"Turn-out” sampling methodology [1] |

(CuCoO) x [1] |

/s/-fronting [1] |

1-Octene [1] |

10/12 Cycle block [1] |

100 - 25 - 100% [1] |

13C NMR [1] |

13C solid state NMR [1] |

16S rRNA gene [1] |

1D system CFD [1] |

24 Month fuel cycles [1] |

2D monolayer [1] |

31P NMR [1] |

3D printing [1] |

3D printing, [1] |

?-analysis [1] |

A-201 AEM membranes [1] |

A-901 AEM membranes [1] |

Absorption [1] |

AC [1] |

AC permanent magnet (PM) transverse-flux generator [1] |

ac- tivation distributions [1] |

Accelerated pavement testing [1] |

Accident localization area [1] |

Accuracy [3] |

Acid mine drainage [4] |

acid mine drainage [1] |

acid separation [1] |

Acid treatment [1] |

Acid washing [1] |

Acid-excess [1] |

Acidic components [1] |

Acoustic features [1] |

Acoustic model training, [1] |

Acoustic modeling [1] |

acoustic modelling [1] |

Acoustics [1] |

Acquisition [1] |

Activated alumina [1] |

Activated aluminum [3] |

Activated carbon [2] |

Activation distribution [1] |

Activation energy [1] |

activation energy [1] |

Active dryer [1] |

Active magnetic bearing [7] |

active magnetic bearing [2] |

Active magnetic bearing (AMB) [4] |

active magnetic bearing (AMB) [4] |

Active magnetic bearing systems [2] |

Active magnetic bearings [7] |

active magnetic bearings [2] |

Active power [1] |

Active RFID tags [1] |

active surface area [1] |

Activity-based risk [1] |

Ad hoc networks [3] |

Adaptive control [1] |

adaptive control [1] |

Additive manufacturing [3] |

Additive manufacturing education [2] |

Additives [1] |

ADMD [1] |

Admittance measurement [1] |

Admixture [1] |

Adsorbents [1] |

Adsorption [9] |

adsorption [3] |

Adsorption affinity [2] |

adsorption affinity [3] |

adsorption behaviour [1] |

Adsorption column [1] |

Adsorption energy [1] |

Adsorption isotherm [1] |

Adsorption kinetic [1] |

Adsorption kinetics [1] |

Adsorption models [1] |

Adsorption of cadmium and lead [1] |

Advance characterization [1] |

AEMION [1] |

Aeroelasticity [1] |

Afrikaans [4] |

Afrikaans spoken lectures [1] |

Ag (1 1 1) surface [1] |

Agents [1] |

agglomerates [1] |

Agglomeration [2] |

agglomeration [1] |

Aggregation [1] |

Aggregation intervals [1] |

Air conditioners [1] |

Air conditioning [1] |

Air cooling [1] |

Air dense medium fluidization [1] |

Air Insulated Switchgear (AIS) [1] |

Air pollution [1] |

Air traffic control [1] |

Aircraft configuration [1] |

Aircraft design [1] |

Al [1] |

Al6082 [2] |

Algae [1] |

Algebraic codes [1] |

Algorithm design and analysis [1] |

Algorithm for variable bandwidth estimation [1] |

Algorithms [1] |

Alkaline treatment [1] |

alkene separation [1] |

Alloy catalysts [1] |

alternative energy [1] |

altitude controller [1] |

Alumina [1] |

Aluminium [1] |

aluminium silicate [1] |

Aluminum [1] |

Amaranth [2] |

amaranth [1] |

Ambient temperature [1] |

AMD [3] |

Ammonia decomposition [5] |

ammonia decomposition [2] |

Ammonia electrolysis [1] |

Ammonia microcombustion [1] |

Ammonia oxidation [2] |

Ammonia removal [1] |

Ammonia-to-hydrogen [1] |

Ammonium titanate [1] |

Ampacity [1] |

Amplitude modulation [1] |

Anaerobic [1] |

Anaerobic fermentation [1] |

Analog-to-digital converter (ADC) [1] |

Analysing co-articulation [1] |

Analytical model [1] |

Android [2] |

Android (operating system) [1] |

Animal feed [1] |

Anion exchange membrane [3] |

Anionic dye [1] |

anionic dyes [1] |

Anionic flocculant [1] |

Anisotropic scattering [1] |

Anodized aluminium oxide [1] |

Anodized aluminum [1] |

Anomalous vehicle behavior [1] |

Anomaly detection [1] |

Antibacterial compounds [1] |

Antimicrobial activity [1] |

Antimicrobial compound [1] |

Antiscalant [1] |

Aortic valve replacement [1] |

apoptosis [1] |

apparent charge [1] |

Apple juice [1] |

Appliance-based modelling [1] |

Applications of speech technology [1] |

Applied thematic analysis [1] |

Aqueous phase [1] |

Aqueous phase recirculation [1] |

AR floc 100 [1] |

architecture [1] |

Arduino and controller simulation [1] |

Arid region [3] |

Armour [2] |

Aromaticity [2] |

aromaticity [1] |

Artificial neural network [3] |

Artificial neural network (ANN) [1] |

Artificial Neural Networks [1] |

Artificial neural networks [1] |

As [1] |

Ash [1] |

Ash composition [1] |

Ash constituents [1] |

Ash flow temperature [3] |

Ash fusion temperature [2] |

ash fusion temperature [1] |

Aspen HySys® [1] |

Aspergillus niger [1] |

ASR corpora [1] |

ASR data collection [1] |

ASR system [1] |

Assessment of harmonic emission [1] |

Assessment of insulation systems [2] |

Asymmetric system [1] |

Asynchronous machine [1] |

Asynchronous sampling [1] |

Atmosphere [1] |

Atmospheric gasoil [1] |

ATR-FTIR [1] |

ATR–FTIR [1] |

Attapulgite [1] |

attapulgite [1] |

Attributed graphs [2] |

Au/Al2O3 catalyst [1] |

Audio harvesting [1] |

audio search [1] |

AUSM scheme [1] |

Auto-ID [1] |

Automated microscopy [1] |

Automatic [1] |

Automatic grading [1] |

Automatic language identification [1] |

Automatic modulation classification [2] |

Automatic pronunciation generation; Lexical modeling [1] |

Automatic speech recognition [4] |

automatic speech recognition [1] |

Automatic speech recognition (ASR) [2] |

Automatic transcription generation [1] |

Autothermal [1] |

Autothermal hydrogen production [1] |

Autothermal reactor design [1] |

Availability [1] |

Axial porosity [2] |

Axial ratio (AR) [1] |

Axial-flow compressor [1] |

Azo dye [1] |

B. subtilis [2] |

Ba [1] |

BABEL [1] |

Babel evaluation languages [1] |

Bacillaceae bacteria [1] |

Bacillaceae bacterium [1] |

back-corona [1] |

Backpropagation [1] |

Backscatter [1] |

Backup bearing [2] |

Bacteria [1] |

bacteria biofilm [1] |

Bacteriophages [1] |

Bag filter dust [1] |

bag-of-words approach [1] |

Bagasse [4] |

balancing [2] |

Barium sulphate [1] |

Barium sulphide [1] |

Base-excess [1] |

Baseline development [1] |

Baseline models [1] |

Batch hydrothermal liquefaction [1] |

Batteries [2] |

Battery [1] |

Battery storage plants [1] |

BD_ADDRESS [1] |

Bed voidage [1] |

Benders decomposition [1] |

Benefit-cost analysis [1] |

Bentonite [2] |

bentonite [1] |

Bentonite clay [1] |

bentonite clay [2] |

Bentonite/biochar/hematite composite [1] |

Best subset selection [1] |

BET model [1] |

BGR [1] |

Biaxial strength [1] |

Big data [1] |

Binder [1] |

Binders [1] |

Bio-butanol [2] |

Bio-char [1] |

Bio-enzymes [1] |

Bio-ethanol [1] |

Bio-oil [2] |

Bioavailability [1] |

Biochar [8] |

Biochar yield [1] |

Biochemical [1] |

Biodegradable [2] |

Biodegradation [1] |

biodegradation [2] |

Biodiesel [15] |

Biodiesel by-product [1] |

Biodiesel wastewater [2] |

Bioenergy [1] |

Bioethanol [6] |

Bioethanol production [1] |

bioethanol yield [1] |

Bioflocculants [1] |

Biofuel [3] |

Biofuel production [1] |

Biofuels [4] |

Biogas [2] |

Biohydrogen [2] |

Biomarkers [2] |

biomarkers [1] |

Biomass [6] |

biomass [1] |

Biomass form [1] |

Biomass reactivity [1] |

biomass regeneration [1] |

Biomass to liquid (BtL) [4] |

Biomass-derived solvent [1] |

Biometrics [1] |

Bionanosponge [1] |

Biooil [1] |

Bioplastics [1] |

Biopolymer [1] |

Biopolymers [1] |

Biorefinery [4] |

Bioremediation [3] |

bioremediation [2] |

Biosorbent [1] |

Biosorption [2] |

Biowaste [1] |

Bismuth [2] |

bitstream [1] |

Bitstream analysis [1] |

Bitstream specialisation [1] |

Bituminous coal [2] |

BLA [1] |

Blended diesel [1] |

Blended learning [1] |

blood glucose production [1] |

Blood-alcohol measurement [1] |

Bluetooth [1] |

Boost converter [2] |

Boron nitride [1] |

Bottom of pyramid [1] |

Boundary element [1] |

Box-Behnken design [1] |

Brain derive neurotrophic factor [1] |

BRAM [2] |

Brayton cycle [4] |

Break strength [1] |

Breakage [1] |

Brewery waste [1] |

Brewery wastewater [1] |

Brewing waste [1] |

Brewing wastewater [1] |

Bridges [1] |

Briquetting [1] |

Broadband [1] |

Broadband speech corpora [1] |

Brunovsky canonical form [1] |

Buck converter [1] |

Buckling [1] |

Bulk porosity [1] |

bulk storage tank [1] |

Burnable poison [1] |

Business intelligence [1] |

bypass flows [1] |

C-center defect complex [1] |

Ca [1] |

Ca-content [2] |

Cadmium [3] |

Cadmium ions [1] |

Caking degree [1] |

Calcination [1] |

calcite dissolution [1] |

calcium carbonate [1] |

Calcium lignosulphonate [1] |

calcium sulphide [2] |

Calculated COP [1] |

Canada [1] |

Cancer prevention [1] |

cancer risk [1] |

Capacity [1] |

Carbon [1] |

Carbon black Vulcan XC-72 [1] |

Carbon capture and utilization [1] |

Carbon crystallite [1] |

Carbon dioxide [3] |

Carbon dioxide gasification [1] |

Carbon monoxide [1] |

Carbon nanomaterials [1] |

Carbon nanotubes [1] |

carbon nanotubes [1] |

Carbon reclamation [1] |

Carbon-fibre [2] |

carbonation [1] |

Carbonatite ores [1] |

Carbonisation [1] |

CaSO4 [1] |

Cassava [1] |

Cast-iron stove [1] |

Catalysis [2] |

Catalyst [2] |

catalyst [1] |

Catalyst layer [1] |

