News & Media

Latest Stories

17 results found
Filtered by Grid Energy Storage, The Blue Economy, and Waste-to-Energy and Products
JULY 14, 2020
Web Feature

Turning the Tides

Their consistency and predictability makes tidal energy attractive, not only as a source of electricity but, potentially, as a mechanism to provide reliability and resilience to regional or local power grids.
DECEMBER 11, 2019
Web Feature

PNNL to Lead New Grid Modernization Projects

PNNL will lead three new grid modernization projects funded by the Department of Energy. The projects focus on scalability and usability, networked microgrids, and machine learning for a more resilient, flexible and secure power grid.

Grid Storage Launchpad at PNNL


DOE's Office of Electricity has selected PNNL as the site for the Grid Storage Launchpad, a national resource and collaborative facility to advance the development of next-generation grid energy storage technologies. 

Architectural Rendering

Advancing the Next Generation of Grid Energy Storage Technologies

The Need

The U.S. Department of Energy (DOE) has identified the accelerated development of next-generation energy storage technology as a national priority for modernizing the power grid and unlocking a broad array of economic and societal benefits. The DOE’s Office of Electricity has selected PNNL in Richland, Washington, as the site for a new, national grid energy storage research and development (R&D) facility that includes investments from the State of Washington, Battelle, and PNNL.

The Value

Grid energy storage technology is a critical technology component for realizing a modernized, resilient power grid capable of achieving many broadly shared energy objectives. Accelerating development of grid energy storage technologies will:

  • make our nation’s power grid more resilient, reliable, secure, and flexible
  • enable the full value of diverse energy resources to be realized
  • sustain U.S. global leadership in the development of energy storage technologies
  • accelerate the development of a domestic manufacturing supply chain and skilled workforce for energy storage technologies.

The Grid Storage Launchpad (GSL) facility at PNNL will support the DOE’s Energy Storage Grand Challenge, which was announced in January by Energy Secretary Dan Brouillette. The vision for the Energy Storage Grand Challenge is to create and sustain global leadership in energy storage utilization and exports, with a secure domestic manufacturing supply chain that does not depend on foreign sources of critical materials. 

Through independent testing and validation of grid energy storage technologies, the GSL facility will develop and promulgate rigorous grid performance standards and requirements that span the entire energy storage R&D development cycle—from basic materials synthesis to advanced prototyping. This mission focuses on three outcomes that address critical challenges in grid energy storage development:

  • Collaborate: Bringing together the DOE, multidisciplinary researchers, and industry will lower the barriers to innovation and deployment of grid-scale energy storage technologies.
  • Validate: The facility will enable independent testing of next-generation grid energy storage materials and systems under realistic grid operating conditions.
  • Accelerate: From benchtop to systems for deployment, the facility will reduce risk and speed the development of new technologies by propagating rigorous performance requirements to all stages of grid storage development.

Fundamental Capabilities for Grid Storage Launchpad:

  • Materials synthesis and processing
  • In-operando characterization
  • Small-scale cell fabrication
  • KW-scale testing and validation
  • Advanced prototyping
  • Analytics and visualization
  • Standards development

Celebrating Ocean Month with PNNL

13 staff featured in STEM Rising campaign

As part of June's National Ocean Month, the U.S. Department of Energy's STEM Rising Initiative featured ocean-related career staff, including 13 from PNNLThe STEM Rising profiles show how PNNL touches the ocean, from technician to senior scientist, postdoc to diver.

John Vavrinec

John Vavrinec is a marine ecologist at the Marine Sciences Laboratory (MSL) in Sequim. He is also the PNNL dive officer in charge of the scientific dive team, a PNNL STEM ambassador, and adjunct faculty at Western Washington University’s Huxley in the Peninsulas Program. Read his profile here.







Kailan Mackereth

Kailan Mackereth is an Earth scientist. She is originally from Minnesota and moved to Oregon in 2010 to be closer to the ocean. She began working as a research assistant at MSL in 2017 after completing her master’s degree in fisheries biology at Oregon State University. Read her profile here.







Hayley Farr

Hayley Farr is a post-bachelor’s research associate for the Coastal Sciences Division. She received her bachelor’s degree in biological sciences from California Polytechnic State University and has conducted research on the potential environmental effects of floating offshore wind energy. Read her profile here.







