Abstract
Prefabricated building is an objective requirement to achieve sustainable development of the construction industry. However, it should be noted that Chinese enterprises are characterized by an immature supply chain management mechanism, and weak environmental protection awareness and social responsibility awareness. Therefore, from the perspective of sustainable development, a performance evaluation system for a prefabricated building supply chain was established based on SEM (Structural Equation Model) and virtual frontier SBM–DEA (Slacks-Based Measure and Data Envelopment Analysis). Upon summarization of a great deal of literatures, the most influential 34 indexes were selected, after which the weight calculation and index screening were performed using SEM method. Second, the performance evaluation was conducted using the virtual SBM–DEA method. Horizontally, a comparison is made on the performance and total performance of the four sub-units (supply chain operation, economic benefit, environmental protection and social liabilities) in the supply chain; vertically, the dynamic changes of the supply chain in time dimension are assessed. After the evaluation system was applied into enterprises, research results show that factors affecting the performance of the corporate supply chain are ranked as: supply chain operation > economic benefits > environmental protection > social responsibility. At the same time, the performance of 14 supply chains was evaluated, in order to provide guidance for supply chain management in enterprises.
Highlights
In recent years, China’s construction industry has been developing by leaps and bounds, which drives related industries such as cement, steel, and machinery manufacturing.Frankly, large-scale construction has brought considerable economic and social benefits, but at the same time, problems are caused, namely huge energy consumption and environmental pollution [1]
In other words, prefabricated building is an objective requirement for sustainable development of the construction industry, and the Chinese government introduced policies to encourage the application of prefabricated buildings [2]
Data were analyzed on DEAP software through the virtual frontier SBM–Data Envelopment Analysis (DEA) method and traditional SBM–DEA method, with calculation results shown in Tables 5 and 6
Summary
China’s construction industry has been developing by leaps and bounds, which drives related industries such as cement, steel, and machinery manufacturing. Characterized by high production efficiency, high resource utilization rate, low pollution emission, less personnel input and other advantages, the prefabricated building mode fully meets the requirements of sustainability. A circular economy is an important means to achieve sustainable development in the building industry, and prefabricated buildings are its important drive [3]. Sustainability 2022, 14, 1299 buildings improve the resources utilization in the building industry under the “3R” principle (reduce, reuse and recycle) of a circular economy, promoting the use of high-strength materials and a large frame structure to reduce the use of materials in the building industry, and improving the service life of buildings and reducing pollution to the environment [4]. The circular economy exerts whole-process control over design, construction and dismantling of prefabricated buildings, reducing the damage and pollution to the environment. This study builds a performance evaluation system for prefabricated building from the perspective of sustainable development
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