Catalyst recovery [1] |

Catalyst support [2] |

Catalytic conversion [1] |

Catalytic effect [2] |

Catalytic gasification [2] |

Catalytic hydrogen combustion [2] |

Catalytic microchannel [1] |

catalytic steam gasification [1] |

Cathodic protection [1] |

Cation contamination [1] |

cation exchange capacity [1] |

Cationic dye [1] |

Cationic dyes [1] |

Cationic flocculant [1] |

Cationic- and anionic-dyes [1] |

CCSEM [2] |

Cell viability [1] |

Cement plant [2] |

cement plant [1] |

center of gravity [1] |

Central composite design [1] |

Centre of Gravity [1] |

centre of gravity [1] |

Centroid estimation [1] |

Cepstrum analysis [2] |

Ceramic [2] |

Ceramic composite membranes [1] |

Cesium [1] |

CFD [3] |

CFD model [1] |

CFD model development [1] |

CFD modelling [1] |

CFD simulation [2] |

Chalcopyrite [3] |

Channel modelling [1] |

Char de-ashing [1] |

Char morphology [3] |

char morphology [2] |

Char reactivity [1] |

Characterisation [1] |

characteristic splitting [1] |

Characterization [1] |

Charcoal [1] |

Chemical analysis [1] |

Chemical energy [1] |

Chemical engineering [2] |

Chemical interaction [1] |

Chemical oxygen demand [1] |

Chemical properties [1] |

Chemical treatment [1] |

chemical vapour deposition [1] |

Chemical–structural properties [1] |

Chemistry [1] |

Children's technology usage [1] |

chitosan [2] |

Chitosan membrane [1] |

Chromite [1] |

Chromite pre-reduction [1] |

Chromite prereduction [1] |

CIGRE/CIRED C4.109, IEC 61000-4-30, harmonic vector method [1] |

Ciprofloxacin [1] |

Circuits [1] |

Circular economy [1] |

Circular polarization [1] |

Citric acid [1] |

Class A [1] |

Classification [1] |

classification accuracy [1] |

Claus unit [1] |

Clay [1] |

clay [1] |

Clay-biochar composite [1] |

Clayey materials [2] |

Clean energy [3] |

Clear water-pumping system [1] |

Cleats [1] |

climate commitments [1] |

Clinical laboratory [1] |

clinoptilolite [1] |

Closed metalliferous mine [1] |

Clostridium diolis [1] |

Clostridium species [1] |

Clustering [1] |

Clustering algorithm [1] |

clutter removal [2] |

Co [1] |

CO stripping [1] |

CO tolerance [1] |

Co-combustion [1] |

Co-digestion [1] |

Co-fermentation [1] |

Co-gasification [2] |

Co-processing [1] |

Co-pyrolysis [2] |

CO2 [1] |

CO2 capture [2] |

CO2 capture systems [1] |

CO2 emissions [1] |

CO2 evolution [1] |

CO2 gasification [2] |

CO2 gasification reactivity [1] |

CO2 methanation [1] |

CO2 sequestration [1] |

CO2 storage in coal seam [1] |

Coadsorption [1] |

Coagulation [2] |

Coal [21] |

coal [2] |

Coal agglomeration [1] |

Coal analysis [1] |

Coal ash [1] |

Coal beneficiation [1] |

coal beneficiation [1] |

Coal briquette [1] |

Coal cleaning [1] |

Coal combustion [1] |

coal degradation [1] |

Coal demineralisation [1] |

Coal extraction [1] |

Coal fines [3] |

coal fines [1] |

Coal fly ash [1] |

coal fly ash [1] |

Coal gasification [1] |

coal microstructure [1] |

Coal mine drainage [1] |

Coal ore classification [1] |

Coal petrology [1] |

Coal power plant [1] |

Coal properties [2] |

Coal rank [1] |

Coal residues [1] |

Coal structure [1] |

Coal tailing [1] |

Coal tailings leachate [1] |

Coal tar [2] |

Coal to liquids [2] |

coal-char [1] |

coal-fired power station emissions [1] |

Coal-to-liquids [1] |

Coalbed methane [1] |

Coarse coal [1] |

Coarse coal gasification [1] |

Coated fuel particle [1] |

COD [2] |

Code switching [1] |

code switching [1] |

Code-switching [2] |

COG coordinate control [1] |

Cogeneration [1] |

Cogging torque [7] |

Coherent Data Synchrophasors [1] |

Coincidence [1] |

Coke [1] |

Coke production [1] |

Coking [1] |

cold chain [1] |

Column generation [1] |

Column regeneration [1] |

Combined power generation capacity [1] |

Combustion [2] |

combustion [2] |

Commercial Buildings [1] |

Commercial high rise [1] |

commercialization [1] |

Comparing Developmental Applications [1] |

Competitive [1] |

Complex systems [1] |

Compliance to compatibility [1] |

Composite [3] |

Composite membrane [1] |

Composites [1] |

Composition [1] |

Compressed air management tool [1] |

Compressed air system [1] |

compressed air systems [1] |

compression breakage [1] |

Compressive and abrasion strengths [1] |

compressive breakage [1] |

Compressive sensing [1] |

Compressive strength [2] |

Compressive strength test [1] |

Compressor [1] |

Compressor efficiency [1] |

Compressor failure forecasting [1] |

Compressors [1] |

Computation of selected sections [1] |

Computational fluid dynamics [5] |

Computational Fluid Dynamics (CFD) [1] |

Computational methods [3] |

Computer aided instruction [1] |

Computer based assessment [1] |

COMSOL [1] |

COMSOL, FEM, Modelling, Microwave Absorption, Heat Transfer [1] |

Concentrate streams [1] |

Condensation [1] |

Condition Based Monitoring (CBM) [1] |

Condition monitoring [7] |

condition monitoring [1] |

Condition monitoring (CM) [1] |

Condition monitoring, non-intrusive [1] |

Condition-based maintenance [1] |

Condition-based maintenance (CBM) [1] |

Conduction heat transfer [2] |

Conductivity [1] |

conductivity [1] |

Conductivity removal [1] |

Conductor rating [1] |

Conference Paper [1] |

Confidence measures [1] |

Confidence scoring [1] |

Congo Red [1] |

Consequences of differences in educational levels [1] |

Constellation diagram [1] |

Constructed wetland MFC [1] |

Consumption profiles [1] |

Contact resistance [1] |

Contact sorption drying [2] |

Containers [1] |

Contaminants [1] |

Content Analysis and Indexing [1] |

Contextualization [1] |

Continuous hydrothermal liquefaction [2] |

Continuous improvement [1] |

Control [2] |

control [4] |

Control and instrumentation [1] |

Control design [1] |

control engineering education [1] |

control of large-scale systems [1] |

Control systems [1] |

control systems engineering [1] |

Control technologies [1] |

control valve [1] |

Control volume [1] |

controller [1] |

Convection [1] |

Convection heat transfer [1] |

conventional water heating system [1] |

Coolant injection [1] |

cooling holder [2] |

Cooling system [1] |

cooling system [1] |

cooling systems [1] |

Cooperating classifiers [1] |

cooperative learning [1] |

Cooperative systems [1] |

copolymerization [1] |

Copper adsorption [1] |

Copper mining [1] |

Copper oxide [2] |

Coronary heart disease [3] |

coronary heart disease [1] |

Coronary heart disease effect [1] |

Coronary heart disease risk [1] |

Corpus design [1] |

Corpus validation [1] |

Cost [1] |

cost analysis [1] |

Cost reduction [2] |

Cost savings [1] |

Cost-performance [1] |

Cottonseed oil [1] |

Counter-flow heat exchanger [1] |

coupled reluctance network [1] |

coupled reluctance network model (RNM) [1] |

Covalent-ionically cross-linked [1] |

Covalently cross-linked [1] |

Coverage maps [1] |

CP-MAS 13C NMR [1] |

CPMAS [1] |

Cr [1] |

Cr(VI) [2] |

CREAK [1] |

Critical fault clearing time [1] |

Critical properties of gases [1] |

Criticality [1] |

Criticality analysis [1] |

Crop load factors [1] |

Cross-border [1] |

Cross-border processes [1] |

Cross-linked chitosan beads [1] |

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

Crosslingual acoustic modeling and adaptation [1] |

Crude cottonseed oil [1] |

Crude glycerol [1] |

Crushing [1] |

Cryptochrome [1] |

Cryptography [1] |

Crystallization [1] |

Cu, Mo, Ni and Zn [1] |

Cultivation [1] |

Culturally inclined earcons [1] |

CuO [1] |

Current density [1] |

Current harmonics [1] |

Current interrupt [2] |

Current interrupt (CI) [1] |

Current mapping (CM) [1] |

Current measurement [1] |

Current transformers [3] |

Current unbalance [1] |

Current unbalance factor [1] |

Customs operations [1] |

Customs risk engine [1] |

Cut-size [1] |

Cyanide degrading bacteria [2] |

Cyclic voltammetry [1] |

Cyclodextrin [1] |

Dark fermentation [2] |

Data acquisition [1] |

Data dashboards [1] |

Data loggers [1] |

Data mining [3] |

Data models [1] |

Data resolution analysis [1] |

Data-efficient ASR [1] |

DC [1] |

DC-DC boost converter [1] |

DC-DC converter [2] |

De-oxygenation [1] |

De-volatilisation [2] |

Decentralized control [1] |

Decision making [2] |

Decision support methods [1] |

Decision-making [1] |

Decoding [1] |

Deconvolution [1] |

Deep learning [1] |

deep mines [2] |

deep-cycle batteries [1] |

Deep-level mine [1] |

Default-and-refine algorithm [1] |

Defects in semiconductors [1] |

Degradation [2] |

Degradation mechanism [1] |

Degradation of characteristics [2] |

Degree of attainment [1] |

Degree of dehydrogenation [1] |

Dehydrogenation [3] |

Delays [2] |

Demand market participation [1] |

Demand Side Management [1] |

Demand side management [2] |

Demand-side management [2] |

demand-side management [2] |

Demineralisation [1] |

Demineralization [2] |

Demodulation [1] |

Demodulators [1] |

dense chars [1] |

Dense medium [1] |

Density [1] |

density [1] |

density fractionation [1] |

density fractions [1] |

