13C solid state NMR [1] |

acid mine drainage [1] |

acid washing [1] |

Activated carbon [1] |

activation energy [1] |

Active magnetic bearing [3] |

active magnetic bearing [2] |

Active magnetic bearing (AMB) [1] |

active magnetic bearing (AMB) [5] |

Active magnetic bearings [6] |

active magnetic bearings [2] |

Additives [1] |

adsorption [4] |

adsorption affinity [1] |

adsorption behaviour [1] |

Aeroelasticity [1] |

agglomerates [1] |

agglomeration [1] |

Al [1] |

alternative energy [1] |

altitude controller [2] |

aluminium silicate [1] |

amaranth [1] |

AMD [2] |

Ammonia decomposition [3] |

ammonia decomposition [2] |

amplitude modulation [1] |

Analytical model [1] |

anionic dyes [1] |

Aortic valve replacement [1] |

apoptosis [1] |

apparent charge [1] |

architecture [1] |

Arduino and controller simulation [2] |

aromaticity [1] |

ash constituents [1] |

ash fusion temperature [1] |

Asynchronous machine [1] |

ATR–FTIR [1] |

AUSM scheme [1] |

automatic grading [1] |

Bacillaceae bacteria [1] |

Bacillaceae bacterium [1] |

back-corona [1] |

bacteria biofilm [1] |

balancing [2] |

Batteries [1] |

bentonite [1] |

bentonite clay [1] |

BET model [1] |

biodegradation [1] |

Bioethanol [1] |

bioethanol yield [1] |

biomarkers [2] |

biomass [3] |

biomass regeneration [1] |

Bioremediation [1] |

bioremediation [2] |

Biosorption [1] |

blood glucose production [1] |

Box-Behnken design [1] |

BRAM [1] |

Brayton cycle [2] |

bulk storage tank [1] |

bypass flows [1] |

Ca [1] |

calcite dissolution [1] |

calcium sulphide [1] |

Cancer prevention [1] |

cancer risk [1] |

Capacity [1] |

Carbon dioxide [1] |

carbon dioxide [1] |

carbon nanotubes [1] |

Catalyst [1] |

catalyst [1] |

Catalyst layer [1] |

catalytic steam gasification [1] |

CCSEM [1] |

cement plant [2] |

center of gravity [1] |

centre of gravity [1] |

Cepstrum analysis [1] |

CFD [1] |

CFD model [1] |

CFD simulation [1] |

char morphology [2] |

characterisation [1] |

characteristic splitting [1] |

characterization [1] |

chemical vapour deposition [1] |

Chemical–structural properties [1] |

chitosan [2] |

Claus unit [1] |

Clay [1] |

Clayey materials [1] |

climate commitments [1] |

clutter removal [2] |

co-pyrolysis [1] |

CO2 evolution [1] |

CO2 gasification [1] |

Coal [5] |

coal [4] |

Coal analysis [1] |

coal ash [1] |

coal beneficiation [1] |

coal degradation [1] |

coal fines [1] |

coal fly ash [1] |

coal gasification [1] |

coal microstructure [1] |

Coal ore classification [1] |

coal petrology [1] |

Coal residues [1] |

Coal structure [1] |

coal-char [1] |

coal-fired power station emissions [1] |

COG coordinate control [1] |

Cogging torque [1] |

combustion [2] |

Commercial Buildings [1] |

commercialization [1] |

compressed air systems [1] |

compression breakage [1] |

compressive and abrasion strengths [1] |

compressive breakage [1] |

compressive strength [1] |

Computational fluid dynamics [1] |

Computer based assessment [1] |

Condensation [1] |

condition monitoring [1] |

Condition monitoring (CM) [1] |

Condition monitoring, non-intrusive [1] |

conductivity [1] |

Conference Paper [1] |

Congo Red [1] |

control [3] |

Control and instrumentation [1] |

control engineering education [1] |

control systems engineering [1] |

control valve [1] |

controller [1] |

conventional water heating system [1] |

