Engineered barrier development for a nuclear waste repository in basalt: an integration of current knowledge

AbstractThe study summarises current knowledge on microbial corrosion in a deep nuclear-waste repository. The first part evaluates the general impact of microbial activity on corrosion mechanisms. Especially, the impact of microbial metabolism on the environment and the impact of biofilms on the surface of structure materials were evaluated. The next part focuses on microbial corrosion in a deep nuclear-waste repository. The study aims to suggest the development of the repository environment and in that respect the viability of bacteria, depending on the probable conditions of the environment, such as humidity of bentonite, pressure in compact bentonite, the impact of ionizing radiation, etc. The last part is aimed at possible techniques for microbial corrosion mechanism monitoring in the conditions of a deep repository. Namely, electrochemical and microscopic techniques were discussed.

Download Full-text

Assessing materials (''Getters'') to immobilize or retard the transport of technetium through the engineered barrier system at the potential Yucca Mountain nuclear waste repository

10.2172/8325 ◽

1999 ◽

Author(s):

B E Viani

Keyword(s):

Nuclear Waste ◽

Yucca Mountain ◽

Nuclear Waste Repository ◽

Waste Repository ◽

Engineered Barrier

Download Full-text

MULTIPHASE FLOW, HYDROMECHANICS AND UNDERPRESSURED GROUNDWATER AT THE SITE OF A PROPOSED DEEP GEOLOGIC NUCLEAR WASTE REPOSITORY IN CANADA

10.1130/abs/2020am-350361 ◽

2020 ◽

Author(s):

Michael Plampin ◽

Keyword(s):

Multiphase Flow ◽

Nuclear Waste ◽

Nuclear Waste Repository ◽

Waste Repository

Download Full-text

Chemical, Physical and Engineering Characterization Of Candidate Backfill Clays and Clay Admixtures for a Nuclear Waste Respository-Part I

MRS Proceedings ◽

10.1557/proc-6-413 ◽

1981 ◽

Vol 6 ◽

Author(s):

Sudesh K. Singh

Keyword(s):

Nuclear Waste ◽

Morphological Changes ◽

Deionized Water ◽

Engineering Properties ◽

Nuclear Waste Repository ◽

Exchange Cation ◽

Mineral Components ◽

Waste Repository ◽

Mineralogical Compositions

ABSTRACTFourteen Canadian clays and clay admixtures were subjected to simulated nuclear waste repository environments. The present work is concerned with the montmorillonite-dominant materials only. The montmorillonite-dominant samples showed significant leaching on interaction with deionized water. On heating the samples at 200°C for 500 hours, montmorillomites lost intermicellar water completely and acquired cusp-like to cylindrical morphologies. The loss of water and the morphological changes in montmorillonites significantly altered the engineering characteristics. Permeability, shrinkage limits, compactability and shear strength varied in response to the dominant exchange cation in the structure of montmorillonites and the presence of other mineral components in the materials. The synthetic granite water reacted with montmorillonites and led to changes in chemical and mineralogical compositions, crystalline state and engineering properties.

Download Full-text