Published in collaboration with NCMS
Digital Manufacturing Report

News & information about the fast-moving world
of digital manufacturing, modeling & simulation

Language Flags

Sandia, DOE Bring Large-Scale Solar to Market

ALBUQUERQUE, N.M., Dec. 13 — Sandia National Laboratories is advancing viable, low-carbon power through collaborating on five U.S. Regional Test Centers (RTCs) where industry can assess the performance, reliability and bankability of large-scale photovoltaic energy systems.

"With the trend in the solar industry toward larger systems and greater capital investment – substantial amounts of money are going into this field – the financial community is increasingly scrutinizing how well these systems operate," said Charles Hanley, manager of Photovoltaic and Distributed Systems Integration at Sandia. "The RTCs will provide enhanced monitoring and improved performance prediction capabilities for new technologies being introduced to the market."

Photovoltaic (PV) modules convert solar radiation into electrical current using solar cells containing semiconductor material. Demand for renewable energy has produced an industry around the manufacture and installation of solar cells, photovoltaic arrays and other components, such as inverters, trackers and racking systems. Demand has also produced a need to build investor confidence in larger PV systems by assessing performance over time in different climates.

Sandia has a long history of measuring and modeling performance of PV systems, from single panels to multi-megawatt arrays, the kinds of systems found on residential rooftops and small businesses. "Sandia works in partnership with the U.S. solar industry to advance the state of the art in system integration and system optimization," Hanley said.

Sandia researchers a few years ago developed the idea of an incubator for commercial-scale PV systems up to 500 kilowatts or a megawatt, the size found on big-box stores or schools. The Labs' National Solar Thermal Test Facility (NSTTF) was quickly identified as a perfect site for such a PV testbed.

At the same time, the U.S. Department of Energy was working with industry and stakeholders to determine their most pressing needs. The agency hosted a workshop in Berkeley, Calif., on PV manufacturing attended by the CEOs of module manufacturers and members of the financial community.

"It was clear from the workshop that the broad community wants better ways to quantify technical aspects to support the bankability of PV systems," said Jennifer Granata of Sandia's solar group.

Bankability is a measure of a project's risk to an investor. The lower the risk the more bankable it is, thereby lowering associated financing costs. The technical risk must be quantified to make PV systems more commercially viable.

"The RTCs will develop protocols and conduct testing and analysis on the systems that can give investors some concrete data with which to assess the risk," Granata said.

She said the PV world until now did not have full and independent standardized processes for monitoring and evaluating large systems. The country's few other PV test sites accommodate only small systems.

The workshop attendees asked DOE to develop test locations for large arrays where PV manufacturers could try out new designs and systems and get reliable data. "It fit with the Sandia idea on system incubators," Granata said. "We had ideas on how this could work."

Sandia and the National Renewable Energy Laboratory (NREL) in Golden, Colo., were asked by DOE for proposals for what the agency named Regional Test Centers. Granata led a team effort to develop a Sandia proposal for testing infrastructure and a validation plan to measure and evaluate performance and reliability.

DOE decided to fund physical and data monitoring infrastructures and validation plans at five locations in different climates, with Sandia and NREL working together on the overall project management. Sandia manages four of the five locations with local partners: Albuquerque; Orlando, Fla., Burlington, Vt.; and Las Vegas, Nev. The fifth location is Denver, managed by NREL.

The sites are in varying stages of development, from early planning to ready-to-go. Each will put in infrastructure up to one megawatt, so multiple different-sized systems can be tested. At Sandia, the project has started on eight acres at the NSTTF with an option to expand by another 30 acres. Infrastructure includes a road, communications equipment and the electrical lines for monitoring systems, transformers and switches.

"Most of the work is underground," Granata said. "Companies can come in and put a PV system in place. AC goes right to the grid."

Granata said key components of the RTCs are the processes, standards and guidelines for validating large PV systems. Experts from the participating sites have developed a validation plan with step-by-step processes to assess and quantify system performance.

"The Regional Test Centers, with lab expertise, can provide an independent, third-party perspective, and test beyond the standard protocols to improve our understanding," Granata said.

