Your search keyword '"Dann A. Jernigan"' showing total 3 results

1. Cost estimate for a proposed GDF Suez LNG testing program

Author

Patrick Dennis Brady, Mark R. Nissen, Marion Michael Hightower, Carlos Lopez, Anay Luketa, Nancy Vermillion, Thomas K. Blanchat, and Dann A. Jernigan

Subjects

Interaction testing, Fire test, Engineering, Cost estimate, business.industry, Scale (chemistry), LNG spill, Statistical dispersion, business, Hazard, Civil engineering, Liquefied natural gas

Abstract

At the request of GDF Suez, a Rough Order of Magnitude (ROM) cost estimate was prepared for the design, construction, testing, and data analysis for an experimental series of large-scale (Liquefied Natural Gas) LNG spills on land and water that would result in the largest pool fires and vapor dispersion events ever conducted. Due to the expected cost of this large, multi-year program, the authors utilized Sandia's structured cost estimating methodology. This methodology insures that the efforts identified can be performed for the cost proposed at a plus or minus 30 percent confidence. The scale of the LNG spill, fire, and vapor dispersion tests proposed by GDF could produce hazard distances and testing safety issues that need to be fully explored. Based on our evaluations, Sandia can utilize much of our existing fire testing infrastructure for the large fire tests and some small dispersion tests (with some modifications) in Albuquerque, but we propose to develop a new dispersion testing site at our remote test area in Nevada because of the large hazard distances. While this might impact some testing logistics, the safety aspects warrant this approach. In addition, we have included a proposal to study cryogenic liquid spills on water more » and subsequent vaporization in the presence of waves. Sandia is working with DOE on applications that provide infrastructure pertinent to wave production. We present an approach to conduct repeatable wave/spill interaction testing that could utilize such infrastructure. « less

Published

2014

2. Temperature and heat flux datasets of a complex object in a fire plume for the validation of fire and thermal response codes

Author

Dann A. Jernigan and Thomas K. Blanchat

Subjects

Engineering, Heat flux, business.industry, Instrumentation, Thermal, Heat transfer, Mechanical engineering, Data validation, Boundary value problem, Aerospace engineering, business, Calorimeter, Plume

Abstract

It is necessary to improve understanding and develop temporally- and spatially-resolved integral scale validation data of the heat flux incident to a complex object in addition to measuring the thermal response of said object located within the fire plume for the validation of the SIERRA/FUEGO/SYRINX fire and SIERRA/CALORE codes. To meet this objective, a complex calorimeter with sufficient instrumentation to allow validation of the coupling between FUEGO/SYRINX/CALORE has been designed, fabricated, and tested in the Fire Laboratory for Accreditation of Models and Experiments (FLAME) facility. Validation experiments are specifically designed for direct comparison with the computational predictions. Making meaningful comparison between the computational and experimental results requires careful characterization and control of the experimental features or parameters used as inputs into the computational model. Validation experiments must be designed to capture the essential physical phenomena, including all relevant initial and boundary conditions. This report presents the data validation steps and processes, the results of the penlight radiant heat experiments (for the purpose of validating the CALORE heat transfer modeling of the complex calorimeter), and the results of the fire tests in FLAME.

Published

2010

3. Test plan for validation of the radiative transfer equation

Author

Allen Joseph Ricks, Dann A. Jernigan, Thomas K. Blanchat, Thomas W. Grasser, and Sean P. Kearney

Subjects

Fire test, Engineering, business.industry, Nuclear engineering, Mechanical engineering, Radiant heat transfer, medicine.disease_cause, Soot, Heat flux, medicine, Radiative transfer, Boundary value problem, Test plan, business

Published

2010