Abstract
South Korea has abundant forest resources capable of supplying the domestic wood demand. Despite the extensive forest resources, there is continued uncertainty about the nature, quantity, and quality of the timber contained in any particular forested area. Additionally, some technical, logistic, and economic challenges act as barriers to the expansion of domestic timber utilization. To overcome these limitations and to enhance the domestic timber utilization in South Korea, this study investigated the optimal location of potential forest industry clusters. The potential forest availability was estimated based on localized allometric equations. The integration of the analytical hierarchy process and GIS modeling, including a supply chain that minimizes transportation costs, allowed the identification of optimal forest industry clusters locations that balanced the economic, environmental, and social dimensions within the forest industry supply chain. The study reveals that the estimated potential forest resources availability presented approximately 1 billion m3, including sawlog (474 million m3) and pulpwood grade (541 million m3). Additionally, 45 percent of the sawlogs and 48 percent of the pup grade wood were produced from the Gangwon and Gyeongsangbuk-do regions. Furthermore, the logistic analysis indicates that ten potential forest industry clusters are best aligned with the optimal socio-economic impacts with minimized timber transportation costs. To identify the optimal size and number of potential forest industry clusters, further studies that consider fixed and variable costs for maintaining the forest industry clusters are required.
Highlights
The forest industry has faced various challenging issues in the overall forest supply chains [1].There are issues with the integrated networks composed of raw material suppliers, manufacturing facilities, and transportation providers that work across organizational boundaries to deliver forest products to consumers [2]
The estimated forest availability indicated that a large amount of forest resources are available in the form of sawlogs and pulp/energy wood to supply forest industry clusters (FIC) in South Korea
This research investigated the optimal location of FICs in South Korea
Summary
The forest industry has faced various challenging issues in the overall forest supply chains [1].There are issues with the integrated networks composed of raw material suppliers, manufacturing facilities, and transportation providers that work across organizational boundaries to deliver forest products to consumers [2]. The forest industry has faced various challenging issues in the overall forest supply chains [1]. The most developed forest countries in Europe, such as Sweden, Finland, and the Baltic countries, have improved forest supply chains by implementing cost-effective logistics on given facility location [3,4,5]. The forest industry clusters (FIC) concept has been introduced and applied to examine an efficient forest supply chain that minimizes transportation costs in each. Aiming to optimize the timber value chain, FIC allowed collaboration within country [6]. Aiming to optimize the timber value chain, FIC allowed collaboration within the cluster the cluster that takes place in the timber supply chain, from timber harvest to final wood utilization that takes [7]. Place in the timber supply chain, from timber harvest to final wood utilization [7] Aiming to optimize the timber value chain, FIC allowed collaboration within the cluster the cluster that takes place in the timber supply chain, from timber harvest to final wood utilization that takes [7]. place in the timber supply chain, from timber harvest to final wood utilization [7]
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