Density functional theory [7] |

density functional theory [2] |

Density separated fractions [1] |

Deoxygenation [1] |

Depolymerization [1] |

Depth of evaporation [1] |

Deregulation [1] |

Desalination [1] |

Design [3] |

design and monitoring [1] |

Design framework [1] |

Design process [1] |

Desorption [1] |

desorption [1] |

Detection [1] |

detection [1] |

Detection limit [1] |

Developing countries [1] |

Developing regions [1] |

Developing world [1] |

Developing world technology usage [1] |

Development and implementation of ST4D [1] |

Development-path [1] |

Devolatilization [1] |

devolatilization [1] |

devolitalization [1] |

Dewatering [3] |

dewatering [1] |

DFT [3] |

DFT + U [1] |

DFT + U correction [1] |

DFT-D [2] |

diabetes [1] |

diagnose [1] |

Diagnosis [3] |

Diagnostics [1] |

diagnostics [2] |

Dibenzyltoluene [1] |

Diesel-biodiesel blend [1] |

Different phonemic context sizes [1] |

Diffusion [1] |

Digital control [1] |

Digital logic circuit [1] |

Digital signatures [1] |

DIgSILENT [1] |

DIKW [1] |

Dilatometry [1] |

Dilute acid [1] |

Dilute alkaline [1] |

dilution [1] |

Dimensionality reduction [1] |

Dimethyl carbonate [1] |

Dipole correction [1] |

Direct bitstream manipulation [2] |

Direct current measurement [1] |

Direct current measurement (DCM) [1] |

direct current measurement (DCM) [1] |

Direct ethanol fuel cell [1] |

Direct liquefaction [1] |

Direct membrane deposition [1] |

direct torque control [1] |

Discard coal [1] |

Discounted cash flow model [1] |

Discourse Model [1] |

Discrete ordinates [1] |

Discretisation [1] |

Disinfection [1] |

Displacement sensor [1] |

Dissolution [2] |

dissolution [1] |

dissolution kinetics [1] |

Distortion [1] |

distributed control [1] |

Distributed energy resources [1] |

Distributed generation [3] |

distributed hydrogen generation [1] |

Distributed power generation [2] |

Distribution networks [1] |

Diversity [1] |

DLC coating [1] |

DLOFC [3] |

DNNs layers [1] |

Dolerite [1] |

Dolomite [1] |

dolomite [1] |

Domain-specific text corpora [1] |

Domestic appliances [1] |

Domestic coal combustion [1] |

Domestic wastewater treatment [1] |

Dominant dynamic behaviour [1] |

Dopant [1] |

Doping [1] |

Double layer capacitor (DLC) models [1] |

Double suction centrifugal pumps [1] |

Double-heterogeneity [1] |

DOUBLEHET [1] |

Drainage [1] |

Drinking water quality [1] |

Drinking water supply system (DWSS) [1] |

Drinking water supply systems (DWSS) [1] |

Drive cycle [1] |

Dry coal beneficiation [2] |

Drying [3] |

drying [1] |

dSPACE® control [1] |

Dspace® controller [1] |

dSpace® controller [1] |

DTMF [2] |

Dual tone multi frequency [1] |

Dubinin-Radushkevich-Henry law hybrid [1] |

Dubinin-Radushkevich-Henry law hybrid (DR-HH) [1] |

Durability [1] |

Duty cycle [1] |

duty cycle [1] |

dye removal [1] |

Dyes [1] |

dyes [1] |

Dynamic [1] |

Dynamic load-shedding [1] |

Dynamic programming [1] |

Dynamic reference [2] |

Dynamic spectrum access [1] |

Dynamical properties [1] |

Earliest decoding [1] |

Earth [1] |

Earth to air heat exchanger [1] |

Ecc [1] |

eccentricity [1] |

Economic analysis [1] |

Economic Forces [1] |

Economic-viability [1] |

Economics [1] |

Eddy current [1] |

eddy currents [1] |

Effect of unit choice [1] |

Effective thermal conductivity [4] |

Effectiveness criteria [1] |

Efficiency [1] |

efficiency [3] |

Efficiency analysis [2] |

efficiency and vibration analysis [1] |

Efficiency measurements [1] |

efficiency temperature analysis [1] |

Efficient data selection [1] |

Efficient lighting upgrade [1] |

Efflorescent crusts [1] |

Eggshell [1] |

Elastic modulus [1] |

Electric vehicle [3] |

Electrical energy [1] |

Electrical machine [1] |

Electrical machines [3] |

Electrical properties [1] |

Electrical resistivity [1] |

Electricity Demand [1] |

Electricity supply industry [1] |

Electro-hydrodynamic (EHD) flow [1] |

electro-spraying [1] |

Electrocatalyst layer [1] |

Electrocatalysts [1] |

Electrocatalytic layer [2] |

Electrochemical cells [1] |

Electrochemical impedance spectroscopy [3] |

Electrochemical Impedance Spectroscopy (EIS) [1] |

Electrochemical impedance spectroscopy (EIS) [1] |

electrochemical model [1] |

Electrochemical surface area [2] |

electrode morphology [1] |

Electrodes [1] |

Electrolyser [2] |

Electrolysis [3] |

Electrolyte molality [1] |

electromagnetic actuator [1] |

Electromagnetic interference [1] |

Electromagnetic torque [1] |

electromagnetics [2] |

Electromotive force characterization [1] |

electron beam irradiation [1] |

Electron microprobe [2] |

Electronic band gap [1] |

Electronic engineering [1] |

Electronic properties [1] |

Electronic safety equipment [1] |

Electronic vehicle identification [2] |

Electrospinning [2] |

Electrostatic precipitation (ESP) [1] |

Electrostatic precipitator [2] |

Electrostatic precipitator (ESP) [1] |

Element phases C, H, N, S and O [1] |

Elevated pressure [1] |

Embedded language pronunciation [1] |

emission reductions [1] |

emissions impact [3] |

emissions projection [1] |

Emissions reduction [1] |

Empirical parameter estimation [1] |

Emulator [1] |

Energy [8] |

energy [3] |

Energy arbitrage [1] |

Energy conservation [1] |

Energy consumption [1] |

Energy cost savings [1] |

energy crisis [1] |

Energy efficiency [7] |

energy efficiency [10] |

Energy flow [1] |

Energy management [6] |

energy management [4] |

Energy management system [3] |

Energy minimization [1] |

Energy monitoring & management [1] |

Energy neutral [1] |

Energy penalty [1] |

Energy recovery [3] |

Energy savings [1] |

energy savings [1] |

Energy Services Company [1] |

Energy storage [4] |

Energy storage modelling [1] |

Energy storage systems [1] |

Energy visualisation [1] |

Energy-based [1] |

Energy-based representation [1] |

Energy-based visualisation [2] |

Energy-visualisation [1] |

Engineering design [1] |

Engineering education [3] |

Engineering students [1] |

English, isiZulu [1] |

Enhancement methods [2] |

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

Entomoremediation [1] |

Environment [2] |

environment [1] |

Environmental [1] |

Environmental assessment [1] |

Environmental Forces [1] |

Environmental pollution [1] |

Enzymatic conversion [1] |

Enzymatic process [1] |

Enzymatic removal [1] |

Enzyme [1] |

EPR [1] |

Equal area criteria [1] |

Equations [1] |

Equi-sampled discrete fourier transform [1] |

Equilibrium [1] |

Equipment, tools and products [1] |

Equivalent electrical circuit [2] |

Ergun equotion [1] |

ergun index [1] |

Error correction [1] |

Error correction codes [1] |

Eskom [2] |

ESP collection efficiency [1] |

Ethanol electrooxidation [1] |

Ethanol fermentation [1] |

Euler equations [1] |

Euler-Bernoulli beam [1] |

European pressurized reactor [1] |

Evaluating acoustic modelling [1] |

Evaluation [3] |

evaluation [1] |

Evaporation [1] |

Evening peak [1] |

EVI [1] |

Evolutionary computation [1] |

Excel [1] |

Excess sorption isotherm [1] |

Exergy [2] |

Exergy analyses [1] |

Exergy flow [1] |

Expanded granular bed reactor [1] |

Experimental design approach [1] |

Experimental facility [1] |

Experimental investigation [1] |

Experimental validation [1] |

Experimentation [1] |

extended-surface support [1] |

external faults [1] |

F6PBI blend proton exchange membranes [1] |

Facial recognition [1] |

Facility layout [1] |

FactSage [1] |

FactSage modelling [1] |

FACTSAGE™ [1] |

failures [1] |

Fan system performance [1] |

FAS [1] |

Fats-oil-grease [1] |

Fault [4] |

Fault characterisation [1] |

fault characterisation [1] |

fault conditions [1] |

Fault detection [6] |

fault detection [2] |

Fault detection and diagnosis [1] |

Fault detection and isolation (FDI) [2] |

Fault detection and localization [1] |

Fault detection techniques [1] |

Fault diagnosis [2] |

fault diagnosis [2] |

Fault identification [2] |

fault isolation [1] |

FC application [1] |

FDM [1] |

Fe [1] |

Feature based classification [1] |

Feature construction [1] |

Feature descriptor [1] |

Feature distributions [1] |

Feature extraction [1] |

Feed water [1] |

FeFe2+/Fe3+ ratio [1] |

FEM [1] |

Fermentation [5] |

fermentation [1] |

Ferrimagnetism [1] |

Ferrocene [1] |

Ferrochrome [2] |

Ferrochrome smelter plant [1] |

Ferrochromium [1] |

Ferromagnetism [3] |

FGW transformation matrix [1] |

Fibre metal laminate [2] |

Field programmable gate arrays [1] |

Field trials [1] |

field-oriented control [1] |

filtration [1] |

Financial model [1] |

financial time series [1] |

Fine coal [4] |

fine coal [2] |

Fine coal dewatering [1] |

Fine coal tailing [1] |

Fines [1] |

Fingerprint [1] |

Finite element analysis [3] |

Finite element method [1] |

finite element method [1] |

finite volume method [1] |

First-order reaction kinetics [1] |

Fixed bed [1] |

Fixed bed dry bottom gasification [1] |

Fixed bed gasification [1] |

fixed bed reactor performance [1] |