cooling holder [2] |

cooling system [1] |

cooling systems [1] |

cooperative learning [1] |

copolymerization [1] |

Coronary heart disease [1] |

coronary heart disease [1] |

cost analysis [1] |

coupled reluctance network [1] |

coupled reluctance network model (RNM) [1] |

CP-MAS 13C NMR [1] |

cross-linked polyethylene (XLPE) insulation [1] |

De-volatilisation [1] |

deep mines [2] |

deep-cycle batteries [1] |

Degradation [1] |

Demand Side Management [1] |

Demand-side management [2] |

demand-side management [2] |

demineralization [2] |

demodulation [1] |

dense chars [1] |

density [1] |

density fractionation [1] |

density fractions [1] |

density functional theory [1] |

Depth of evaporation [1] |

design and monitoring [1] |

Desorption [1] |

desorption [1] |

detection [1] |

devolatilization [1] |

devolitalization [1] |

Dewatering [2] |

dewatering [1] |

diabetes [1] |

diagnose [1] |

diagnostics [2] |

Digital control [1] |

dilatometry [1] |

dilution [1] |

direct current measurement [1] |

direct current measurement (DCM) [1] |

direct torque control [1] |

Dissolution [1] |

dissolution [1] |

dissolution kinetics [1] |

distributed control [1] |

distributed hydrogen generation [1] |

DLC coating [1] |

Drying [1] |

drying [1] |

dSPACE® control [1] |

dSpace® controller [1] |

duty cycle [1] |

dyes [1] |

eccentricity [1] |

eddy currents [1] |

Effective thermal conductivity [1] |

efficiency [2] |

Efficiency analysis [2] |

efficiency and vibration analysis [1] |

efficiency temperature analysis [1] |

Electricity Demand [1] |

electro-hydrodynamic (EHD) flow [1] |

electro-spraying [1] |

electromagnetic actuator [1] |

electromagnetics [2] |

electron beam irradiation [1] |

electron microprobe [1] |

electrostatic precipitation (ESP) [1] |

Electrostatic precipitator [1] |

emission reductions [1] |

emissions impact [3] |

emissions projection [1] |

energy [2] |

Energy consumption [1] |

energy crisis [1] |

energy efficiency [9] |

Energy management [4] |

energy management [4] |

Energy management system [1] |

energy management system [1] |

energy savings [1] |

Energy Services Company [1] |

engineering education [1] |

Enthalpy-entropy (h-s) [2] |

environment [1] |

Equi-sampled discrete fourier transform [1] |

Ergun equotion [1] |

ergun index [1] |

Eskom [1] |

ESP collection efficiency [1] |

Euler equations [1] |

external faults [1] |

failures [1] |

Fault [1] |

Fault characterisation [1] |

fault characterisation [1] |

fault conditions [1] |

Fault detection [1] |

fault detection [2] |

fault diagnosis [2] |

fault isolation [1] |

Fe [1] |

fermentation [1] |

field-oriented control [1] |

filtration [1] |

Fine coal [1] |

fine coal [2] |

finite element method [1] |

finite volume method [1] |

Fixed bed dry bottom gasification [1] |

fixed bed reactor performance [1] |

fixed-bed gasification [4] |

flocculation [1] |

flue gas desulfurization [1] |

flue gas desulfurization (FGD) [1] |

Flue gas desulphurization [1] |

Fluidized bed [1] |

fluidized bed [1] |

fluted tube [1] |

flutter [1] |

flux control [1] |

flux leakage [1] |

flux splitting [1] |

Fly ash [1] |

fly ash [1] |

flywheel [1] |

flywheel energy storage system [1] |

fouling [1] |

FPGA [1] |

framework [1] |

fridge plant systems [1] |

FTIR [1] |

fuel cell [1] |

Fuel cells [1] |

fuel cells [2] |

fuel cycle [1] |

