by Dept. of Energy, for sale by the National Technical Information Service] in [Washington], [Springfield, Va .
Written in English
|Statement||by F. A. Clay and G. E. Crabtree.|
|Series||BDX ; 613-2116 (Rev.), BDX -- 613-2116 (rev.)|
|Contributions||Crabtree, G. E., Bendix Corporation. Kansas City Division. Communications Services., United States. Dept. of Energy.|
|The Physical Object|
|Pagination||28 leaves :|
|Number of Pages||28|
Contaminant Identification Contact: John Passero With the range of different manufacturing out there, the range of potential contaminant materials – and their relative impact – varies significantly. From tiny errant crystalline particles ruining yields in a semiconductor fab, to errant pigment agglomerates in a polymer packaging. The electromechanical age was from to During this time period, the key advance was finding ways to harness electricity. 'Contaminant identification for an electromechanical unit. F. A. Clay has written: 'Contaminant identification for an electromechanical unit' -- subject(s): Contamination (Technology), Defects, Electromechanical devices Asked in Computers, Computer. Identification of contaminant sources is important for controlling indoor air pollution. Previous studies of source identification are mainly based on computational fluid dynamic simulation.
Applied Contaminant Transport Modeling is the first resource designed to provide coverage of the discipline's basic principles, including the theories behind solute transport in groundwater, common numerical techniques for solving transport equations, and step-by-step guidance on the development and use of field-scale by: Case Study: Identification of Unknown Contaminant. PROBLEM: Unknown white residue was contaminating the surface of black molded plastic parts SOLUTION: Utilize Impact Analytical's problem solving expertise to identify the unknown contaminant by infrared analysis. TECHNIQUES: Fourier Transform Infrared Spectroscopy (FT-IR) A leading plastic resin manufacturer contacted the experts . 1 Zhang, T. and Chen, Q. “Identification of cont aminant sources in enclosed environments by inverse CFD modeling,” Indoor Air, 17(3), Identification of contaminant sources in enclosed environments by inverse. Therefore, two hazardous materials identification systems have been developed. The first system is the NFPA’s System, which provides immediate information on chemical hazards during a response to fixed facilities by indicating the product’s health, fire, reactivity, and special hazards.
Identification of contaminant sources in enclosed spaces by a single sensor Article in Indoor Air 17(6) January with 34 Reads How we measure 'reads'. Identification of Contaminant Sources in Enclosed Spaces by a Single Sensor Tengfei Zhang, Qingyan Chen* Air Transportation Center of Excellence for Airliner Cabin Environmental Research (ACER), School of Mechanical Engineering, Purdue University, Purdue Mall, West Lafayette, IN , USA * Corresponding author email: [email protected] Highlights Locating a source of contaminant is critical to protect the occupants’ safety. CONTAM simulation accompanied with ANN to locate a source of contaminant. In more than 90% the source was identified using instant sensors’ readings. The source was located with unknown source strength, release time and location. The method can help building designers decide the optimum number of by: A. Preis, A. Ostfeld, Genetic algorithm for contaminant source characterization using imperfect sensors, Civil Engineering and Environmental Systems (),  T. Zhang, Q. Chen, Identification of contaminant sources in enclosed environments by inverse CFD modeling, Indoor air. 17() Cited by: 2.