Fixed pitch wind turbine [1] |

Fixed-bed gasification [2] |

fixed-bed gasification [3] |

Flaring percentage [1] |

FLASHCHAIN® [1] |

Flat fading [1] |

Flemish [1] |

Flexible rotor [1] |

Flight objective [1] |

Flipped teaching [1] |

Flocculation [8] |

flocculation [1] |

Floor geological structures [1] |

Flow (Dynamics) [1] |

Flow cytometry [1] |

Flownet [1] |

Fluctuating [2] |

Fluctuating resources [2] |

flue gas desulfurization [1] |

flue gas desulfurization (FGD) [1] |

Flue gas desulphurization [1] |

Fluidised bed granulation [1] |

Fluidized bed [2] |

fluidized bed [1] |

fluted tube [1] |

flutter [1] |

flux control [1] |

Flux leakage [3] |

flux leakage [1] |

Flux linkage [1] |

flux splitting [1] |

Fluxing agent [1] |

Fly ash [1] |

fly ash [1] |

Flying wing [1] |

flywheel [1] |

flywheel energy storage system [1] |

FML [2] |

Foams [1] |

Food safety [1] |

Food scandal [1] |

Food shortage [1] |

Food waste [2] |

Forced convection [1] |

Forced ventilation [1] |

Formic acid decomposition [1] |

Fortesque transform [1] |

Fouling [1] |

fouling [1] |

FPGA [4] |

Fraction of Second (FOS) [1] |

Fractions [1] |

Frame-based feature trajectories [1] |

Framework [1] |

framework [1] |

FREAK [1] |

Free convection [1] |

Free cyanide [2] |

Frequency [1] |

Frequency measurement [1] |

Frequency response [1] |

Freundlich isotherm and Adsorption kinetics [1] |

fridge plant systems [1] |

FTIR [2] |

Fuel cell [2] |

fuel cell [1] |

Fuel cell application [1] |

Fuel cells [3] |

fuel cells [2] |

Fuel cycle [3] |

fuel cycle [1] |

Fuel economy [1] |

Fuel pumps [1] |

Fuels [2] |

Full scope simulator [1] |

fully-connected feedforward networks [1] |

Fulvic acid [1] |

Functional density [1] |

Functionality [1] |

Fundamental [1] |

Fundamental frequency [2] |

Fuzzy logic [5] |

fuzzy logic control [1] |

Fuzzy neural nets [1] |

Fuzzy system [2] |

g-C3 N4 [1] |

G2P [1] |

Galerkin finite element method [1] |

Gamification [1] |

Garbage modeling [1] |

Gas centrifuge [1] |

Gas cleaning [1] |

Gas engines [1] |

Gas nitriding [1] |

Gas-cooled reactor [1] |

Gasification [6] |

gasification [1] |

gasification and combustion reactivity [1] |

Gasification kinetics prediction [1] |

Gaussian elimination decoding [1] |

Generalization [3] |

generalized Fryze theory [1] |

Generalized regression neural network [1] |

Generation Z [1] |

Generator [1] |

Genetic algorithm (GA) [1] |

Genetic algorithms [2] |

Genetical-engineering [1] |

Geyser temperature [1] |

GGA + U [2] |

GHG emission reduction [1] |

GHG emissions [1] |

Global Positioning System [2] |

Global sensitivity analysis [1] |

Global warming [1] |

glucose [1] |

Glucose deprivation [1] |

glutamine [1] |

Glycerin [1] |

Glycerol-free [1] |

glycolysis [1] |

gold mines [1] |

Goodness of pronunciation [1] |

Government policies [1] |

GPS timestamping [1] |

grafting from ETFE film [1] |

Graph matching [1] |

Graph theory [1] |

Grapheme-based ASR [3] |

Graphemic systems [1] |

Grate incineration [1] |

Gravity [1] |

Green customs lanes [1] |

Green synthesis [1] |

Greenhouse gas mitigation [1] |

Grid code compliance [3] |

ground penetrating radar [2] |

Ground vibration testing [1] |

Groundwater [1] |

Groundwater monitoring [1] |

Groundwater quality index [1] |

Growth [1] |

Grubbs-type catalyst [1] |

GSM [1] |

Guerbet coupling [1] |

Gum ghatti [1] |

Gutter oil [1] |

Gypsum waste [2] |

H-infinity control [1] |

H2SO4 oxidative and extraction-stability tested [1] |

H2SO4 stability [3] |

Half-metal [1] |

Half-metallic [1] |

Half-metallicity [1] |

Half-semiconducting [1] |

Hardness [1] |

Harmonic analysis [3] |

Harmonic distortion [5] |

Harmonic emission [4] |

Harmonic emission assessment [1] |

Harmonic emissions [1] |

Harmonic phasor [1] |

Harmonic vector method [3] |

Harmonic waveform distortion [1] |

Hartbeespoort Dam [1] |

Harvesting [1] |

harvesting [1] |

Hazardous elements [1] |

HbA1c [1] |

health [1] |

Health risk indicators [1] |

Health status [1] |

Heat and mass exchanger networks [1] |

Heat balance equation [1] |

Heat exchanger [2] |

Heat exchangers [1] |

Heat pipes [1] |

heat pump [1] |

Heat pump system [1] |

Heat pumps [1] |

Heat transfer [3] |

heavy and light metals [1] |

heavy metal ions [1] |

Heavy metal pollutants [1] |

Heavy metal sequestration [1] |

Heavy metals [3] |

HeLa cell survival and morphology [1] |

Helical coil [1] |

Helical movement of the rotor [1] |

helicopter systems [1] |

Hermetia illucens [1] |

Hermetic enclosure [1] |

heterogeneous CFD model [1] |

Heterogeneous Fenton oxidation [1] |

heteropolar magnetic bearing [1] |

Heterostructure [1] |

Hexavalent chrome [1] |

Hexavalent chromium [1] |

Hg [1] |

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

Hi-infinity control [1] |

Hidden Markov Models [1] |

Hidden Markov models [1] |

hidden Markov models [1] |

high frequency [1] |

High frequency power supplies [1] |

High glycemic load [1] |

High mineral coal-chars [1] |

High performance glider [1] |

high speed [1] |

High temperature gas-cooled reactor [1] |

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

High temperature gas-cooled reactor (HTGR) [2] |

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

High temperature reactor [1] |

high temperature reactor [1] |

High temperature suitability [1] |

High-dimensional Feature Spaces [1] |

High-dimensional spaces [1] |

High-level chronic stress [1] |

High-temperature treatment [1] |

Highveld coal [1] |

Highveld coal char [1] |

histograms [1] |

Historic steam profiles [1] |

Homogeneous catalyst [1] |

Homogeneous thorium/uranium [1] |

hot rolling mill [2] |

Hot water [1] |

hot-pressing [1] |

Hoveyda-Grubbs [1] |

HRTEM [2] |

HT-XRD [2] |

HTGR [3] |

HTR [1] |

Human Factors [1] |

Human need [1] |

Humic acid [1] |

Humidity cell test [1] |

Husks [1] |

hybrid actuator [1] |

Hybrid architecture [1] |

Hybrid capacitor [2] |

Hybrid electric vehicle [1] |

Hybrid energy storage [1] |

Hybrid energy storage system [2] |

Hybrid functionals [1] |

Hybrid MIL-101(Cr)/ZTC [1] |

Hybridization [1] |

Hybridized techniques [1] |

Hydraulic diameter [1] |

Hydraulic magnetic [1] |

Hydrochemical characteristics [1] |

Hydrocyclone [1] |

Hydrodesulphurisation [1] |

Hydroformylation [3] |

Hydrogel nanocomposite [1] |

Hydrogels [2] |

Hydrogen [7] |

hydrogen [1] |

Hydrogen evolution [1] |

Hydrogen evolution reaction [2] |

Hydrogen fuel cell [1] |

Hydrogen generation [7] |

hydrogen generation [2] |

Hydrogen leakage [1] |

Hydrogen production [7] |

hydrogen production [2] |

Hydrogen purity [1] |

Hydrogen safety [2] |

Hydrogen safety system [1] |

Hydrogen storage [8] |

hydrogen storage [1] |

Hydrogen sulphide deactivation [1] |

Hydrogen uptake [1] |

Hydrogenation [1] |

Hydrogeochemical characteristics [1] |

hydrolysate [1] |

Hydrolysis [1] |

Hydrophobic polymer [1] |

Hydrotalcite [1] |

Hydrothermal liquefaction [2] |

Hydrothermal liquefaction (HTL) [3] |

Hydrotreatment [4] |

hyperglycaemia [1] |

HyS electrolysis [1] |

HySA infrastructure [1] |

I/Q plane [1] |

ICTD [1] |

Idea2Product [1] |

Ideal wing [1] |

Identification [1] |

IDS [1] |

IEC 61000-4-30 [2] |

IEEE 1459 [1] |

IEEE 1459-2010 [1] |

IGCC [1] |

Image processing [2] |

Immobilisation [1] |

Immobilization [1] |

immobilization [1] |

Impact Analysis [1] |

impact breakage [1] |

Impedance [1] |

Impedance measurement [1] |

implementation [1] |

impregnation [1] |

In silico [1] |

In situ bioremediation [1] |

in-line water heating system [1] |

In-road antenna [1] |

In-situ [2] |

Included and excluded minerals [1] |

independent of language and bandwidth [1] |

Indian coal [3] |

indirect carbonation [1] |

Indium [3] |

Induced adaptation [1] |

induced tolerance [1] |

Induction motor [2] |

induction motor [2] |

Induction motor test methods [1] |

Induction motor test standards [1] |

Induction motors [1] |

induction motors [1] |

inductive sensor [2] |

Industrial [2] |

Industrial asset management [1] |

Industrial compressed air [3] |

Industrial Engineering [1] |

Industrial engineering [3] |

industrial information systems [1] |

Industrial Internet of Things (IIoT) [1] |

Industrial plants [1] |

Industrial revolution [2] |

Industries [2] |

Industry [1] |

Industry 4.0 [2] |

Industry development [1] |

Inebriation [1] |

Inefficient compressed air usage [1] |

Inertia vacuum filter [1] |

Inertinite [1] |

inertinite [1] |

Inertinite rich bituminous coal [1] |

Inertinite- and vitrinite-rich chars [1] |

Inertinite-rich coal [1] |

Inertinite-rich coals [1] |

Inference measurement [1] |

Inflation factor [1] |

Influence of SVM [1] |

Information access [1] |

Inherent catalytic effect [1] |

Inkjet-printing [1] |

Inorganic additives [1] |

inorganic and organic polymers [1] |

Inorganic coagulants [1] |

Inorganic pollutants [1] |

Input Matrix Representation [1] |

Input parameter selection [2] |

