ASTM Int'l Develops Remotely Operated Viewing Systems Guide - ASTM C 1661; Begins Nuclear Fuel Pellets Standard
April 16, 2007 // Published as a news service by IHS
ASTM International published a new standard for remotely operated facilities and began the development of a proposed new standard on quality of nuclear fuel pellets.
Subcommittee C26.14 on Remote Systems is responsible for the newly approved standard, ASTM C 1661 - Guide for Viewing Systems for Remotely Operated Facilities, while Subcommittee C26.02 on Fuel and Fertile Material Specifications is working on the development of ASTM WK14330 - Nuclear Fuel Pellet Physical Integrity Limits: Chips, Cracks, Defects.
ASTM C 1661 establishes minimum requirements for viewing systems for remotely operated facilities including hot cells used for the processing and handling of nuclear and radioactive materials.
The standard was developed by Subcommittee C26.14 on Remote Systems, which is part of ASTM International Committee C26 on Nuclear Fuel Cycle.
"This standard has brought together a wide range of experts in the development of remote viewing technologies and experts in the field deployment and application of this equipment," said Frank Heckendorn, C26 member and an advisory engineer at the Savannah River National Laboratory.
According to Heckendorn, ASTM C 1661 can be used for both nuclear and non-nuclear applications where remote viewing is required for operation. While much of the standard applies to nuclear environments in which the survival of equipment exposed to radiation is an issue, the standard also applies in any environment in which direct access is limited due to a variety of factors.
ASTM C 1661 covers all types of remote viewing technology, other than shield windows, which are covered in another C26.14 standard, ASTM C 1572-04 - Standard Guide for Dry Lead Glass and Oil-Filled Lead Glass Radiation Shielding Window Components for Remotely Operated Facilities.
Some of the types of equipment covered by ASTM C 1661 include radiation-hardened and nonradiation-hardened cameras including black and white and color, lenses, camera housings and positioners, periscopes, through-wall/roof viewing, remotely deployable cameras, crane/robot mounted cameras, endoscope cameras, borescopes, video probes, flexible probes, mirrors, lighting, fiber lighting and support equipment.
Heckendorn said that Committee C26 is seeking interested participants from both the user and vendor communities. "Members of both communities can add expertise in the areas of what has, or can be, provided and the expertise of how the technologies can be successfully used," said Heckendorn. "We are seeking participants to help prepare future standards on which work has already started and to assist in keeping the issued standards up-to-date and relevant."
The quality of fuel pellets is an important topic being studied throughout the nuclear industry with study groups such as the Electric Power Research Institute and Institute of Nuclear Power Operations examining the effect of pellet quality on the performance of nuclear fuel.
ASTM International Committee C26 on Nuclear Fuel Cycle is addressing the topic of fuel pellets with a proposed new standard, ASTM WK14330 - Nuclear Fuel Pellet Physical Integrity Limits: Chips, Cracks, Defects, which is under the jurisdiction of Subcommittee C26.02 on Fuel and Fertile Material Specifications.
ASTM WK14330 will provide minimum quality criteria for international nuclear fuel designers/manufacturers, said Thomas Thornton, chair of Subcommittee C26.02. The proposed standard will provide limits regarding the allowable extent of physical damage in as-fabricated, unirradiated uranium dioxide, mixed plutonium-uranium dioxide and uranium-gadolinium dioxide nuclear fuel pellets for use in commercial nuclear power reactors.
ASTM WK14330 will be a compilation of criteria that is contained in other C26.02 standards. "Subcommittee C26.02 is responsible for a number of fuel pellet standards, each of which contains essentially identical criteria for chips, cracks and general surface condition," said Thornton.
"These criteria will be refined in the future as the impact of pellet imperfections in the performance of various nuclear fuel types is better understood. Having a single standard to address these criteria eliminates the possibility of inconsistencies between and among the various pellet standards."
Source: ASTM International.