TALK KEYWORD INDEX
This page contains an index consisting of author-provided keywords.
6 | |
6 Sigma methodology | |
A | |
ABB | |
ac induction machine | |
accelerate adoption of higher efficiency motor | |
Active magnetic bearings | |
adapter frame | |
additional load losses | |
AI | |
Air compressor | |
air leakage | |
alignment test standards | |
Alternator | |
analytical calculation | |
application- oriented optimization of drives | |
artificial intelligence | |
Asynchronous motors | |
augemented reality | |
automatic differentiation | |
automized finite element simulation | |
avoided emission | |
Axial Flux Motor | |
axial motor | |
B | |
B2B | |
B2C | |
Back-to-back testing | |
Barriers | |
Bearingless PM motor | |
Brazilian Energy Policy | |
Bulk procurement model replicated | |
C | |
Carbon Emission Reductions | |
Carbon footprint | |
CEMEP | |
central refrigerated cabinets | |
Centrifugal pump | |
CFD | |
challenges and barriers in the adoption of higher efficiency motor | |
challenging task of reducing carbon emissions | |
China | |
circular economy | |
Circularity | |
cloud | |
cloud-based services | |
CO2 emissions | |
Communication Education and Capacity Building campaign | |
comparison of test standards | |
comprehensive energy conservation effort | |
compressed air | |
Compressed Air Systems | |
compressor | |
compressor characteristic map | |
compressor testing | |
compressor types | |
computation of electric machines | |
Condition monitoring | |
cooling fan | |
coordination and alignment | |
Copper | |
copper rotor | |
Critical to quality | |
CSA C390 | |
D | |
delta-connected machines | |
Demand Aggregation model in energy efficient products | |
Department of Energy | |
DFSS | |
Digital Twin | |
digital twins | |
digitalisation | |
digitalization | |
DOE | |
DPNV | |
drive system | |
Drive Train | |
Drives | |
durability | |
dynamic system analysis | |
E | |
ECL | |
Ecodesign | |
Ecodesign for Sustainable Regulation | |
EEMODS'24 | |
efficiency | |
Efficiency classes | |
efficiency determination | |
Efficiency level | |
efficiency prediction | |
efficiency requirements | |
electric drive | |
electric machine | |
electric motor | |
Electric Motor Regulations | |
Electric motors | |
electrical machines | |
Electromagnetic steel | |
EMSA | |
Energy audits | |
energy consumption | |
energy consumtion reduction | |
Energy cost of wear | |
Energy efficiency | |
energy efficiency cheapest fuel | |
Energy Efficiency Network | |
energy efficiency of electric motors | |
Energy Efficiency Policies | |
Energy Efficiency Standard | |
Energy Efficiency Standards | |
Energy labeling | |
Energy Management Systems | |
Energy monitoring | |
Energy Performance Contracting (EnPC) | |
energy saving | |
Energy savings | |
energy savings potential | |
Energy Service Companies (ESCOs) | |
Energy-efficient motor-driven systems | |
Enforcement | |
Environmental benefit | |
environmental objectives | |
Environmental Sustainability | |
EPA | |
ESG | |
ESPR | |
EU | |
EU Green Deal | |
European commission | |
Europump | |
evaluation tools | |
Extended Product | |
extended product approach | |
F | |
fan | |
fan drive | |
FEM | |
flexible foundation | |
G | |
Generation mix | |
GHG emissions | |
Global Test Standards | |
green procurement | |
Guide | |
Guideline | |
H | |
Hardware in the loop | |
Harmonization test standards | |
high efficiency | |
High-speed centrifugal compressor | |
HIL | |
housekeeping | |
I | |
IE3 | |
IE4 | |
IE4/IE5 motors | |
IEC 60034-2-1 | |
IEC 60034-2-3 | |
IEC 60034-30-1 | |
IEEE 112 | |
Improved penetration of Clean Energy Transition products | |
Incentives | |
India 3rd largest consumer | |
Induction motor | |
Induction motor efficiency | |
Industry 4.0 | |
industry accounted for approximately 42 percent of total electricity consumption in India | |
info | |
intelligent drives | |
intergrated drive | |
internet of things | |
Inverter driven machines | |
IoT | |
ISO standard | |
IT/OT integration | |
K | |
KSB | |
L | |
Laboratory tests | |
Land use | |
Life Cycle Assessment | |
Life cycle cost | |
lifecycle | |
Lifelong Learning | |
line-start synchronous reluctance motor | |
losses | |
low cost | |
Luzern | |
M | |
machine learning | |
Magnetic characterizations | |
Mandatory inclusion under procurement policy of large corporate | |
Manufacturer | |
Material efficeincy | |
Material efficiency | |
Material efficiency aspects | |
Maximum efficiency control | |
Maximum torque per ampere control | |
mechanical integration | |
MEPS | |
minimum efficiency performance standards | |
ML | |
model assisted development | |
model regulation | |
modelling | |
Motor | |
motor design | |
Motor efficiency | |
motor efficiency requirements | |
Motor finite element analysis | |
motor losses | |
Motor replacement | |
motor systems | |
Motors | |
N | |
Nanocrystalline soft material | |
National Motor Replacement Programme | |
NBR 17094-3 | |
new efficient electrical motor systems and markets | |
New motor technologies | |
numerical vibration assessment | |
O | |
on-premise | |
Operating Deflection Shape | |
optimization | |
P | |
Pay back analysis | |
PCR | |
PDS Efficiency | |
PED | |
Performance | |
Performance bechmarking | |
plug-in cabinets | |
Policies | |
Policies Programmes and Financing | |
Policy | |
policy instrument | |
poor efficiency of the substandard motors | |
Power Index | |
power plant | |
predictive maintenance | |
product and systems’ life cycles | |
Product Specific Rules | |
productivity | |
Programmes and Financing | |
PSR | |
pump | |
Q | |
quantification | |
R | |
radial fan | |
Rate of wear | |
Raw material usage | |
Recyclability | |
Reduced order model | |
Regulation | |
Regulations | |
Regulatory Process | |
Reliability | |
repairability index | |
Replacement | |
resource | |
Rewinding electrical machines | |
Right to repair | |
rotating machinery | |
S | |
seasonal efficiency | |
SFOE | |
share for IE3 has crossed 30 percent with NMRP | |
Siemens Efficiency | |
Simulation | |
Single phase electric motors | |
Skills development | |
soft magnetic composite | |
software defined drive | |
special prices and better terms for motors procured | |
Specific energy | |
specific performance | |
speed variability | |
star-connected machines | |
successful application of drives | |
supermarket | |
supporting policies | |
sustainability | |
sustainable economy | |
Synchronous motors | |
Synchronous Reluctance Motor | |
system design | |
system efficiency | |
system standards | |
T | |
temperature correction | |
test methods | |
test rig | |
Tool | |
torque prediction | |
torque ripple | |
transient flow | |
transparency | |
U | |
Ultrasonic detection | |
uncertainty Quantification | |
United States | |
uptime | |
V | |
Validation | |
value | |
Value management | |
variable flow operation | |
variable frequency drive system | |
variable speed | |
Variable speed drive | |
variable speed drives | |
Variable Speed Savings | |
VDMA | |
VFD | |
virtual sensor | |
VSD | |
W | |
Welcome | |
wireless IoT smart sensors | |
Wireless sensors |