Input-output modeling [1] |

Inspection robot [1] |

inspection robot [3] |

installation design [1] |

instantaneous power theory [1] |

Instrument transformers [1] |

Integer programming [2] |

Integrated circuit modeling [1] |

Integrated energy model [1] |

Integrated load management [1] |

Integrated model [1] |

Integrated reactor model [1] |

Integrated reactor-exchanger [1] |

Intelligent control [2] |

Intelligent parking [1] |

Inter-area oscillation [1] |

Inter-area oscillation monitoring [1] |

Interaction [1] |

Interactions [1] |

Interactive data visualization [1] |

Interactive devices [1] |

Interactive learning [1] |

Interactive voice response [1] |

Interactive Voice Response (IVR) system [1] |

Interactive whiteboard [1] |

Internal alkene [2] |

Internet of Things [2] |

Interpolation [1] |

Intonation model [1] |

Intoxication [1] |

intraparticle diffusion [1] |

intrinsic reaction rates [1] |

Inverse vulcanization [1] |

Invertors [1] |

Investment [1] |

Ionic potential [1] |

Ionic-covalently cross-linked [1] |

Ionically cross-linked [1] |

IoT [1] |

Iron [2] |

iron [1] |

Iron minerals [1] |

Irrigation inefficiency [1] |

IsiXhosa [1] |

isiXhosa [1] |

ISO 50001 [1] |

ISO18000-6 [1] |

Isolation [1] |

Isotherm [2] |

Isotherm model [1] |

IVR [1] |

IVR systems [1] |

Japanese [1] |

Jensen-Shannon Divergence [1] |

Joint harmonic active power [1] |

Joint sequence models [1] |

K2CO3 [1] |

Kaldi [2] |

Kalman Filter [1] |

Kernel bandwidth [1] |

Kernel bandwidth estimation [1] |

Kernel density [1] |

Kernel Density Estimation [1] |

Kernel density estimation [1] |

Kinetic [3] |

Kinetic dissolution [1] |

Kinetic model [2] |

Kinetic modelling [1] |

Kinetic models [1] |

Kinetics [3] |

kinetics [1] |

Koutecky- Levich relationship [1] |

Kraft lignin [2] |

Kraft lignin, lignosulphonate, organosolv, biorefinery [1] |

Kriging [1] |

Kullback-Leibler divergence [1] |

Lactate [1] |

Landfill [1] |

Landmine detection [2] |

Langmuir isotherm [2] |

Language Identification [2] |

Language identification accuracy [1] |

Language Model [1] |

Language model [1] |

Language portability [1] |

Languages [2] |

Lanthanide doping [1] |

Large coal particles [2] |

large coal particles [1] |

large cooling system [1] |

Large Eddy Simulation (LES) [1] |

large groups [1] |

Large scale industrial systems [1] |

Larval substrate [1] |

Law enforcement [1] |

Layered double hydroxide [1] |

Leaching [2] |

leaching [1] |

Lead [1] |

Lead adsorption [1] |

lead-acid battery [1] |

Leak [1] |

leakage flows [1] |

Lean [1] |

Lean implementation [1] |

Lean management [1] |

Lean manufacturing [2] |

Learnability [1] |

Learnership [1] |

Learning experiences [1] |

Learning theory [1] |

Least squares estimate [1] |

Lecture Transcription [1] |

Lecture transcription [1] |

Lemmatisation [1] |

Levelized cost of energy [1] |

Lexical model [1] |

LID studies [1] |

Lifetime [1] |

light metals [1] |

Lighting efficiency retrofit [1] |

Lightly-supervised training [1] |

Lignin [5] |

Lignite [1] |

lignite [1] |

Lignocellulose [3] |

Lignocellulosic biomass [1] |

Lignocellulosic biowaste [1] |

Lignocellulosic sources [1] |

Lignosulphonate [2] |

Lime softening [1] |

Limestone [1] |

limestone [1] |

Limitations [1] |

line crawler [1] |

Line start [3] |

Line-start [2] |

Linear alpha olefins [1] |

Linear force [1] |

Linear graph [1] |

linear graph [2] |

Linear model [1] |

linear optimal control [1] |

linear Regression [1] |

Linear static deflection analysis [1] |

linear systems [1] |

Linearisation [1] |

Lipase [2] |

Liptinite [1] |

Liquefaction [9] |

Liquid organic hydrogen carrier [1] |

Liquid organic hydrogen carrier (LOHC) [1] |

Lithium-ion battery pack [1] |

Load factor [1] |

Load forecast [1] |

Load management [1] |

Load modeling [1] |

Load profile [1] |

Load reduction [1] |

Load shifting [1] |

Load-following [1] |

Load-shift [2] |

LOCA [1] |

Local benchmarking [1] |

Localization of harmonic distortion sources [1] |

Localization of harmonic sources [1] |

Logistic regression [1] |

Logistics [1] |

LOHC [2] |

Long term operation [1] |

long-bowl solution [1] |

losses [1] |

low cost [1] |

Low purity aluminium [1] |

Low smoke fuel [1] |

Low-cost [1] |

Low-rank coal [1] |

Low-resource speech recognition [1] |

low-resource speech recognition [1] |

Low-resource speech technology [1] |

Low-resourced areas [1] |

Low-smoke fuels [1] |

Low-temperature devolatilisation [1] |

Low-temperature plasma ashing [1] |

LQR control method [1] |

LS-PSMS [1] |

LTI [1] |

Lump coal [1] |

lumped parameter [1] |

Lwazi [1] |

Lwazi ASR corpus [1] |

Lwazi corpus [1] |

M&V of EEDSM projects [1] |

M&V of lighting retrofits [1] |

maceral segregation [1] |

Macerals [1] |

macerals [2] |

Machine design [2] |

Machine learning [3] |

Magnetic bearings [1] |

magnetic bearings [1] |

Magnetic gear [1] |

magnetic levitation [2] |

Magnetic liquids [1] |

Magnetic shunt [1] |

Magnetic shunts [1] |

Magnetic suspension [1] |

magnetic suspension [1] |

Magnetite [1] |

Maintenance stakeholders [1] |

Management [1] |

maneuverability [1] |

Manilkara zapota seed oil [1] |

manoeuvrability [1] |

Manufacturing input [1] |

Maslow hierarchy [1] |

Match-on-Card [1] |

Mathematical modeling [1] |

mathematical models [1] |

Mathematical programming [1] |

Matlab® /Simulink® [1] |

MATLAB® Simulink® [1] |

Matlab®/Simulink® [2] |

Matrix language [1] |

Maximum entropy [1] |

Maximum Leave-one-out Likelihood [1] |

Maximum sorption capacity [1] |

MCNP6 [3] |

MEA doping [1] |

Measured G2P performance [1] |

Measurement and verification [2] |

Measurement uncertainty [3] |

Measurements [1] |

Mechanism [1] |

Mechanistic and statistical models [1] |

Mechanochemical activation [3] |

Mechanochemical processing [1] |

Medical information search [1] |

Medical waste [1] |

Medium rank C [1] |

Membrane [2] |

membrane [3] |

Membrane electrode assembly [3] |

membrane electrode assembly [1] |

Membrane rupture test [1] |

Membrane-electrode assembly [1] |

Membranes [1] |

Mercury adsorption [1] |

Mercury-intrusion [1] |

Metabolic cancer control [1] |

Metabolism [1] |

Metagenomics [1] |

Metal dispersion [1] |

Metal ion [1] |

Metal organic framework (MOF) [1] |

Metal oxide [1] |

metal pollutants [1] |

Metal retention [1] |

Metal speciation [3] |

metal-binding proteins [1] |

Metallurgical carbon balance [1] |

Metallurgical-grade chromite [1] |

Metals [2] |

Metals recovery [1] |

Metastability [1] |

Metathesis [2] |

Meter sampling [1] |

Metering error [1] |

Meters [1] |

Methyl acetate [1] |

Methylcyclohexane [1] |

MFC [1] |

Micro franchise [1] |

Micro gas turbine [1] |

micro-algal biomass [1] |

Micro-focus computed tomography [1] |

micro-grids [1] |

Micro-synchrophasor [1] |

Microalgae [4] |

Microbial contaminants [1] |

microbial sorbents [1] |

Microchannel reactor [4] |

microchannel reactor [3] |

Microcontroller [1] |

Microcontrollers [1] |

Microfocus X-ray tomography [1] |

Microgrid [2] |

Microorganism [1] |

microorganisms [1] |

Micropore properties [1] |

Microprobe [1] |

Microservices [1] |

Microstrip patch antenna [1] |

microstructure [1] |

Microwave [2] |

microwave [1] |

Microwave absorption [1] |

Microwave reader [1] |

Microwave traffic sensor [1] |

Migration [1] |

Milieu of varying educational levels [1] |

Milling energy requirements [1] |

Mine cooling [1] |

mine cooling [1] |

mine cooling systems [1] |

Mine dump rocks [1] |

mine effluent [1] |

Mine effluents [1] |

Mine industry [1] |

Mine ventilation [1] |

mine water [1] |

Mineral additives [1] |

Mineral changes [1] |

Mineral characterization [1] |

Mineral composition [1] |

Mineral matter [6] |

Mineral phases [1] |

Mineral structure [1] |

Mineralogy [1] |

mineralogy [2] |

Minerals [2] |

minerals [1] |

Miniature circuit breaker [1] |

Minimum bactericidal concentration [1] |

Minimum fluidization velocity [1] |

Minimum fungicidal concentration [1] |

Minimum standards in quality of supply [1] |

Mining [3] |

Mining wastewater [2] |

mining water [1] |

MIP [1] |

Mitigation [1] |

mitral valve replcement [1] |

Mixed convection [2] |

Mixed convection heat transfer [1] |

Mixed integer linear programming [2] |

Mixed microorganisms [1] |

MLP [1] |

Mn [1] |

Mobile [1] |

mobile device [1] |

Mobile phones [1] |

Mobile radio [1] |

Mobile search [1] |

Mobile User Experience [1] |

Mobile voice-based services [1] |

Mobility [1] |

MOC [1] |

Modal analysis [3] |

modal control [1] |

model [1] |

model extraction [2] |

model predictive control [1] |

Modeling [1] |

Modelling [5] |

modelling [1] |

Modelling evaluation [1] |

Modelling input [1] |

Moderate alcohol consumption [1] |

Modern power system waveform analysis [1] |

Modern power systems - electric power quality [1] |

Modified BET model [1] |

Modulated synthesis [1] |

Moisture [4] |

Moisture control [1] |

Moisture transport [1] |

