Research Themes +
Energy Technologies Area (ETA) researchers are continually building on the strong scientific foundation we have developed over the past 50 years. We address the world’s most pressing climate challenges by bringing to market energy-efficient innovations across the buildings, transportation, and industrial sectors. ETA is at the forefront of developing better batteries for electric vehicles; improving the country's aging electrical grid and innovating distributed energy and storage solutions; developing grid-interactive, efficient buildings; and providing the most comprehensive market and data analysis worldwide for renewable technologies like wind and solar.
Strategic Initiatives +
The Energy Technologies Area (ETA) Strategic Plan is the guiding force for our research and development for the next ten years. It clearly charts a path toward clean-energy solutions and focuses on five detailed Strategic Initiatives. The Plan provides an in-depth look at how ETA is accelerating research to provide affordable, clean energy to all while accomplishing deep, economy-wide decarbonization, looking to avoid a rise in global average temperature while simultaneously developing solutions to increase humanity's resilience to extreme weather volatility.
Publications
News +
For media inquiries,
please contact ETA
Interim Communications Manager
Kiran Julin

kjulin@lbl.gov
About Us +
The Energy Technologies Area (ETA) is unique in translating fundamental scientific discoveries into scalable technology adoption. Our approach combines an understanding of the marketplace and the role of state and federal regulation and policies. ETA's research drives real-world, practical results that affect and improve the everyday lives of Americans and those across the globe. Saving energy and battling the Climate Crisis are key to the foundation of our research, which is driven by technoeconomic analysis and in-lab experimentation and discovery.

Publications

Publications by Research Area

Demand Response

Electricity Markets & Policy

Energy Efficiency

Industrial Energy Analysis

Renewable Energy

Sustainable Energy & Environmental Systems

Publications by Division

Building Technology (BTUS)

Energy Analysis (EAEI)

Energy Storage (ESDR)

2023

Lin, Ziqi, Tianzhen Hong, Xiaodong Xu, Jiayu Chen, and Wei Wang."Evaluating energy retrofits of historic buildings in a university campus using an urban building energy model that considers uncertainties."Sustainable Cities and Society 95 (2023) 104602. DOI

Hong, Tianzhen, Sang Hoon Lee, Wanni Zhang, Kaiyu Sun, Barry Hooper, and Janghyun Kim."Nexus of electrification and energy efficiency retrofit of commercial buildings at the district scale."Sustainable Cities and Society 95 (2023) 104608. DOI

O'Brien, William, Farhang Tahmasebi, and Tianzhen Hong."International review of occupant aspects of building energy codes and standards."ASHRAE 65 (2023).

Sheng, Maggie, Michael Reiner, Kaiyu Sun, and Tianzhen Hong."Assessing thermal resilience of an assisted living facility during heat waves and cold snaps with power outages."Building and Environment 230 (2023) 110001. DOI

Perera, A.T.D, Bingyu Zhao, Zhe Wang, Kenichi Soga, and Tianzhen Hong."Optimal design of microgrids to improve wildfire resilience for vulnerable communities at the wildland-urban interface."Applied Energy 335 (2023) 120744. DOI

Coraci, Davide, Silvio Brandi, Tianzhen Hong, and Alfonso Capozzoli."Online transfer learning strategy for enhancing the scalability and deployment of deep reinforcement learning control in smart buildings."Applied Energy 333 (2023) 120598. DOI

Perera, A.T.D, and Tianzhen Hong."Vulnerability and resilience of urban energy ecosystems to extreme climate events: A systematic review and perspectives."Renewable and Sustainable Energy Reviews 173 (2023) 113038. DOI

2022

Li, Han, and Tianzhen Hong."A semantic ontology for representing and quantifying energy flexibility of buildings."Advances in Applied Energy 8 (2022) 100113. DOI

Liu, Jingjing, Rongxin Yin, Lili Yu, Mary Ann Piette, Marco Pritoni, Armando Casillas, Jiarong Xie, Tianzhen Hong, Monica Neukomm, and Peter Schwartz."Defining and applying an electricity demand flexibility benchmarking metrics framework for grid-interactive efficient commercial buildings."Advances in Applied Energy 8 (2022) 100107. DOI

Luo, Na, Xuan Luo, Mohammad Mortezazadeh, Maher Albettar, Wanni Zhang, Dongxue Zhan, Liangzhu Wang, and Tianzhen Hong."A data schema for exchanging information between urban building energy models and urban microclimate models in coupled simulations."Journal of Building Performance Simulation (2022) 1 - 18. DOI

