화학공학소재연구정보센터
검색결과 : 11건
No. Article
1 Experimental and thermodynamic study of aerosol explosions in a 36 L apparatus
Yuan S, Ji CX, Monhollen A, Kwon JSI, Mashuga C
Fuel, 245, 467, 2019
2 Classification of particle breakage due to dust dispersion
Bagaria P, Li Q, Dastidar A, Mashuga C
Powder Technology, 342, 204, 2019
3 Effect of particle morphology on dust minimum ignition energy
Bagaria P, Prasad S, Sun JZ, Bellair R, Mashuga C
Powder Technology, 355, 1, 2019
4 Effect of particle size reduction due to dust dispersion on minimum ignition energy (MIE)
Bagaria P, Hall B, Dastidar A, Mashuga C
Powder Technology, 356, 304, 2019
5 Improved partial inerting MIE test method for combustible dusts and its CFD validation
Chaudhari P, Ravi B, Bagaria P, Mashuga C
Process Safety and Environmental Protection, 122, 192, 2019
6 Novel method for hybrid gas-dust cloud ignition using a modified standard minimum ignition energy device
Han HT, Chaudhari P, Bagaria P, Mashuga C
Journal of Loss Prevention in The Process Industries, 52, 108, 2018
7 Construction of a 36 L dust explosion apparatus and turbulence flow field comparison with a standard 20 L dust explosion vessel
Castellanos D, Carreto V, Skjold T, Yuan S, Chaudhari P, Mannan MS, Mashuga C
Journal of Loss Prevention in The Process Industries, 55, 113, 2018
8 Effect of dust dispersion on particle breakage and size distribution in the minimum ignition energy apparatus
Bagaria P, Zhang JQ, Mashuga C
Journal of Loss Prevention in The Process Industries, 56, 518, 2018
9 Effect of dust dispersion on particle integrity and explosion hazards
Bagaria P, Zhang JQ, Yang ET, Dastidar A, Mashuga C
Journal of Loss Prevention in The Process Industries, 44, 424, 2016
10 Improved electrospray design for aerosol generation and flame propagation analysis
Lin YR, Chen H, Mashuga C, Mannan MS
Journal of Loss Prevention in The Process Industries, 38, 148, 2015