fuzzy logic control [1] |

Gas centrifuge [1] |

gas-cooled reactor [1] |

gasification [1] |

gasification and combustion reactivity [1] |

generalized Fryze theory [1] |

global warming [1] |

glucose [1] |

glutamine [1] |

glycolysis [1] |

gold mines [1] |

grafting from ETFE film [1] |

ground penetrating radar [2] |

Gum ghatti [1] |

Gypsum waste [1] |

H2SO4 stability [1] |

Hartbeespoort Dam [1] |

harvesting [1] |

hazardous elements [1] |

HbA1c [1] |

health [1] |

heat pump [1] |

heavy metal ions [1] |

heterogeneous CFD model [1] |

heteropolar magnetic bearing [1] |

Hg, As, Se, Cd and Pb [1] |

Hi-infinity control [1] |

high frequency [1] |

High glycemic load [1] |

High mineral coal-chars [1] |

high speed [1] |

High Temperature Gas-Cooled Reactor (HTGR) [1] |

high temperature gas-cooled reactor (HTGR) [1] |

high temperature reactor [1] |

High-level chronic stress [1] |

Highveld coal [1] |

hot rolling mill [2] |

hot-pressing [1] |

HRTEM [2] |

HTR [1] |

hybrid actuator [1] |

Hydrogen [1] |

hydrogen [1] |

Hydrogen fuel cell [1] |

Hydrogen generation [1] |

hydrogen generation [2] |

hydrogen production [1] |

Hydrogen storage [3] |

hydrogen storage [1] |

hyperglycaemia [1] |

IGCC [1] |

immobilization [1] |

impact breakage [1] |

implementation [1] |

impregnation [1] |

in-line water heating system [1] |

Indian coal [1] |

indirect carbonation [1] |

Induction motor [1] |

induction motor [2] |

inductive sensor [2] |

Industrial compressed air [3] |

Industries [1] |

inertinite [1] |

Inertinite- and vitrinite-rich chars [1] |

inertinite-rich coal [1] |

Inertinite-rich coals [1] |

inherent catalytic effect [1] |

inorganic and organic polymers [1] |

Inspection robot [1] |

inspection robot [3] |

installation design [1] |

instantaneous power theory [1] |

Integer programming [1] |

Integrated energy model [1] |

intraparticle diffusion [1] |

intrinsic reaction rates [1] |

iron [1] |

Landmine detection [2] |

Large coal particles [2] |

large coal particles [1] |

large cooling system [1] |

large groups [1] |

leaching [1] |

leakage flows [1] |

lifetime [1] |

light metals [1] |

lignite [2] |

limestone [1] |

line crawler [1] |

linear alpha olefins [1] |

linear graph [3] |

Load-shift [2] |

long-bowl solution [1] |

low cost [1] |

Low-rank coal [1] |

low-temperature devolatilisation [1] |

LTI [1] |

Lump coal [1] |

lumped parameter [1] |

maceral segregation [1] |

macerals [2] |

magnetic levitation [2] |

magnetic suspension [1] |

maneuverability [1] |

manoeuvrability [1] |

mathematical models [1] |

MATLAB® Simulink® [1] |

Measurement and verification [1] |

Medium rank C [1] |

membrane [2] |

membrane electrode assembly [1] |

Mercury-intrusion [1] |

Metabolism [1] |

metal pollutants [1] |

metal-binding proteins [1] |

metallurgical-grade chromite [1] |

micro-algal biomass [1] |

Micro-focus computed tomography [1] |

micro-grids [1] |

microbial sorbents [1] |

Microchannel reactor [1] |

microchannel reactor [3] |

Microfocus X-ray tomography [1] |

microorganisms [1] |

microstructure [1] |

microwave [1] |

milling energy requirements [1] |

mine cooling [1] |

mine cooling systems [1] |

mine water [1] |

mineral matter [2] |

mineralogy [2] |

minerals [2] |

mining water [1] |

MIP [1] |

mitral valve replcement [1] |

mobile device [1] |

modal control [1] |

model [1] |

model extraction [2] |