molecular dynamics [1] |

molecular modelling [1] |

Molten salt reactor [1] |

Molybdenum sulfide [1] |

Monazite [1] |

Monitoring [3] |

monitoring and control [1] |

Monitoring and performance assessment [1] |

Monitoring system [1] |

monitoring system [1] |

Monolayer [2] |

Monte Carlo experiments [1] |

Mooi River [1] |

Mooi river [1] |

Morphological segmentation [1] |

Morphology [1] |

morphology [1] |

Morris method [1] |

MoS2 [1] |

MoS2 nanostructure [1] |

Motor Insulation tests [2] |

Moulding [1] |

Moving bed biofilm reactor [1] |

Moving-bed biofilm reactor [1] |

Moving-bed gasification [1] |

Mössbauer spectroscopy [1] |

MPUI [1] |

Multi effect distillation [1] |

Multi-analytical techniques [1] |

multi-analytical techniques [1] |

Multi-domain [1] |

Multi-frequency Park transformation [1] |

Multi-objective optimisation [1] |

multi-objective optimisation [1] |

Multi-objective optimization [1] |

multi-speaker and code-switched data [1] |

Multi-walled carbon nanotubes [1] |

Multifunctional microchannel reactor [1] |

Multilayer perceptron [1] |

Multilingual name pronunciation [1] |

Multilingual directory [1] |

Multilingual environment [1] |

Multilingual Names [1] |

Multilingual speech processing [1] |

Multilingual speech recognition [2] |

Multimedia [1] |

Multinational [1] |

Multiobjective optimization [1] |

Multiple correspondence analysis [1] |

Multiple input DC-DC converters [1] |

Multiple layer PCB [1] |

Multiplication eigenvalue [1] |

Multivariable control [1] |

Municipal solid waste [1] |

Municipal solid waste (MSW) [1] |

Muscovite [1] |

N-gram statistics [1] |

Na2CO3 [1] |

NaA zeolite [1] |

NaCl [1] |

Nafion [1] |

Nafion ™ [1] |

Nano-mineralogy [1] |

Nano-zerovalent iron particles [1] |

Nanobiosorbent [1] |

Nanocomposite [2] |

Nanocomposites [1] |

Nanofiltration [1] |

Nanomaterials [1] |

Nanoparticle morphology [1] |

Nanoparticles [4] |

Nanosponge composite [1] |

Nanotubes [1] |

Naphthalene [2] |

National standards [1] |

Natural circulation [1] |

Natural compounds [1] |

Natural convection [1] |

Natural language processing [2] |

Natural Language Processing— Speech recognition and synthesis [2] |

Natural organic matter [1] |

Natural vibration frequencies [1] |

Near density material [1] |

Near-wall effect [3] |

Negative sequence fundamental frequency active and reactive power [2] |

Negative-sequence components [1] |

Net present value [2] |

Network [1] |

network ow optimisation [1] |

Network coding [5] |

network coding [1] |

Network coherent data [1] |

Network design [1] |

Network harmonic impedances [4] |

Network model [1] |

Network planning [1] |

Network risk management [1] |

Network topology [1] |

network topology [1] |

network utilisation [1] |

Neural circuitry [1] |

Neural network [2] |

Neural Networks [1] |

Neural networks [1] |

neural networks [2] |

Neural sensors [1] |

Neutron diffraction [1] |

Neutron poison [2] |

Neutron Radiograph [1] |

Neutronics [2] |

NH3 adsorption [1] |

NH3 sensing [1] |

Nickel [1] |

nickel [1] |

Nickel catalyst [1] |

nickel separation [1] |

NIST-NCNR [1] |

Nitrogen forms transformation [1] |

Nitrogen functionality [1] |

Ni–P–PTFE coating [1] |

NMR [1] |

NNs yield predictions [1] |

Node placement [1] |

Noise filtering [1] |

NOM [1] |

Non-energy benefits [1] |

Non-hydrophobic polymer [1] |

Non-ionic flocculant [1] |

non-linear [1] |

Non-linear activation function [1] |

Non-noble metal catalyst [2] |

Non-parametric [1] |

Non-parametric density estimation [1] |

Non-temporal parity space analysis [2] |

Noninvasive [4] |

Nonlinear acoustics [1] |

nonlinear actuator [1] |

Noodle waste [1] |

nuclear [2] |

Nuclear data [1] |

Nuclear hydrogen [1] |

Nuclear plant safety [1] |

nuclear power in South Africa [1] |

Nuclear power plant [2] |

Nuclear power stations [2] |

Nuclear reactor [1] |

Nuclear-hydrogen energy [1] |

Nucleation rate [1] |

Number pronunciation [1] |

Numerical ESP model [1] |

Nutrient [1] |

O'Kiep [2] |

Oceanic wave energy [1] |

Off-gas [3] |

Olefin metathesis [1] |

On Line Partial Discharge (OLPD) [1] |

On-device quality control [1] |

on-line fault diagnosis and correction [1] |

On-road antenna [1] |

On-road RFID [1] |

Online [1] |

Online measurements [4] |

Online monitoring [1] |

Open-circuit voltage [1] |

Operating temperature [1] |

Operations above 100 °C [1] |

Optical reflectance [1] |

Optimal control [1] |

optimal control [1] |

Optimal geometry [1] |

optimal geometry [1] |

Optimal investment [1] |

Optimal investments [1] |

Optimisation [2] |

Optimised [1] |

Optimization [4] |

Optimization methods [1] |

Optimized scheduling [1] |

Oral Users [1] |

Ordered double perovskite [1] |

Organic acids [1] |

Organic contaminants [1] |

Organic functional groups [1] |

Organic solvent nanofiltration [2] |

Organic waste [2] |

Organic wastes [2] |

Organisational hierarchy insights [1] |

Organosolv [2] |

Orifices (mechanical) [1] |

ORP [1] |

Out-of-step [2] |

Overall porosity [1] |

Overlaps [1] |

Overvoltage [1] |

Oxalic acid [2] |

Oxidative sintered pellets [1] |

Oxygen capture [1] |

Oxygen evolution reaction [2] |

Oxygen reduction reaction [1] |

O’Kiep [3] |

P. aeruginosa [2] |

P2G transliteration [2] |

Packed bed [6] |

packed bed [1] |

Packed pebble bed [3] |

Packed-bed reactor [1] |

Packing [1] |

PACl [1] |

PAH [1] |

PAHs [1] |

pair problem solving [1] |

Pairing [1] |

Palatalisation [1] |

PandaBoard [2] |

panel methods [1] |

Para-to ferro-magnetic transition [1] |

Parameter estimation [1] |

parasitic capacitance [1] |

Pareto optimal [1] |

Parsing [1] |

Partial Discharge (PD) [1] |

partial discharge (PD) [1] |

Partially fluorinated blend components [1] |

Particle charging [1] |

Particle collection efficiency [1] |

particle density [1] |

Particle porosity [1] |

particle size [1] |

particle size distribution [1] |

Particulate emissions [1] |

Partition curve [1] |

Passivation [1] |

Passive autocatalytic hydrogen recombiner [1] |

passive optical network [1] |

Passive ultra high frequency (UHF) [1] |

Pattern matching [1] |

Pattern recognition [3] |

pattern recognition [1] |

Pattern-recognition problems [1] |

Patulin degradation [1] |

PBI based blend membranes [1] |

PBI blend membranes [1] |

PBI blended [1] |

PBI-blend membranes [1] |

PBI-blended membranes [1] |

PBMR [2] |

PD (partial discharge) [1] |

PD controller [1] |

Peak shaving [1] |

Pebble Bed Micro Model (PBMM) [1] |

Pebble Bed Modular Reactor (PBMR) [2] |

Pebble bed reactor [4] |

pebble bed reactor [1] |

Pebble-bed reactor [2] |

Pechini [1] |

Peltier devices [1] |

PEM [1] |

PEM fuel cell [2] |

PEM-Fuel Cell [1] |

PEMFC [1] |

Percolation [1] |

Performance [2] |

performance [3] |

Performance analysis [1] |

Performance benchmarking [2] |

Performance evaluation [1] |

performance evaluation [2] |

Performance visualisation [1] |

Periodontal disease [1] |

Perishable food [1] |

Permanent magnet [1] |

Permanent magnet (PM) machines [1] |

Permanent magnet (PM) motor [1] |

Permanent magnet machine [1] |

Permanent magnet motor [1] |

Permanent magnet synchronous machines [1] |

Permanent magnet synchronous motor [1] |

Permanent magnets [2] |

permanentmagnet synchronous machine (PMSM) [1] |

Permeability [1] |

Permittivity [1] |

Petrochemical [1] |

Petrochemical industry [1] |

Petrography [2] |

petrography [1] |

PFSA [1] |

pH [3] |

Phase compensation function [1] |

Phase firing angle [1] |

Phase function [1] |

Phase mutation [1] |

Phase stability [1] |

Phase transition [2] |

Phase-Difference-on-Arrival [1] |

Phase-locked loop [1] |

Phasor measurement unit [1] |

Phasor Measurement Unit (PMU) [1] |

Phasor measurement units [1] |

phenol adsorption [1] |

Phenolic compounds [1] |

Phenols [1] |

Phone recognition [1] |

phone recognition [1] |

Phone-based dynamic programming scores [1] |

phone-recognition [1] |

Phoneme-to-grapheme rules [2] |

Phonon [3] |

Photocatalysis [2] |

Photocatalyst [2] |

Photocatalysts [1] |

Photocatalytic degradation [3] |

photovoltaic [2] |

Photovoltaic (PV) generation [1] |

photovoltaic arrays [1] |

photovoltaic panels [1] |

Photovoltaic power systems [1] |

photovoltaic power systems [1] |

Phycoremediation [1] |

physical adsorption [1] |

Physics-based model [1] |

PID [2] |

PID control [1] |

PIN [1] |

Pineapple waste [1] |

Pipe reactor [1] |

Pipeline network [1] |

Planning parameters [1] |

Plant diagnostics [1] |

plant diagnostics [1] |

plant simulator [1] |

plants [1] |

Plasma arc reforming [2] |

Plasma-arc [1] |

Plastic properties [1] |

Platinum [4] |

platinum–palladium catalyst [1] |

PLC [2] |

Plitt-Flintoff [1] |

PM [1] |

PM synchronous motor [1] |

PMSG [2] |

PMU Data Quality [1] |

Pneumatic source [1] |

Point of common coupling [1] |

Pole-slip [2] |

Pollution [3] |

Poly(arylene ether phosphine oxide)s and poly(arylene thioether phosphine oxide) [1] |

