Delay factor model for Malaysia hydro power dam
Construction is an important sector in improving the quality of life and living standard of Malaysian people. Hydropower dam is a vital infrastructure asset. Globally, human populations are increasing rapidly every year and it contributes to increasing the demand of developments to cater the p...
Saved in:
| Main Author: | |
|---|---|
| Format: | text::Thesis |
| Language: | English |
| Published: |
2023
|
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Summary: | Construction is an important sector in improving the quality of life and living standard
of Malaysian people. Hydropower dam is a vital infrastructure asset. Globally, human
populations are increasing rapidly every year and it contributes to increasing the
demand of developments to cater the population needs. This will result in increasing
the demand of electricity usage. Most of construction projects in Malaysia including
mega projects are facing delay problems. According to records based on 417 listed
projects, 17.3% of Government projects were delayed for more than 90 days.
Hydropower dams are commonly developed in remote areas which the location is
within mountainous and valley regions. Due to the condition of the site location, the
construction of hydropower dam processes is more complex. Hydropower project is
one of a mega project which the cost can be billions of Ringgit Malaysia and that makes
it as an important project to be monitored and controlled to ensure that it can be
constructed properly according to the plan. Therefore, the main purpose of this research
is to gain further understanding on development of construction delay risk model for
hydropower project in Malaysia. The research process involves the identification of risk
factors and its impacts in infrastructure construction projects. There were two main
phases crafted for the methodology of this research to fulfil its objectives. Data
collection for both phases were completed by using questionnaire surveys but to
different group of respondents. Phase 1 was conducted by collecting data from experts
to verify the information gathered regarding delay risk variables, factors, impacts, and
its relationship before the conceptual delay risk model developed. The second phase
data collection was taken from group of respondents involved in any hydropower
projects in Malaysia regardless their years of experience. Partial Least Square-Structural Equation Modelling was used as the validation method for the conceptual
risk model. From the finalised model, it showed that coefficients of determination (R2)
is 0.598, predictive relevance (Q2) is 0.222, and the most critical delay risk variables
are Equipment & Machinery, Project, and Material. An equation of delay risk for
hydropower construction projects in Malaysia was established based on developed
delay risk model. The model was validated by using Mean Absolute Percentage Error
(MAPE). Since the MAPE value determined in this research is 11.6% which is
interpreted as accurate to forecast, therefore the developed delay risk model equation
can be used for future project planning for planner to assess the impact of the potential
risks they identified for their hydropower project. |
|---|