model predictive control [1] |

modelling [1] |

Modelling evaluation [1] |

moderate alcohol consumption [1] |

modified BET model [1] |

Moisture [1] |

moisture [1] |

molecular modelling [1] |

Monitoring system [1] |

monitoring system [1] |

morphology [1] |

Moving-bed gasification [1] |

multi-analytical techniques [1] |

Muscovite [1] |

Na2CO3 [1] |

NaCl [1] |

Nanoparticle morphology [1] |

Nanotubes [1] |

network ow optimisation [1] |

network coding [1] |

network topology [1] |

network utilisation [1] |

neural networks [2] |

Neural sensors [1] |

nickel [1] |

Ni–P–PTFE coating [1] |

NMR [1] |

non-linear [1] |

nonlinear actuator [1] |

nuclear [2] |

Nuclear hydrogen [1] |

Nuclear plant safety [1] |

nuclear power in South Africa [1] |

Nuclear power plant [1] |

Nuclear reactor [1] |

Olefin metathesis [1] |

on-line fault diagnosis and correction [1] |

Online monitoring [1] |

optimal geometry [1] |

oxidative sintered pellets [1] |

Packed bed [1] |

packed bed [1] |

Packed-bed reactor [1] |

pair problem solving [1] |

PandaBoard [2] |

panel methods [1] |

parasitic capacitance [1] |

partial discharge (PD) [1] |

partially fluorinated blend components [1] |

particle charging [1] |

particle density [1] |

particle size [1] |

particle size distribution [1] |

passive optical network [1] |

pattern recognition [1] |

PBI blended [1] |

PBMR [2] |

PD (partial discharge) [1] |

PD controller [2] |

Pebble Bed Micro Model (PBMM) [1] |

Pebble Bed Modular Reactor (PBMR) [2] |

pebble bed reactor [1] |

Peltier devices [1] |

PEM fuel cell [1] |

PEM-Fuel Cell [1] |

performance [3] |

performance evaluation [2] |

permanentmagnet synchronous machine (PMSM) [1] |

permittivity [1] |

Petrography [1] |

petrography [1] |

pH [2] |

phenol adsorption [1] |

photovoltaic [2] |

photovoltaic arrays [1] |

photovoltaic panels [1] |

physical adsorption [1] |

plant diagnostics [1] |

plant simulator [1] |

plants [1] |

Plasma-arc [1] |

plastic properties [1] |

platinum–palladium catalyst [1] |

PLC [1] |

poly(pentafluorostyrene) [1] |

Polyelectrolyte membrane [1] |

Porosity [1] |

porosity [1] |

position estimation [4] |

post-sulfonation/phosphonation [1] |

Potassium carbonate [1] |

potassium salt [1] |

potassium salts [1] |

power conversion unit [2] |

power lines [1] |

practical indicative quantification [1] |

pre-diabetes [1] |

precious metal [1] |

precipitated calcium carbonate [1] |

predictive maintenance [1] |

Pressure drop [1] |

Pressurised Water Reactor [1] |

pressurised water reactor [1] |

pretreatment [1] |

principal component analysis [1] |

process control [1] |

Production [1] |

programmable logic controller [3] |

PSD [1] |

Pseudomonas aeruginosa [1] |

public healthcare [1] |

PWR [1] |

pyridinyl alcoholato ligand [1] |

Pyrolysis [1] |

pyrolysis [3] |

Quadcopter [1] |

quadcopter [2] |

quadratic modes [1] |

quality of service [1] |

R-407C [1] |

rain events [1] |

random pore model [1] |

Rare earth elements [1] |

Rate of evaporation [1] |

raw mill [1] |

re-entrainment [1] |

reaction kinetics [1] |

reaction zone [1] |

Reaction-coupled transport phenomena [1] |

reactions rates [1] |

reactive inertinites [1] |

reactive oxygen species [1] |

Reactivity [1] |

reactivity [2] |

reactor flow distribution [1] |

Reactor infrastructure [1] |

real-time [1] |

real-time control [1] |