Poly(arylene ether)s [1] |

poly(pentafluorostyrene) [1] |

Polyampholyte [1] |

Polyaromatic PBI blend membranes [1] |

Polycyclic aromatic hydrocarbon [1] |

Polycyclic aromatic hydrocarbons [2] |

Polyelectrolyte membrane [1] |

Polymer electrolyte membrane [1] |

Polyols [2] |

Polyurethane [3] |

Polyvinyl alcohol [1] |

Pore development [1] |

Pore-widening [1] |

Pores [1] |

Poroelectroelastic theory [1] |

Porosity [5] |

porosity [1] |

Porous [1] |

portfolio management [1] |

Position estimation [2] |

position estimation [3] |

Positive identification [1] |

Post-metathesis [1] |

post-sulfonation/phosphonation [1] |

Potassium [1] |

Potassium carbonate [2] |

Potassium salt [1] |

potassium salts [1] |

Potchefstroom [1] |

Potential Toxic Elements (PTEs) [1] |

Poultry slaughterhouse wastewater [1] |

power conversion unit [2] |

Power definitions [1] |

Power demand [1] |

Power density [1] |

Power density profile [3] |

Power engineering computing [1] |

Power factor [1] |

Power generation [5] |

Power generation control [1] |

Power generation economics [1] |

Power generation faults [1] |

Power generation reliability [1] |

Power grid [1] |

Power grids [3] |

power lines [1] |

Power meters [1] |

Power network [1] |

Power plant [1] |

Power plants [1] |

Power quality [8] |

Power quality measurements [1] |

Power stations [2] |

Power supply quality [2] |

Power system dynamics [1] |

Power system harmonics [5] |

Power system management [1] |

Power system measurements [1] |

Power system modeling [1] |

Power system monitoring [2] |

Power system restoration [1] |

Power system security [1] |

Power system stability [4] |

Power transmission [1] |

Power transmission faults [1] |

Power transmission protection [1] |

Power-to-gas [2] |

Power-to-X [1] |

PQ [3] |

PQ benchmarking [2] |

PQ compatibility [1] |

PQ management [2] |

PQ reporting [2] |

Practical [1] |

practical indicative quantification [1] |

Practical low-cost condition monitoring [1] |

pre-diabetes [1] |

Pre-oxidation [1] |

precious metal [1] |

precipitated calcium carbonate [1] |

Predicted COP [1] |

Predicting the pronunciation of the name [1] |

Predicting the pronunciations of proper names [1] |

Predicting vowel substitution [1] |

prediction [1] |

prediction with temporal convolutional networks [1] |

predictive maintenance [1] |

Predictive Model [1] |

Prehydrolysis liquor [1] |

Pressure drop [2] |

Pressure vessel [1] |

Pressure vessel insulation [1] |

Pressurised Water Reactor [1] |

pressurised water reactor [1] |

Pressurized water reactor [1] |

Pretreatment [4] |

pretreatment [1] |

Prevailing angle [1] |

Prevailing harmonic phase angle [1] |

Prevailing phase angle [1] |

Prevailing phasors [1] |

Principal component analysis [1] |

principal component analysis [1] |

Principal component analysis (PCA) [2] |

Prismatic block reactor [1] |

Problem solving [1] |

Process [3] |

Process chamber [1] |

process control [1] |

process modeling and identification [1] |

Process modelling [1] |

Process route [1] |

Processing Spoken Lectures [1] |

Processing Under-Resourced Languages [1] |

Production [1] |

Profitability [1] |

Prognostic [1] |

Programmable Logic Controller [1] |

programmable logic controller [3] |

Progressive failure [2] |

Projects [1] |

Pronunciation dictionary [1] |

Pronunciation errors [1] |

Pronunciation lexicons [1] |

pronunciation modeling [1] |

Pronunciation modelling [2] |

Pronunciation variants [1] |

Proper names [1] |

Proposed annotation protocols [1] |

Protocols [1] |

Proton - exchange membrane [1] |

Proton exchange membrane [3] |

Proton Exchange Membrane (PEM) [1] |

Proton exchange membrane (PEM) [1] |

Proton exchange membrane water electrolysis [1] |

PSD [1] |

Pseudo random binary sequence [2] |

Pseudomonas aeruginosa [1] |

Pt(111) surface [1] |

Pt-Ir electrocatalyst [1] |

public healthcare [1] |

Pulp and paper by-product [1] |

Pump failure prediction [1] |

PV energy [1] |

PV systems [1] |

PWM switching [1] |

PWR [2] |

PXRF [1] |

Pyridinyl alcoholato ligand [1] |

Pyrolysis [10] |

pyrolysis [2] |

Pyrolysis char [1] |

QC-on-the-go [1] |

QEMSCAN [1] |

QoS [1] |

QoS reporting [1] |

Quadcopter [1] |

quadcopter [1] |

Quadratic mode shape components [2] |

quadratic modes [1] |

Quality of service [1] |

quality of service [1] |

Quantified delevitation severity [1] |

Quartzite [1] |

Quasi-isobaric [1] |

Quasi-isothermal [1] |

R-407C [1] |

Radial porosity [2] |

Radiation heat transfer [1] |

Radio frequency identification (RFID) [1] |

Radio spectrum management [1] |

Radio-frequency identification (RFID) protocol [1] |

Radiofrequency identification [2] |

rain events [1] |

Rainfall [1] |

Randles [1] |

Randles–Warburg cell [1] |

Random codes, [1] |

Random linear network coding [1] |

Random network coding [1] |

random pore model [1] |

Randomization [1] |

Rankine [1] |

Ranque-Hilsch vortex tube [1] |

Rare earth elements [2] |

Rate of evaporation [1] |

Ratio correction factor [1] |

Raw coal components [1] |

raw mill [1] |

Rayleigh fading [1] |

RBF kernels [1] |

re-entrainment [1] |

reaction kinetics [1] |

reaction zone [1] |

Reaction zones [5] |

Reaction-coupled transport phenomena [1] |

reactions rates [1] |

reactive inertinites [1] |

reactive oxygen species [1] |

Reactive power [1] |

Reactivity [4] |

reactivity [2] |

Reactivity coefficient [1] |

Reactivity coefficients [1] |

Reactivity modelling [1] |

Reactor cavity cooling system [3] |

reactor flow distribution [1] |

Reactor infrastructure [1] |

Real-time [2] |

real-time [1] |

real-time control [1] |

Real-time Energy Management System [1] |

real-time fault detection [1] |

Reciprocating compressor [1] |

Recirculation [1] |

Reconfiguration [3] |

reconfiguration [2] |

recrystallization [1] |

Recycling [1] |

Reduced graphene oxide (rGO) [1] |

Reduction temperature [1] |

REE [2] |

Reed-Solomon codes [1] |

Reference range [1] |

Reflectance [1] |

Reflection [1] |

Reflection coefficient [1] |

Reflectogram [1] |

Reflux classification [1] |

Reflux classifier [1] |

Reflux extraction [1] |

Reforming [1] |

refrigeration systems [1] |

Refrigerators [1] |

Regulaliai, [1] |

Regulation [1] |

Reinforcement learning [1] |

rejection [1] |

Relative humidity and temperature [1] |

Relay protection [1] |

Reliability [1] |

Reliability engineering [2] |

reluctance model [1] |

Remaining Useful Life (RUL) [1] |

Remote monitoring [1] |

removal [1] |

Renewable diesel [2] |

Renewable energy [6] |

renewable energy [2] |

Renewable energy plants [2] |

Renewable energy sources [1] |

Renewable fuel [1] |

Renewable hydrogen [2] |

Renewable polyols [1] |

Renewables [1] |

Reporting [1] |

Republic of South Africa [1] |

ReS2 monolayer [1] |

Residential energy management [1] |

resistivity [1] |

Resonant frequency [1] |

Resource-scarce [2] |

Resource-scarce category [1] |

Resource-scarce environment [1] |

Resource-Scarce Environments [1] |

Resource-scarce languages [1] |

Respect for humanity [1] |

Respect for people [2] |

response surface methodology [1] |

Responsibility [1] |

Reverse osmosis [1] |

Reynolds number [1] |

RFID [4] |

RFID license plate [1] |

RFID link budget [1] |

RFID systems [1] |

rGO/Zr-MOF composite [1] |

Rhodamine dye [1] |

Rhodium [1] |

Rhodium catalyst [1] |

Ring of Fire [1] |

Risk [1] |

Risks of failure [1] |

river water [1] |

RO retentate [1] |

RO-reject [1] |

Road freight transport [1] |

roadmap [1] |

Roads [2] |

Robust control [1] |

Robust design [1] |

Rock colouring [1] |

ROM [1] |

Roof [1] |

Root cause analysis [1] |

Rotary-linear motor [1] |

Rotating disk electrode [1] |

Rotating stall [1] |

Rotation measurement [1] |

Rotor delevitation [2] |

Rotor whirl simulation [1] |

Rotordynamic analysis [1] |

Rotordynamics [1] |

Routing protocols [1] |

Ru/Al2O3 catalyst [1] |

Runout identification [1] |

Rural [1] |

Ruthenium carbene precatalyst [1] |

ruthenium catalyst [1] |

S-CO2 [1] |

Sabatier reaction [1] |

Saccharomyces cerevisiae [1] |

Sacchromyces cerevisiae [1] |

Safety analysis [1] |

Salinity [1] |

Sample positioning [1] |

sand filtration [1] |

Sanitary hot water [1] |

Sasol-Lurgi Fixed Bed Dry Bottom Gasification [1] |

Sasol-Lurgi fixed bed dry bottom gasification [2] |

Sasol-Lurgi fixed-bed dry bottom gasification [3] |

Sasol-Lurgi fixed-bed dry-bottom gasification [1] |

SAXS [1] |

SCADA [1] |

Scalants removal [1] |

SCALE 6 [1] |

Scale formation [1] |

Scanning electron microscope [1] |

Scanning electron microscopy (SEM) [1] |

Schedule adjustment [1] |

Schiff base [1] |

School meals [1] |

SCPBR [1] |

SEA [1] |

seawater [1] |

Second of Century (SOC) [1] |

Secondary battery [2] |

Secondary waste [1] |

Sediment [1] |

Sediment microbial fuel cell [1] |

Sediments [1] |

Selective serotonin reuptake inhibitor [1] |

Selectivity [2] |

Self-launching system [1] |

Self-organizing maps [1] |

Self-sensing [7] |

self-sensing [1] |

SEM [1] |

semi-empirical model [1] |

Semi-supervised [1] |

SEMPC [1] |

Sensor fusion [2] |

sensorless control [1] |

Sensorless vector control [1] |

Sensors [2] |

Separation [1] |

Sequence component analysis [1] |

Sequential extraction [1] |

Sequential leaching [1] |

Servers [1] |

Service level adjustment [1] |

Settling [1] |

Shafts [2] |

Shielding effect [1] |

shoot-through [1] |

Shot boundary detection [1] |

shrinking core model [2] |

Shunt active filter [1] |

Si [1] |

Signal processing [1] |

Signal strength estimation [1] |

Silver nanoparticles [1] |

Simplified method [1] |

Simulation [10] |

simulation [1] |

simulation model [1] |

Simulation models [2] |

Simulator [1] |

Simulink® [1] |

Simultaneous removal [1] |

Single Board Computer [1] |

Single particle impact [1] |

single phase induction motor [1] |

Single-channel fuel module [1] |

Sintering [3] |

sizing [1] |

Skills development [1] |

Slag [1] |

Slagging [1] |

Slagging behaviour [1] |

Small aspect ratio [1] |

Small signal stability [1] |

Small South African coal [1] |

Small-scale [2] |

Small-scale renewable energy generation [1] |

Smart card [2] |

Smart grid [1] |

Smart whiteboard [1] |

Smartphone-based [1] |

Smelter waste [1] |

Smoothing methods [1] |

SnS2 [1] |

SO2 electrolyser [1] |

SO2 electrolysis [6] |

SO2 removal [1] |

Social entrepreneurship [1] |

Social Forces [1] |

Sodium carbonate [1] |

Sodium layered hydrazinium titanate [1] |

sodium separation [1] |

Soil contamination [1] |

soil permeability [1] |

Sol-gel [1] |

Sol-gel method [1] |

solar absorber-convertors [1] |

solar cells [1] |

solar drying [1] |

Solar flare [1] |

Solar power [1] |

solar power [4] |

solar power design [1] |

Solar powered dryer, Fruit [1] |

Solar water pumping [1] |

Solid acid catalyst [1] |

Solid polymer electrolyte [2] |

solid state 13C NMR [1] |

Solid-based pre-reduction [1] |

Solid-state reduction [1] |

Solid-state reduction of chromite [1] |

SolidWorks® flow simulation [1] |

Solvent [1] |

Solvent swelling [1] |

Sorbent [1] |

sorbents [1] |

Sorghum [1] |

Sorghum bicolor (L.) Moench [1] |

Sorghum Bicolor L Moench [1] |

Sorghum bicolor L. Moench [1] |

Sorption [1] |

Sorption capacity [1] |

Sources of water pollution [1] |

South Africa [7] |

South African bituminous coal blend [1] |

South African bituminous coal fines [1] |

South African coal [3] |

South African Coals [1] |

South African coals [1] |

South African heavy industry [1] |

South African languages [4] |

South African universities [2] |

Southern African power pool [1] |

Space charge density [1] |

Space weather [1] |

Sparsity [1] |

Speaker independence [1] |

Special Issue [1] |

Speciation [1] |

Specific capacitance [1] |

Specific energy [1] |

Specific surface area [1] |

Spectral leakage [1] |

Spectrum sensing [1] |

Speech and language resources acquisition [1] |

Speech corpora [2] |

Speech Corpus [1] |

