The target decomposition model for renewable energy based on technological progress and environmental value

Zhen, Liu, Lieu, Jenny and Zhang, Xiliang (2014) The target decomposition model for renewable energy based on technological progress and environmental value. Energy Policy, 68. pp. 70-79. ISSN 0301-4215

[img] PDF - Published Version
Restricted to SRO admin only

Download (846kB)

Abstract

One of the key aspects of developing a regional renewable energy plan involves incorporating national renewable energy targets into provincial targets whilst including interim phase targets and technology targets. This paper proposes a renewable energy model based on national targets ‘decomposed’ into regional targets that incorporate technological processes and environmental conditions at the individual project level. At the project level, resource potential is allocated into individual projects based on the current technological level. The available resources and renewable energy generation of each project changes as the technology evolves and the environmental conditions change over time. The model can be adjusted according to actual needs of each region; thus policymakers can establish the respective targets for power, heating, oil and gas as well as renewable energy based on the regional context. Overall, the total national target can be decomposed into regional targets and technological targets. This paper proposes long-term regional development targets for renewable energy based on the total supply curve for renewable energy in different periods. Fujian province will be applied as an example to validate the target decomposition model of renewable energy targets of various regions and technologies in China. The model projected that the economic capacity of renewable energy generation in Fujian province for dam hydropower, offshore wind power, onshore wind power, photovoltaic power and waste incineration power is expected to reach 4748 MW, 4036 MW, 3581 MW, 2663 MW and 766 MW, respectively by 2025. The research result could have wider implications such as achieving GHG emissions reductions targets, addressing environmental concerns, providing high tech jobs within the region and contributing to energy security at the local and national level

Item Type: Article
Schools and Departments: School of Business, Management and Economics > SPRU - Science Policy Research Unit
Depositing User: Jenny Lieu
Date Deposited: 20 Feb 2018 12:18
Last Modified: 20 Feb 2018 12:18
URI: http://sro.sussex.ac.uk/id/eprint/73722

View download statistics for this item

📧 Request an update