Keywords used in my research

This is a list of the keywords used in my first 127 publications. The number of the publications in the list corresponds to the ordering in which I published papers, this is not the same as the ordering of papers on my web page. (For example, in the latter journal publications are listed before conference papers).

It's possible that at a latter date I will fix this problem. In the meantime, this list shows you the range of problems that I've worked on as indicated my keyword use!

• access grid: 59
• activated sludge: 60, 63, 71, 92, 93, 113
• activated sludge process: 72
• activity: 120
• adiabatic oxidation and testing: 62
• aerobic: 114
• air flow: 78
• allosteric effect: 76
• ambient temperature: 78
• arrhenius law: 34
• autocatalysis: 123
• autocatalytic reactions: 126
• autoignition: 2, 61

• batch reactor: 61
• bifurcation: 18, 40, 49, 69, 72, 114
• bifurcation analysis: 86
• biodiesel: 76
• bioethanol: 117
• biological heating: 33, 86
• bioprocess: 114
• bioreactor: 63, 68, 95, 97, 98, 102, 111, 112, 125, 127
• bioreactors: 38, 40, 46, 54, 69, 70, 74, 121
• bubble: 51

• caseinate/lactose particle: 115
• catalytic pellet: 34
• Cell growth: 121
• ceramics: 22
• chaos: 119
• char: 1
• chemical oscillator: 49
• chemostat: 63, 97, 111, 125, 127
• coal combustion: 62
• coal-mine fires: 62
• combustion: 22, 47, 52, 78
• Comparison theorms: 16
• compost: 114
• composting: 33, 47, 52, 78, 86
• condensation: 51
• cone Calorimeter: 2, 4, 6, 10, 12, 13, 23, 27
• continuous culture: 69
• continuous stir tank reactor: 81
• Contois growth kinetics: 63, 94, 97, 111, 125, 127
• Contois kinetics: 70
• controlled drug release: 96
• convection: 115
• critical conditions: 45
• critical heat flux: 10, 11, 27
• crossing-point temperature: 116
• CSTR: 93
• cumulative excrtion: 81

• decomposition isothermal: 1
• diffusion: 99, 115
• digesta: 81
• direct contact: 51
• distributed delay: 103

• e-learning: 106
• education: 59
• enzymatic esterification: 76
• ethanol: 73
• exothermic reaction: 18

• fire-retardants: 26
• fire safety: 11
• flammability: 13, 23, 32
• flammability limits: 18, 26
• flammability properties: 4
• flow Reactor: 18, 123
• formal asymptotics: 96
• Frank-Kamenetskii reactivity parameter: 116

• gas-phase oxidation reactions: 36
• gastrointestinal tract: 81
• glassy rubbery polymer transition: 96

• heat conduction: 52
• heat release rate: 27
• heat transfer: 51
• higher education: 106
• hopf bifurcation: 36, 119, 123
• hopf bifurcations: 34, 103, 126

• ignition: 2, 6
• infinite biot number: 116

• kinetic analysis: 76
• kinetic undercooling: 96
• kinetics: 68, 95, 112

• learning design: 106
• lipase: 76
• logistic equations: 103
• long-term care: 120

• mass loss rate: 27
• mass transfer: 99
• mathematical modelling: 70, 99, 114, 117, 121
• mathematics: 59
• membrane bioreactor: 92, 121
• membrane bioreactors: 54
• membrane reactor: 63, 68, 95, 98, 102
• method of lines: 45
• microwaves: 22
• modelling: 40, 49, 60, 63, 68, 72, 73, 81, 92, 93, 95, 113, 124
• Monod growth kinetics: 98, 102
• momentum transfer; 51
• moving boundary problem: 96
• multicomponent transfer: 115
• multistage continuous culture: 124
• multilayer system: 96

• Nicholson's blowflies equation: 119
• non-competitive product inhibition: 98, 102
• non-competitive substrate inhibition: 125
• non-flammable materials: 11
• non-flamming combustion: 12
• non-ideal reactors: 81
• nonlinear dynamic: 111
• nonlinear dynamics: 40, 46, 47, 49, 69, 70, 74
• non-linear dynamics: 38, 52, 72, 78
• nursing home: 120

• observation: 120
• oleic acid: 76
• oscillations: 36

• particle: 99
• pedagogy: 106
• personal care: 120
• polymer: 1
• polymers: 2, 11, 13, 23
• pool-chemical approximation: 36
• productivity: 73, 117

• radiative ignition: 11, 13
• reaction-diffusion equations: 16, 34, 126
• reaction-diffusion-delay equations: 103 , 119
• reaction engineering: 38, 40, 46, 49, 54, 69, 70, 72, 74, 121
• reactor cascade: 73, 93, 94
• recycle: 97, 111
• recycling: 60, 63, 113
• reduced kinetic model: 61
• ruminant: 81

• safety: 47, 52
• segregated reactor model: 81
• self-heating: 33, 47, 52, 78, 86
• self-heating of coal: 62
• self-ignition kinetics: 116
• self-propagating high-temperature synthesis: 22
• self-sustaining combustion: 23
• semi-analytical solutions: 34, 103, 119, 126
• semi-batch reactor: 36
• Semenov model: 33, 86
• settling unit: 113
• singularity theory: 26, 34, 86, 123, 126
• slab geometry: 116
• sludge disintegration: 92, 93
• sludge reduction: 92, 93
• slurries: 63
• smoking combustion: 23
• solvent penetration: 96
• soot: 13
• spontaneous combustion of coal: 62
• spray drying: 99, 115
• stability: 40, 49, 69, 72
• stability analysis: 98, 102
• stagnant: 81
• statistics: 59
• steady-state models: 98, 102
• step-feed reactor: 124
• stirred tank: 92, 93, 94, 95, 97, 98, 102, 112, 127
• stirred-tank: 60, 63, 68, 71
• stirred-tank reactors: 49
• substrate inhibition: 112
• surface composition: 115
• surface layer: 99

• technology: 106
• temperature difference: 51
• TE: 72
• TGA: 1
• thermal ignition: 45
• thermal pyrolysis: 10
• thermogravimetry: 4
• thermokinetic models: 26
• thermoplastics: 4, 6, 10
• transient method: 116
• treatment efficiency: 72

• variable yield: 69
• vapour density: 51

• waste treatment: 114
• wastewater: 60, 63, 70, 113
• wastewater reclamation: 46, 54, 121
• wastewater treamtment: 92, 93
• water treatment: 60, 63, 71, 72, 94, 113, 125, 127

No keywords: 3, 5, 7 , 8, 9, 14, 15 , 17, 19, 20, 21, 24, 25, 28, 29, 30, 31 35, 37, 39, 41, 42, 43, 44, 48, 50, 53, 55, 56, 57, 58, 64, 65, 66, 67, 75, 77, 79, 80, 82, 83, 84, 85, 87, 88, 89, 90, 91, 100, 101, 104, 105, 107, 108, 109, 110, 118, 122