PV BOS Cost Analysis: Ground-Mounted Systems

GTM Research analysts explore the current and forecasted balance-of-system costs associated with ground-mounted PV projects.

Photo Credit: The Clean Energy Resource Teams Project

As the solar PV supply market continues to mature, the market's focus is expanding beyond the module and onto reducing the costs associated with PV balance-of-system (BOS) components. This includes all non-module components (inverters, mounting structures, etc.), along with the “soft” costs (permitting, labor, EPC margins) associated with project development and construction.

At the same time, the ground-mounted system market is experiencing unprecedented growth, as PV demand decentralizes and migrates away from Europe -- where rooftop systems represented 85% of more than 14.6 GW of total installations in 2010 -- to markets such as the United States and China that are developing a greater forecasted share (40% to 45%) of ground-mounted PV projects. This global shift toward the ground-mounted system will inevitably place the economics of both fixed and tracking structures under further scrutiny as developers and EPCs battle over every cent of cost reduction.

According to the recent GTM Research report, Solar PV Balance-of-System: Technologies and Markets, BOS components for ground-mounted systems currently comprise roughly 45% of total PV project costs, with that percentage forecasted to rise to nearly 51% by 2012, marking the first time BOS costs will surpass those of the module for a typical, utility-scale crystalline silicon (c-Si) project.

The figure below provides a snapshot into the current average cost breakdown for ground-mounted BOS components in a thin film project (using CdTe as an example) with 11.5% module efficiency and a multi c-Si project with 14.4% efficiency. As can be seen, the largest cost component is the mounting structure, followed by labor and the inverter.

FIGURE: BOS Cost Comparison, c-Si vs. CdTe (2010)

Source: Solar PV Balance-of-System: Technologies and Markets

Over the next few years, we anticipate BOS costs to fall meaningfully due to a number of factors:

The figure below illustrates the cost reduction roadmap for a 10MW blended c-Si system using a fixed-tilt mounting structure in the U.S. We expect BoS costs to fall $0.07/W to 0.08$/W per year from 2010 to 2013 (representing a rate of 5.5% to 6% per year) as a combined result of the factors noted above. It should be noted that our forecast includes an EPC margin of 11% to most accurately approximate the BOS costs currently seen in the market.

FIGURE: BoS Cost Roadmap, 10 MW Fixed Title Blended c-Si Project in the U.S., 2010-2013

SourceSolar PV Balance-of-System: Technologies and Markets

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This is an excerpt from GTM Research's recent Solar PV Balance of System (BoS): Technologies and Markets report. To download the report's complete Table of Contents and List of Figures, please visit http://www.greentechmedia.com/research/report/solar-pv-bos-2011.