The Renewable Energy Costs in the Pacific study analysed the capital costs of large solar photovoltaic, wind and hydro generation projects built in the Pacific over the past decade.
There is a large range of project costs for renewable generation projects in the Pacific. This is due to a variety of factors including remoteness, scale, local capacity, perceptions of risk, design parameters and any upgrades for existing infrastructure included in the project scope. There are numerous challenges in obtaining cost breakdown data and making like-with-like comparisons. Insufficient cost breakdown data was obtained from wind and hydro generation projects to analyse trends.
This report focuses on capital costs (CAPEX) while the importance of operation and maintenance costs (OPEX) and Levelised Cost of Electricity (LCOE) are acknowledged.
This is particularly so in the PV-battery-diesel mini-grid sector where there are examples of CAPEX being minimised in a manner that increases OPEX and LCOE. As the deployment of batteries is expected to increase in the Pacific region, the issue of assessing forecast life cycle costs and battery life are likely to increase in importance. In addition, the impacts and costs of disposing of solar PVs and batteries is a growing concern in the Pacific. It is being investigated in a separate PRIF study on "Pacific Region Solid Waste Management and Recycling".
The Clean Energy Solutions Center, in partnership with the Pacific Region Infrastructure Facility (PRIF) is hosting this webinar titled, Project Costs for Renewable Generation Projects in the Pacific. In a report published last month—Renewable Energy Costs in the Pacific—PRIF analyses the capital costs of large solar photovoltaic, wind and hydro generation projects built in the Pacific over the past decade. The study focuses on capital costs, while the importance of operation and maintenance costs and the levelized cost of electricity are acknowledged.
The large range of project costs for renewable generation projects in the Pacific is due to various factors, including remoteness, scale, local capacity, perceptions of risk, design parameters and any upgrades for existing infrastructure included in the project scope. And there are numerous challenges in obtaining cost breakdown data and making like-with-like comparisons. The webinar will focus on the key overall findings from the PV systems analysis but will provide general analysis of the system cost breakdowns obtained for the report, which provides useful insights for component and other costs.
The goal of the report is to give an overview of the general trends, to highlight special applications and outstanding projects and to document the solar thermal capacity installed in the important markets worldwide. Furthermore, it is the goal to ascertain the contribution of solar thermal systems to the supply of energy and the CO2 emissions avoided as a result of operating these sys tems.
This report provides an operational analysis of 2030 that includes spatially disaggregated, hourly commitment and dispatch modeling. Our modeling includes constraints on transmission, unit-specific costs and operating constraints, and hourly, weekly and seasonal inter-temporal constraints that have not been previously analyzed.
This report helps policymakers, planners, private developers, and other actors in the ASEAN member states assess the cost of renewable-energybased, utility-scale, land-based wind and solar PV opportunities.
This report consists of three distinct tasks, which examines the role of CSP and other solar plus storage technologies in providing grid services spanning timescales from seconds to decades