This study assesses the CO2 emissions associated with decommissioning of 29
commercial onshore wind farms in Thailand. The decommissioning of the onshore
wind farms consists of the disassembly and transport of wind turbines and the
demolition and disposal of concrete foundations. Access roads and transmission
cables are not included in the assessment due to the conditions of wind farm
development in Thailand. Data on 29 wind farms in Thailand were collected from
the Energy Regulatory Commission of Thailand (ERC) and the Electricity
Generating Authority of Thailand (EGAT). Carbon emission factors of a wind
turbine is used to estimate CO2 emissions from the decommissioning. This study
also assesses the CO2 emission reductions from recycling wind turbine materials
and concrete foundations. The cost of decommissioning per installed capacity is
used to estimate each wind farm"es cost of decommissioning. Results are shown
that total carbon emissions from decommissioning are 779,479.3 tCO2eq. The
average carbon intensity of decommissioning is 10.095 gCO2eq/kWh and the
average cost of decommissioning is 0.0014 USD/kWh. Findings are also shown
that CO2 emissions of decommissioning are minor when compared with other
carbon emissions of electricity generation from wind power.
Keywords
Carbon intensity, CO2 emission assessment, Decommissioning costs, Emissions from decommissioning, Onshore wind farms