Research Highlights - Nov. 2024

Research Highlights - Nov. 2024

Explore a selection of published research from the Idaho National Laboratory (INL). Some of these papers may require institutional access.


Evaluation of sustainable waste management: An analysis of techno-economic and life cycle assessments of municipal solid waste sorting and decontamination

INL authors: Maria Alejandra Herrera Diaz , Yingqian Lin , Pralhad Burli ,? Tasmin Hossain , Damon Hartley , Vicki Thompson

This study evaluates the economic and environmental feasibility of municipal solid waste sorting and decontamination technologies across urban, suburban, and rural areas. The research assesses cost-effectiveness and environmental impacts, with a focus on cost variability. Findings indicate significant cost differences based on population density.?The study underscores the importance of customized waste management strategies to improve economic viability and sustainability based on local conditions.

Read more?here.?

Publication info: Resources, Conservation and Recycling?Volume 212, January 2025


Design and optimization of flexible decoupled high-temperature gas-cooled reactor plants with thermal energy storage

INL authors: Rami Saeed, PhD ,? Václav Novotny , So-Bin Cho , Amey Shigrekar, Ph.D. , Courtney Otani , Jakub Toman , Daniel Mikkelson

Advanced nuclear power plants are well positioned for future zero-carbon grids. However, flexible power generation is required over the traditional emphasis on baseload generation for meeting historical demands. To achieve such flexibility, this work examines viable configurations for coupling nuclear energy production with thermal energy storage.

Read more?here.

Publication info: Energy Conversion and Management?Volume 321, 1 December 2024


Explosion detection using smartphones: Ensemble learning with the smartphone high-explosive audio recordings dataset and the ESC-50 dataset?

INL authors: Luis A. Ocampo Giraldo, Jay D. Hix, Scott J. Thompson, David Chichester

Partnering authors:?Samuel K. Takazawa, Sarah K. Popenhagen,?Cleat P. Zeiler, Milton A. Garcés

Partnering Institutions: University of Hawaii at Manoa ,? Nevada National Security Sites

Explosion monitoring is performed by infrasound and seismoacoustic sensor networks that are distributed globally, regionally and locally. However, these networks are unevenly and sparsely distributed, especially at the local scale, where it is costly to maintain and deploy networks. With increasing interest in smaller-yield explosions, the need for more dense networks has increased. To address this issue, we propose using smartphone sensors for explosion detection as they are cost-effective and easy to deploy.

Read more?here.?

Publication info:?Sensors?2024,?24(20), 6688


Interaction of polymethyl methacrylate with boehmite-filmed aluminum cladding under gamma irradiation

INL authors: Daniel Sluder, P.E. ,?Bryon J. Curnutt, Lorenzo Vega-Montoto , Joshua David Orchard,?Matthew D. Horkley, Trevor J. Skeen, Dean Stewart Dean A. Stewart

This paper presents an overview of ongoing work to qualify the Advanced Test Reactor driver fuel elements that have been affected by irradiation-degraded polymethyl methacrylate flux wands.

Read more?here.?

Publication info: Nuclear Science and Engineering


Effect of TiN coating on suppressing Ce-Fe interaction under irradiation

INL authors: Jian Gan , Chao Jiang

Partnering authors: Yizhi Zhang, Yifan Zhang, Jiawei Song, Ke Xu, Benson Kunhung Tsai, Xuanyu Sheng, Haiyan Wang, Yinbin Miao, Peter Mouche, Kun Mo, Bei Ye

Partnering institutions: 美国普渡大学 , Argonne National Laboratory

Advanced cladding is critical for fast reactors with the adequate thermal conductivity, mechanical stability and radiation tolerance of the cladding base material, corrosion resistance and high temperature coolant compatibility of the cladding surface, and chemical stability of the cladding inner wall against fuel cladding chemical interaction. The preliminary results of recent ion irradiation studies of two diffusion-couple samples of cerium (Ce)/oxide-dispersion strengthened steel (ODS) and Ce/TiN/ODS, irradiated with 80 MeV xenon ions to 100 displacements per atom at 500 C, are summarized.

Read more?here.?

Publication info:?Materialia, Volume 38, December 2024

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