Demonstration of Long-Term Storage Capability for Spent Nuclear Fuel in L Basin

Abstract: APPROVALS 2.1. FUEL INVENTORY-PRESENT AND EXPECTED L BASIN INVENTORY 2.2. ALUMINUM-CLAD FUEL AND ALUMINUM FUEL STORAGE RACK SYSTEM DEGRADATION 2.3. WATER QUALITY FOR ALUMINUM FUEL IN WET STORAGE 3. FUEL STORAGE SYSTEMS 3.1. EBS 3.2. HTS (HORIZONTAL RACKS) 3.3. BUCKET STORAGE 3.4. OS CANS 3.5. FUEL RECOVERY FROM OS CANS 4. WATER CHEMISTRY CONTROL SYSTEM 4.1. DESCRIPTION 4.2. ANALYSIS OF TIME OFF-LINE 4.3. MAINTENANCE OF WCCS 4.4. PORTABLE DEIONIZATION 4.5. WATER CHEMISTRY MONITORING 4.6. CORROSION SURVEILLANCE … Show more

“…Most of the furniture racks as well as the coupons in the surveillance program had an air-formed oxide (~ 5 nm) prior to immersion in the basin [8,9]. Prior to cleanup of the basin water, the thin oxide lead to a low pitting resistance especially in comparison to the store fuel, which have a much thicker oxide formed during reactor operation.…”

Furniture Rack Corrosion Coupon Surveillance - 2012 Update

“…Most of the furniture racks as well as the coupons in the surveillance program had an air-formed oxide (~ 5 nm) prior to immersion in the basin [8,9]. Prior to cleanup of the basin water, the thin oxide lead to a low pitting resistance especially in comparison to the store fuel, which have a much thicker oxide formed during reactor operation.…”

Furniture Rack Corrosion Coupon Surveillance - 2012 Update