanyaolu Olufemi Oluseun
Volume/Issue :
Volume 7 - 2022, Issue 12 - December
Google Scholar :
https://bit.ly/3IIfn9N
Scribd :
https://bit.ly/3jZXjkG
DOI :
https://doi.org/10.5281/zenodo.7514475
Abstract :
Detailed technical feasibility study can be
achieved with effective process design of a product or
system. The tool has the capacity of enhancing the
profitability as well as improving the productivity in the
arears of design, construction/fabrication of equipment,
engineering facilities or devices to specification and
standards. This study aimed at the development of
engineering process design for a dual axes solar power
generating system. The method analyses the process
design concept used in the production which involves:
process selection, operation determination, and product
design and analysis. The results obtained revealed that the
dual-axes solar power generating system has twenty-two
(22) parts assembled together in ten (10) identified major
assemblies, out of which thirteen could be fabricated in
the local workshop, while are to be procured as specified
from the market. The study presents a viable, and
economically feasible techniques for the manufacture of
the dual-axes solar power generating system.
Keywords :
Design Process, Product Analysis, Process Selection, Product Determination, Dual Axes Solar Power System, Components
Detailed technical feasibility study can be
achieved with effective process design of a product or
system. The tool has the capacity of enhancing the
profitability as well as improving the productivity in the
arears of design, construction/fabrication of equipment,
engineering facilities or devices to specification and
standards. This study aimed at the development of
engineering process design for a dual axes solar power
generating system. The method analyses the process
design concept used in the production which involves:
process selection, operation determination, and product
design and analysis. The results obtained revealed that the
dual-axes solar power generating system has twenty-two
(22) parts assembled together in ten (10) identified major
assemblies, out of which thirteen could be fabricated in
the local workshop, while are to be procured as specified
from the market. The study presents a viable, and
economically feasible techniques for the manufacture of
the dual-axes solar power generating system.
Keywords :
Design Process, Product Analysis, Process Selection, Product Determination, Dual Axes Solar Power System, Components