Garrett Staines

Garrett Staines is a research scientist at MSL. He's currently researching marine renewable energy like instream turbines in tidal channels or wave energy devices on the West Coast and is working to determine the best environmental monitoring methods to ensure minimal impact on ocean animal communities. Read his profile here.







Mikaela Freeman

Mikaela Freeman joined the Coastal Science Division in 2016 after receiving her Master of Marine Affairs degree from the University of Washington. She is a marine science and policy analyst focusing on environmental impacts of marine renewable energy and outreach and engagement. Read her profile here







Alicia Amerson

Alicia Amerson is the program manager for the Triton Initiative, which is facilitated by PNNL. Amerson is a published marine biologist and project manager with a Project Management Professional certification. She earned a master’s degree in marine conservation and biodiversity from Scripps Institution of Oceanography and a bachelor's degree in biology from Eastern New Mexico University. Read Amerson's profile here







Cailene Gunn

Cailene Gunn is an Earth scientist at MSL. She received her bachelor’s degree in geology at Bates College in Maine and started as a post-bachelor’s research associate at MSL in 2016. Read her profile here.







Lenaïg Hemery

Lenaïg Hemery is a marine energy specialist. She is a benthic ecologist by training, which means she studies organisms that live on or near the seafloor, their habitats, and relationships among each other and with their environment.  Read her profile here.







Shannon Bates

Shannon Bates is a communications partner at PNNL. She started at PNNL as a high school intern and worked her way towards a career in communications. While working at PNNL, she obtained her bachelor’s degree in digital technology and culture from Washington State University. Read her profile here.







Rob Cavagnaro

Rob Cavagnaro is a mechanical engineer and leads the Marine Technology Team at MSL. He studies ways to generate electricity from resources available in the ocean. He focuses on currents and waves, and the technology used to harness their energy. Read his profile here.







Nikki Sather

Nikki Sather is a research scientist at MSL. For the last 15 years, her research has included work in water power, aquatic ecosystems, and habitat restoration. Read her profile here.







Molly Grear

Molly Grear is an ocean engineer and marine biologist working in the Coastal Sciences Division. Her work focuses on the environmental impacts of installing new ocean technology, as well as using biological processes and mechanics to inspire engineering design. Read her profile here.







Dorian Overhus

Dorian Overhus is a marine renewable energy research associate for the Coastal Sciences Division, and has been a part of the laboratory since early 2019. Dorian has a strong background in environmental science, wildlife conservation, marine biology, and ocean energy development. Read her profile here. 

STEM Education

Marine and Coastal Research Laboratory


The Marine and Coastal Research Laboratory is uniquely positioned for marine-based research that focuses on helping the nation achieve sustainable energy, a sustaining environment, and coastal security.

Andrea Starr | Pacific Northwest National Laboratory

The Marine and Coastal Research Laboratory (MCRL), which was previously known as the Marine Sciences Laboratory, is the U.S. Department of Energy’s only marine research facility. MCRL, located at PNNL-Sequim, is uniquely positioned for marine-based research that is focused on helping the nation achieve sustainable energy, a sustaining environment, and coastal security.

Sequim Bay links a small, but relatively undisturbed, watershed to the Strait of Juan de Fuca in the Puget Sound. This allows for:

  • direct studies of environmental impacts on marine species
  • a potential study area for energy deployment
  • use of seawater in adjacent lab facilities
  • testing of innovative marine sensors
  • rapid access to diverse marine environments.

Nearly 15,000 square feet of research laboratories are connected to the bay via a supply system that delivers 200 gallons of seawater per minute and returns it to the bay after treatment. MCRL's unique location is also within one of the cleanest airsheds in the world, providing an ultratrace background for work in measurement and signature sciences.

To defend coastal regions, MCRL researchers engineer new approaches to address the greatest challenges in detecting and responding to national and global threats. Programs focus on developing efficient and effective ways to translate data acquired from environmental media—air, water, sediment, and biota—into information that can be acted upon.

MCRL research is supported by more than 80 staff members with expertise in biotechnology, biogeochemistry, ecosystems science, toxicology, and Earth systems modeling. A dive team is also on staff to support in-water research and testing. Projects at MCRL span algal biofuels, biofouling and biocorrosion, climate change and ocean acidification, environmental monitoring, quantification of transport and effects of chemicals in marine environments, and coastal risk and hazard prediction and analysis.