Speech corpus collection [1] |

Speech data collection [1] |

Speech effects [1] |

Speech interface [1] |

Speech recognition [14] |

Speech recognition accuracy [1] |

Speech recognition system [1] |

speech recognition, [1] |

Speech resource collection [1] |

Speech resources [1] |

Speech synthesis [5] |

Speech systems [1] |

speech technologies [1] |

Speech Technology [1] |

Speech technology design [1] |

Speech-enabled IVR [1] |

Spent Benfield salt [1] |

Spent coffee grounds [8] |

Spent coffee oil [1] |

Spent Fe-catalyst [1] |

Spheres [2] |

Spin gapless semiconductors [1] |

Spin orbit coupling [1] |

Split-range control [1] |

Spoken dialogue systems [1] |

Spoken term detection [3] |

spoken term detection [1] |

Spoken term detection 1 [1] |

Spoken Term Detection, [1] |

Spoken term detection, [2] |

Spoken web [1] |

spoken web [1] |

Spoken Web Search [1] |

spring-mass-damper [1] |

SQL [1] |

SS 13C NMR [1] |

Stability [1] |

Stainless steel [1] |

stainless steel [1] |

Standard ASR and STD systems [1] |

Standards [1] |

Stannite [1] |

STAR-CCM+ [2] |

STARMEM™ [1] |

Start-up [1] |

state space averaging model [1] |

State space model [3] |

State space model extraction [1] |

State-space methods [1] |

State-space model [1] |

Static energy meter [1] |

Static granular bed reactor [1] |

Statistical correlations [1] |

Statistical language modeling [1] |

Statistical methods [1] |

Statistical modeling [1] |

Statistical modelling [1] |

Statistical optimization [1] |

Steady-state validation [1] |

Steam [1] |

Steam flow [4] |

STEM education [1] |

Stereomicrograph [1] |

Stockpile [2] |

Strain scanning [1] |

Strategic environmental assessment [1] |

Strength Pareto evolutionary algorithm (SPEA) [1] |

Structural acoustics [1] |

structural ordering [1] |

Student-centred learning [1] |

Subcritical coal-fired boiler [1] |

Suction recirculation [1] |

Sugar beet [1] |

Sugarcane bagasse [1] |

Sulfur [1] |

sulfur recovery [1] |

Sulphate reducing bacteria [1] |

Sulphur [1] |

sulphur [1] |

Sulphur retention [1] |

Sulphur trioxide decomposition [2] |

Sulphuric acid [1] |

Sunflower [2] |

Sunflower husks [1] |

Super-capacitor [1] |

super-capacitors [1] |

Supercapacitor [2] |

supercapacitors [1] |

Supercritical [2] |

Supersonic gas separation [1] |

Supply chains [1] |

supported platinum–palladium catalyst pellets [1] |

Surface area [2] |

surface area [1] |

surface energy [1] |

Surface impregnation [1] |

surface properties [1] |

Surface resistance [1] |

Surface water [1] |

Surfactant [1] |

surfactant [1] |

Surfactant impregnation [2] |

survey [1] |

Suspended particles [1] |

Sustainability [4] |

Sustainable cost saving [1] |

Sustainable energy [1] |

Sustainable energy consumption [1] |

Sustainable fuel [1] |

Sustanion [1] |

SVC [1] |

Swahili [1] |

Sweet sorghum [1] |

Sweet sorghum bagasse [1] |

sweet sorghum bagasse [1] |

Sweet sorghum juice [1] |

Swelling [2] |

Switching flux motor [1] |

Switching-flux motor [1] |

Syllabification [1] |

Synchronisation [1] |

Synchronization [3] |

Synchronized multiple-point measurement [2] |

Synchronous generators [1] |

Synchronous machines [3] |

Synchronous permanent magnet motor [1] |

Synchrophasor applications [1] |

Synchrophasor data [1] |

Synchrophasor measurement [1] |

Synchrophasors [1] |

Synergetic inhibition [1] |

Syngas [1] |

Synthesis gas [1] |

Synthetic triphones [1] |

System [1] |

System CFD model [1] |

System collapse [1] |

System computational fluid dynamics [1] |

System identification [4] |

system identification [2] |

system identiﬁcation [1] |

System performance [1] |

System safety [1] |

System simulation [1] |

Systems CFD [1] |

Sytem CFD [1] |

T V white spaces [1] |

T-tail [1] |

Tag-talks-first (TTF) protocols [1] |

Taguchi method [4] |

Tailings [1] |

Tan delta tests [2] |

Tar [3] |

Target approximation [1] |

Tariffs [2] |

Tax incentives [1] |

Team meetings [1] |

Techno-economic feasibility [1] |

Technological evaluation [1] |

Technology [1] |

Technology assessment [1] |

TECM [1] |

Teflon AF2400 [1] |

telecommunication network design [1] |

Telecommunication traffic [1] |

Telecommunications Facilities [1] |

Telehealth [1] |

Telemedicine [1] |

telemedicine [1] |

Temkin-Pyzhev kinetics [1] |

Temperature compensation [1] |

temperature control [1] |

temperature controller [1] |

Temperature distribution [1] |

Temperature effect [2] |

Temperature estimation [1] |

Temperature measurement [1] |

temperature monitoring [1] |

Temperature sensors [1] |

templated carbon [1] |

Temporal trajectories [1] |

Terminal ballistics [2] |

Test source [1] |

Text-based language identification [3] |

Text-to-speech [4] |

Text-to-Speech Synthesis [1] |

TG-MS [2] |

TG/DTA [1] |

TGA-MS [1] |

The predictability of name pronunciation errors [1] |

Thematic map [1] |

Theoretical Framework [1] |

thermal [1] |

Thermal analysis [1] |

thermal analysis [1] |

thermal breakage [1] |

Thermal conduction [3] |

thermal conduction [1] |

Thermal conductivity [1] |

Thermal dispersion [1] |

Thermal energy [1] |

Thermal factors [1] |

Thermal imaging [1] |

Thermal limits [1] |

Thermal plasma [1] |

Thermal radiation [3] |

thermal radiation [1] |

Thermal reduction [1] |

Thermal resistance [1] |

Thermal treatment [1] |

Thermal variables measurement [1] |

Thermochemical conversion [2] |

Thermodynamic [4] |

Thermodynamic properties [1] |

Thermodynamics [4] |

Thermoelectric Cooling Module (TECM) [1] |

Thermoelectric cooling modules [1] |

thermoelectric cooling modules [1] |

Thermoelectric Cooling Modules (TECM) [1] |

Thermoelectric module [1] |

Thermofluids [1] |

Thermogravimetric analysis [1] |

Thermohydraulic systems [1] |

Thin-layer deposition [1] |

Thiocyanate [1] |

Thorium [3] |

Thorium fuel [1] |

thorium-based fuels [1] |

Threshold parameters [1] |

Throughput [1] |

Ti [1] |

Ti3C2 MXene monolayer [1] |

Tie-line [1] |

Time domain analysis [1] |

time- and frequency domain [1] |

Time-of-flight mass spectrometry [1] |

Time-of-use [1] |

Tin [2] |

Tin dioxide [1] |

Tin oxide [1] |

Tires [1] |

tissue valve [1] |

Titanates [1] |

Titanium [2] |

Titanium alloy [1] |

Titanium Chloride [1] |

Titanium Oxide [1] |

Titanium oxides [1] |

TMA [1] |

TMDC [1] |

Toluene [1] |

Tone language [4] |

Topic Modelling Performance [1] |

Topology boundaries [1] |

Torque [1] |

Torque density [1] |

Torque ripple [2] |

Torrefaction [2] |

Total serum protein [1] |

Total vector error [1] |

toxic heavy metals [1] |

Toxicity [1] |

Toxins [1] |

Trace element modeling [1] |

Trace elements [1] |

Trade corridors [1] |

Traffic cameras [1] |

Traffic law enforcement [1] |

Training data selection [1] |

Trajectory behaviour [1] |

Trajectory modelling [1] |

Trajectory-based features [1] |

Transcritical heat pump [2] |

Transesterification [6] |

transesterification [1] |

transformation [1] |

Transformer rectifiers [1] |

Transient [1] |

Transient analysis [1] |

Transient cooling [1] |

Transient solution procedure [1] |

Transition elements [1] |

Transition metal [1] |

Transition metal doping [1] |

Transition metals [1] |

Transliteration [1] |

Transmission line inspection [1] |

transmission line inspection [2] |

Transmission line measurements [1] |

Transmission line modeling [1] |

transmission line monitoring [1] |

Transmission line parameter estimation [1] |

Transmission line parameters [1] |

Transmission lines [1] |

Transparent [1] |

Transport corridor [1] |

Transportation [1] |

Transportation research benefit determination [1] |

transverse flux generator [1] |

Transverse-flux generator [1] |

Transverse-flux machine [2] |

treatment [1] |

Tropical sugar beet [1] |

Truck driver [1] |

TTS corpora [1] |

Tungsten dichalogenides [1] |

Turbidity [2] |

Turbine [1] |

Turbines [6] |

TVWS [1] |

Two-dimensional gas chromatography [1] |

U-tube [1] |

UAV [1] |

UG2 [1] |

Ultra-capacitors [1] |

ultra-capacitors [1] |

Ultracapacitor [1] |

Ultrasound [1] |

unbalanced load [1] |

Uncertainties [1] |

Uncertainty [2] |

Uncertainty in measurements [1] |

Unconstrained phone recognition [1] |

Under resourced [1] |

Under-resourced [1] |

Under-resourced languages [7] |

under-resourced languages [1] |

Underground coal gasification [3] |

Underground fan assemblage [1] |

Understanding of co-articulation [1] |

Unit Cell [1] |

Unmanned aircraft [1] |

unsteady aerodynamics [1] |

Unsupervised machine learning [1] |

Unsupervised training [1] |

Up-flow anaerobic sludge blanket reactor [1] |

Upliftment model [1] |

upwind scheme [1] |

Utilizing an earcon [1] |

Vaal river [1] |

Vaccine storage [1] |

Valorisation [1] |

valorisation [2] |

Value-added products [1] |

Valves [3] |

Variable speed drive [2] |

Variable speed drives [1] |

variable water flow [1] |

Variance decomposition [1] |

Vegetable [1] |

Vehicle identification [1] |

Vehicle monitoring [1] |

Vehicles [3] |

Velocity [1] |

Ventilation-on-demand [1] |

Vertical polarized antenna [1] |

Very High Temperature Reactor [2] |

Very high temperature reactors [1] |

Viability [1] |

Vibration analysis [1] |

Vibration control [1] |

Vibration monitoring [1] |

vibration monitoring [3] |

Viscosity [4] |

Visible light [2] |

Visual odometry [1] |

Visual texture [1] |

Visualizing data in high-dimensional spaces [1] |

Vitrinite [1] |

Vitrinite-rich medium rank B coal [1] |

Voice services [1] |

Voice user interface [1] |

Voice user interfaces [1] |

Voiceless sibilant fricatives [1] |

void size [1] |

Volatile trace elements [1] |

Voltage asymmetry [1] |

Voltage control [1] |

Voltage disturbances [1] |

Voltage frequency [1] |

Voltage measurement [1] |

Voltage regulation [1] |

Voltage regulators [1] |

Voltage sags and swells [1] |

Voltage stepping [2] |

Voltage transformers [1] |

Voltage unbalance [3] |

Voltage unbalance factor [1] |

Voltage waveform distortion [2] |

Vortex gradient separation [1] |

Vulnerability [1] |

Waiting period [1] |

Warburg [1] |

Warm air [1] |

Washability [1] |

Waste [1] |

Waste disposal [1] |

Waste energy [1] |

Waste management [1] |

Waste tyres [1] |

Waste valorization [1] |

Waste-to-Energy [1] |

Waste-to-Energy plant economics [1] |

Wastewater [4] |

Wastewater treatment [1] |

Water analysis [1] |

Water cathode [1] |

Water electrolysis [6] |

Water heating system [1] |

water heating system [1] |

Water hyacinth [1] |

Water pollution [6] |

water pollution [4] |

Water purification [1] |

water reticulation [1] |

Water treatment [1] |

Water use [1] |

Waterproofing [1] |

Wave energy harvesting [1] |

WAXRD–CFA [1] |

Weibull [1] |

Weibull analysis [2] |

WER-1000 [1] |

Wet and dry seasons [1] |

Wet bulb temperature [1] |

Wet Chemical Method [1] |

Wet High Intensity Magnetic Separator [1] |

Wet oxidation [1] |

WHIMS [1] |

Wi-Fi [1] |

Wide Area Measurement Systems (WAMS) [1] |

Wide-area wireless telemetry [1] |

WiFi [1] |

Wigner-Ville Distribution [1] |

Wigner-Ville distribution [1] |

Wind [2] |

Wind power [1] |

Wing density [1] |

wireless mesh networks [1] |

Wireless networks [1] |

Woefzela [1] |

Woven graphite fiber [1] |

wword-recognition [1] |

X-ray [1] |

X-ray CT [1] |

X-ray diffraction [1] |

X-ray diffraction properties [1] |

Xenobiotic compounds [1] |

XLPE (cross-linked polyethylene) [1] |

XPS [2] |

XRD [6] |

XRF [1] |

XRT sorting [1] |

Yeast [1] |

Yield [2] |

Yor`ub´a [2] |

Yoruba [1] |

Yorùbá [1] |

Z-source inverter [1] |

Zea mays L. [1] |

Zeolite [1] |

Zeolite 13X [1] |

Zeolite templated carbon (ZTC) [1] |

Zeolite-templated carbon [1] |

zeolites [1] |

Zero-Resource Techniques [1] |

Zinc adsorption [1] |

Zinc oxide [2] |

Zirconium-metal organic framework [1] |

Zr-MOF [1] |

Zymomonas mobilis [1] |

½-Cycle rms [1] |

α-V2O5 [1] |

β-Cyclodextrin nanosponge [1] |

μ -Analysis [1] |

“Turn-out” sampling methodology [3] |