Abstract
Hydropower, as a renewable energy resource, has become an important way to fit for Chinese long-term energy policy of energy transformation. Engineering–procurement–construction (EPC) has been increasingly adopted for improving hydropower project delivery efficiency in the utilization of water resources and generation of clean energy, where design plays a critical role in project success. Existing studies advocate the need to use partnering for better solutions to designs in EPC hydropower projects. However, there is a lack of a theoretical framework to systematically address design-related issues considering different participants’ interactions. This study coherently examined the causal relationships among partnering, design management, design capability, and EPC hydropower project performance by establishing and validating a conceptual model, with the support of data collected from a large-scale EPC hydropower project. Path analysis reveals that partnering can directly promote design management and design capability and exert an effect on design capability through enhancing design management, thereby achieving better hydropower project outcomes. This study’s contribution lies in that it theoretically builds the links between intra- and inter-organizational design-related activities by systematically mapping EPC hydropower project performance on partnering, design management, and design capability. These findings also suggest broad practical strategies for participants to optimally integrate their complementary resources into designs to achieve superior hydropower project performance.
Highlights
IntroductionThe demand for renewable energy in China is growing these years to relieve environmental pressures of CO2 emissions from fossil fuels [1,2]
Introduction published maps and institutional affilThe demand for renewable energy in China is growing these years to relieve environmental pressures of CO2 emissions from fossil fuels [1,2]
The aim of this study is to reveal the causal relationships among partnering, design management, and design capability related to how project performance improvements are created from them, via establishing and validating a conceptual design management model
Summary
The demand for renewable energy in China is growing these years to relieve environmental pressures of CO2 emissions from fossil fuels [1,2]. The Chinese central government has proposed a long-term energy policy in 2016 to decrease energy consumption per unit of GDP and increase the share of non-fossil fuel energy [3]. Hydropower development is a suitable way to align with the policy for energy transformation based on the abundant hydropower resource in the country [4], and the installed hydropower capacity of. Hydropower projects can effectively produce renewable energy, reduce the use of fossil fuels, and bring social and economic benefits with flood control, irrigation, and navigation [6,7,8]. Design is crucial to the delivery of an EPC hydropower project, and the design Conceptual
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