real-time fault detection [1] |

reconfiguration [1] |

recrystallization [1] |

REE [1] |

Reflux classifier [1] |

Reforming [1] |

refrigeration systems [1] |

reluctance model [1] |

removal [1] |

renewable energy [2] |

resistivity [1] |

response surface methodology [1] |

river water [1] |

roadmap [1] |

Ru/Al2O3 catalyst [1] |

ruthenium carbene precatalyst [1] |

ruthenium catalyst [1] |

sand filtration [1] |

SAXS [1] |

Self-sensing [5] |

self-sensing [1] |

semi-empirical model [1] |

SEMPC [1] |

shoot-through [1] |

shrinking core model [2] |

Shunt active filter [1] |

Si [1] |

simulation [1] |

simulation model [1] |

Simulator [1] |

Single particle impact [1] |

single phase induction motor [1] |

Sintering [1] |

SO2 electrolysis [1] |

SO2 removal [1] |

solar drying [1] |

solar power [3] |

solar power design [1] |

Solar water pumping [1] |

solid state 13C NMR [1] |

SolidWorks® flow simulation [1] |

sorbents [1] |

South Africa [3] |

South African coal [3] |

South African Coals [1] |

Split-range control [1] |

spring-mass-damper [1] |

SS 13C NMR [1] |

stainless steel [1] |

state space averaging model [1] |

State space model [3] |

Stockpile [1] |

structural ordering [1] |

sulfur recovery [1] |

sulphur [1] |

Sulphur trioxide decomposition [2] |

super-capacitors [1] |

supercapacitors [1] |

supported platinum–palladium catalyst pellets [1] |

Surface area [1] |

surface area [1] |

surface energy [1] |

surface properties [1] |

surfactant [1] |

Suspended particles [1] |

swelling [2] |

synthesis gas [1] |

system identification [2] |

system identiﬁcation [1] |

T-tail [1] |

tar [1] |

Tate space model extraction [1] |

TECM [1] |

telecommunication network design [1] |

Telecommunications Facilities [1] |

Telehealth [1] |

Telemedicine [1] |

telemedicine [1] |

Temkin-Pyzhev kinetics [1] |

temperature control [1] |

temperature controller [1] |

templated carbon [1] |

TG-MS [2] |

thermal [1] |

thermal analysis [1] |

thermal breakage [1] |

thermal conduction [1] |

thermal radiation [1] |

Thermodynamics [1] |

Thermoelectric Cooling Module (TECM) [1] |

Thermoelectric cooling modules [1] |

thermoelectric cooling modules [1] |

Thermoelectric Cooling Modules (TECM) [1] |

thermohydraulic systems [1] |

thorium-based fuels [1] |

Ti [1] |

time- and frequency domain [1] |

tissue valve [1] |

TMA [1] |

torrefaction [1] |

toxic heavy metals [1] |

Toxicity [1] |

transformation [1] |

transmission line inspection [2] |

transmission line monitoring [1] |

Transmission lines [1] |

transverse flux generator [1] |

treatment [1] |

Tropical sugar beet [1] |

U-tube [1] |

UG2 [1] |

Ultra-capacitors [1] |

ultra-capacitors [1] |

unbalanced load [1] |

Unit Cell [1] |

unsteady aerodynamics [1] |

upwind scheme [1] |

valorisation [1] |

Variable speed drives [1] |

variable water flow [1] |

vibration monitoring [3] |

Visual texture [1] |

vitrinite-rich medium rank B coal [1] |

void size [1] |

volatile trace elements [1] |

voltage stepping [1] |

Warm air [1] |

water heating system [1] |

water pollution [3] |

water reticulation [1] |

WAXRD–CFA [1] |

Wigner-Ville distribution [1] |

wireless mesh networks [1] |

X-ray [1] |

X-ray diffraction [1] |

X-ray diffraction properties [1] |

XLPE (cross-linked polyethylene) [1] |

XRD [4] |

Z-source inverter [1] |

zeolites [1] |

μ-analysis [1] |