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Joowon Park
School of Forest Sciences and Landscape Architecture, Kyungpook National University, Daegu, Republic of Korea

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Journal article
Published: 23 January 2020 in Energy
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Internationally biomass residues, primarily from forestry and agricultural production cycles, are increasingly being used to produce bio-energy. This case study presents modelling of the potential socio-economic impacts from a proposed co-generation bio-energy plant (under 50 MW) in the Valley Central Industrial Precinct (VCIP) in Northern Tasmania. The modelling uses data related to residue availability and bio-energy generation output to examine and evaluate potential impacts under a range of scenarios. Potential bio-energy residue feedstock is categorised into viable onsite and offsite sources and quantified in terms of their different bio-energy outputs for different sized bio-energy plants. To complete the evaluation of the potential socio-economic impact of the proposed plant, analysis is conducted using the JEDI (Jobs and Economic Development Impact model). The results of the modelling indicate that the location, quality and quantity of biomass residue feedstock and optimal socio-economic impacts are best aligned with the local supply chain by a bio-energy plant of (10 MW). Importantly, the modelling presented in this paper excludes consideration of forest harvest residues as a potential source of biomass residues due to the lack of certainty on the viability of commercial supply to the VCIP. In this context, it is anticipated that the underlying assumptions and approach used in this case study will be of value to other regions exploring the viability of bioenergy generation from biomass residues.

ACS Style

Heesung Woo; Martin Moroni; Joowon Park; Mohammad Sadegh Taskhiri; Paul Turner. Residues and bio-energy generation: A case study modelling value chain optimisation in Tasmania. Energy 2020, 196, 117007 .

AMA Style

Heesung Woo, Martin Moroni, Joowon Park, Mohammad Sadegh Taskhiri, Paul Turner. Residues and bio-energy generation: A case study modelling value chain optimisation in Tasmania. Energy. 2020; 196 ():117007.

Chicago/Turabian Style

Heesung Woo; Martin Moroni; Joowon Park; Mohammad Sadegh Taskhiri; Paul Turner. 2020. "Residues and bio-energy generation: A case study modelling value chain optimisation in Tasmania." Energy 196, no. : 117007.

Review
Published: 13 November 2019 in Forests
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As a part of the renewable energy cycle, forest biomass resources are considered to be important renewable materials and energy sources in many countries. It is evident from international and local research into forest biomass utilization that several challenges must be addressed to ensure logging waste can be transformed into material of commercial value. Several logistical and supply chain challenges have already been identified, including uncertainty about the nature, amount, and quality of forest residues. In this context, this paper presents a summary review of estimation methods and techniques for managing forest and woody residue along the timber supply chain. The review examines both the opportunities and the challenges evident in the international forest residue estimation methods within each supply chain for primary and secondary forest resources. The review also discusses techniques for supply chain and management planning and highlights the limitations of existing information and communication technology (ICT) implemented for forest biomass research.

ACS Style

Heesung Woo; Mauricio Acuna; Seungwan Cho; Joowon Park; Woo; Cho; Park. Assessment Techniques in Forest Biomass along the Timber Supply Chain. Forests 2019, 10, 1018 .

AMA Style

Heesung Woo, Mauricio Acuna, Seungwan Cho, Joowon Park, Woo, Cho, Park. Assessment Techniques in Forest Biomass along the Timber Supply Chain. Forests. 2019; 10 (11):1018.

Chicago/Turabian Style

Heesung Woo; Mauricio Acuna; Seungwan Cho; Joowon Park; Woo; Cho; Park. 2019. "Assessment Techniques in Forest Biomass along the Timber Supply Chain." Forests 10, no. 11: 1018.

Journal article
Published: 31 March 2016 in Journal of the Korean Association of Geographic Information Studies
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ACS Style

Joo-Won Park. A Study on the Effects of Airborne LiDAR Data-Based DEM-Generating Techniques on the Quality of the Final Products for Forest Areas. Journal of the Korean Association of Geographic Information Studies 2016, 19, 154 -166.

AMA Style

Joo-Won Park. A Study on the Effects of Airborne LiDAR Data-Based DEM-Generating Techniques on the Quality of the Final Products for Forest Areas. Journal of the Korean Association of Geographic Information Studies. 2016; 19 (1):154-166.

Chicago/Turabian Style

Joo-Won Park. 2016. "A Study on the Effects of Airborne LiDAR Data-Based DEM-Generating Techniques on the Quality of the Final Products for Forest Areas." Journal of the Korean Association of Geographic Information Studies 19, no. 1: 154-166.