Pinto, Giuseppe, Riccardo Messina, Han Li, Tianzhen Hong, Marco Savino Piscitelli, and Alfonso Capozzoli."Sharing is caring: An extensive analysis of parameter-based transfer learning for the prediction of building thermal dynamics."Energy and Buildings 276 (2022) 112530. DOI

Malik, Jeetika, Ronita Bardhan, Tianzhen Hong, and Mary Ann Piette."Developing occupant archetypes within urban low-income housing: A case study in Mumbai, India."Building Simulation 15.9 (2022) 1661 - 1683. DOI

Kim, Donghun, Zhe Wang, James Brugger, David Blum, Michael Wetter, Tianzhen Hong, and Mary Ann Piette."Site demonstration and performance evaluation of MPC for a large chiller plant with TES for renewable energy integration and grid decarbonization."Applied Energy 321 (2022) 119343. DOI

Sun, Kaiyu, Tianzhen Hong, Janghyun Kim, and Barry Hooper."Application and evaluation of a pattern-based building energy model calibration method using public building datasets."Building Simulation 15.8 (2022) 1385 - 1400. DOI

Teso, Lorenzo, Laura Carnieletto, Kaiyu Sun, Wanni Zhang, Andrea Gasparella, Piercarlo Romagnoni, Angelo Zarrella, and Tianzhen Hong."Large scale energy analysis and renovation strategies for social housing in the historic city of Venice."Sustainable Energy Technologies and Assessments 52 (2022) 102041. DOI

Teso, Lorenzo, Laura Carnieletto, Kaiyu Sun, Wanni Zhang, Andrea Gasparella, Piercarlo Romagnoni, Angelo Zarrella, and Tianzhen Hong."Large scale energy analysis and renovation strategies for social housing in the historic city of Venice."Sustainable Energy Technologies and Assessments 52 (2022) 102041. DOI

Malik, Jeetika, Elie Azar, Ardeshir Mahdavi, and Tianzhen Hong."A level-of-details framework for representing occupant behavior in agent-based models."Automation in Construction 139 (2022) 104290. DOI

Sun, Kaiyu, Patricia Kusumah, Wanni Zhang, Max Wei, and Tianzhen Hong."Exploring Decarbonization and Clean Energy Pathways for Disadvantaged Communities in California."5th International Conference on Building Energy and Environment (2022).

Luo, Na, Gabe Fierro, Yapan Liu, Bing Dong, and Tianzhen Hong."Extending the Brick schema to represent metadata of occupants."Automation in Construction 139 (2022) 104307. DOI

Blum, David, Zhe Wang, Chris Weyandt, Donghun Kim, Michael Wetter, Tianzhen Hong, and Mary Ann Piette."Field demonstration and implementation analysis of model predictive control in an office HVAC system."Applied Energy 318 (2022) 119104. DOI

Li, Haoran, Juan Hou, Tianzhen Hong, and Natasa Nord."Distinguish between the economic optimal and lowest distribution temperatures for heat-prosumer-based district heating systems with short-term thermal energy storage."Energy 248 (2022) 123601. DOI

Malik, Jeetika, Ardeshir Mahdavi, Elie Azar, Handi Chandra Putra, Christiane Berger, Clinton Andrews, and Tianzhen Hong."Ten questions concerning agent-based modeling of occupant behavior for energy and environmental performance of buildings."Building and Environment 217 (2022) 109016. DOI

Debnath, Ramit, Ronita Bardhan, Ashwin Misra, Tianzhen Hong, Vida Rozite, and Michael H Ramage."Lockdown impacts on residential electricity demand in India: A data-driven and non-intrusive load monitoring study using Gaussian mixture models."Energy Policy 164 (2022) 112886. DOI

Luo, Na, Zhe Wang, David Blum, Christopher Weyandt, Norman Bourassa, Mary Ann Piette, and Tianzhen Hong."A three-year dataset supporting research on building energy management and occupancy analytics."Nature Scientific Data (2022). DOI

Vahmani, Pouya, Xuan Luo, Andrew Jones, and Tianzhen Hong."Anthropogenic heating of the urban environment: An investigation of feedback dynamics between urban micro-climate and decomposed anthropogenic heating from buildings."Building and Environment 213 (2022) 108841. DOI