TY  - JOUR
Y1  - 2014///
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84896279943&doi=10.4028%2fwww.scientific.net%2fAMR.875-877.1382&partnerID=40&md5=1e24ea47586e62cb26be3ae55a2886ed
N1  - cited By 0; Conference of 2012 International Conference on Advanced Material and Manufacturing Science, ICAMMS 2012 ; Conference Date: 20 December 2012 Through 21 December 2012; Conference Code:103206
A1  - Abdul Karim, Z.A.
A1  - Mohammad Mursal, M.A.H.
A1  - Mat Jamlus, M.H.
JF  - Advanced Materials Research
VL  - 875-87
KW  - Aluminum; Brass; Carbon steel; Diesel fuels; Electric sparks; Electromagnetic waves; Plasmas; Soot
KW  -  Diesel soot oxidation; Experimental investigations; High frequency electromagnetic waves; Infrared thermometers; Melting point temperature; Micro-plasmas; Soot oxidation; Soot oxidation process
KW  -  Metals
TI  - High-frequency electromagnetic waves for diesel soot oxidation strategy
N2  - Results from an experimental investigation for diesel soot oxidation strategy using high-frequency electromagnetic waves in producing metal sparks is provided in this paper. It is envisaged that the micro plasma develop by metal when subjected to high-frequency electromagnetic waves, produces heat that enables soot oxidation process. The work attempts to investigate the relationship between spark inception of metals and micro plasma temperatures at different microwaves intensity. Various metal specimens were exposed to high-frequency electromagnetic waves at different power levels at a specific duration of time. The sparks temperatures or micro plasmas produced by the metals were measured using a high-range infrared thermometer. It was found that aluminum and brass have high spark temperatures when compared to mild steel at lower microwaves power levels. However, both aluminum and brass have lower melting point temperatures than mild steel. This makes the material unsuitable for prolong exposure to high-frequency electromagnetic waves. Mild steel was found the suitable metal to be used as the spark inceptor in the soot oxidation reaction chamber. © (2014) Trans Tech Publications, Switzerland.
SN  - 10226680
EP  - 1386
CY  - Beijing
ID  - scholars5469
AV  - none
PB  - Trans Tech Publications
SP  - 1382
ER  -