RTCs are a part of the DOE's SunShot Initiative, a collaborative national effort to make solar energy cost competitive with other forms of energy by the end of the decade. The DOE wants to encourage widespread, large-scale adoption of renewable solar energy technology and restore U.S. leadership in the global clean-energy race.

Hanley said the RTCs are an important part of the effort. "This will produce improvements in performance monitoring that can greatly reduce the uncertainty around investing in large-scale projects and therefore help keep the dramatic growth in this market on track," he said.

Sandia National Laboratories is a multi-program laboratory operated by Sandia Corporation, a wholly owned subsidiary of Lockheed Martin company, for the U.S. Department of Energy's National Nuclear Security Administration. With main facilities in Albuquerque, N.M., and Livermore, Calif., Sandia has major R&D responsibilities in national security, energy and environmental technologies and economic competitiveness.


Source: Sandia National Laboratories

RSS Feeds

Subscribe to All Content

Feature Articles

Titan Puts a New Spin on GE’s Wind Turbine Research

Unlike traditional energy sources, wind is a trouble to tame, which has led GE to turn to advanced simulations at Oak Ridge National Laboratory to put the technology on track to cover 12 percent of the world's energy production.

Lighting a Fire Under Combustion Simulation

Combustion simulation might seem like the ultimate in esoteric technologies, but auto companies, aircraft firms and fuel designers need increasingly sophisticated software to serve the needs of 21st century engine designs. HPCwire recently got the opportunity to take a look at Reaction Design, one of the premier makers of combustion simulation software, and talk with its CEO, Bernie Rosenthal.

D-Wave Sells First Quantum Computer

On Wednesday, D-Wave Systems made history by announcing the sale of the world's first commercial quantum computer. The buyer was Lockheed Martin Corporation, who will use the machine to help solve some of their "most challenging computation problems." D-Wave co-founder and CTO Geordie Rose talks about the new system and the underlying technology.

Short Takes

Local Motors and ORNL Partner for Automotive Manufacturing

Jan 24, 2014 | Local Motors, a vehicle innovator, and the U.S. Department of Energy’s Oak Ridge National Laboratory (ORNL) have announced a new partnership that they hope will bring change to the automotive industry.

Robots Showcase Skills at DRC

Jan 22, 2014 | A month ago, the DARPA Robotics Challenge Trials (DRC) commenced. The main goal of the event was to aid in the development of robots that will someday respond to natural or even man-made disasters. At this year’s DRC, prototype robots from 16 teams were put through a series of trials in which they were to showcase their skills.

Engineers Develop Microwindmills to Power Electronics

Jan 17, 2014 | Engineers at the University of Texas at Arlington have developed a new technology that could come in handy when electronic devices run out of power. Their idea stems from a source of power generation that we are all familiar with; windmills.

Advanced Modeling Benefits Wind Farms

May 25, 2011 | Advanced computing resources optimize the site selection of wind farms.

Not Your Parents' CFD

Oct 13, 2010 | Outdated beliefs stand in the way of greater CFD adoption.

Sponsored Whitepapers

Technical Computing for a New Era

07/30/2013 | IBM | This white paper examines various means of adapting technical computing tools to accelerate product and services innovation across a range of commercial industries such as manufacturing, financial services, energy, healthcare, entertainment and retail. No longer is technically advanced computing limited to the confines of big government labs and academic centers. Today it is available to a wide range of organizations seeking a competitive edge.

The UberCloud HPC Experiment: Compendium of Case Studies

06/25/2013 | Intel | The UberCloud HPC Experiment has achieved the volunteer participation of 500 organizations and individuals from 48 countries with the aim of exploring the end-to-end process employed by digital manufacturing engineers to access and use remote computing resources in HPC centers and in the cloud. This Compendium of 25 case studies is an invaluable resource for engineers, managers and executives who believe in the strategic importance of applying advanced technologies to help drive their organization’s productivity to perceptible new levels.

Conferences and Events

Featured Events

Copyright © 2011-2014 Tabor Communications, Inc. All Rights Reserved.
Digital Manufacturing Report is a registered trademark of Tabor Communications, Inc. Use of this site is governed by our Terms of Use and Privacy Policy.
Reproduction in whole or in part in any form or medium without express written permission of Tabor Communications Inc. is prohibited.
Powered by Xtenit.