Power quality
Failure of expensive electronic equipment like projectors, screens and routers
Overloading and heating of neutral conductor
Data loss due to sudden outages and down-time
Overheating of facility
De-rating of servers/CPU
Building thermal efficiency
Insufficient cooling
Heat pockets
Stratified cooling
Air pressure imbalances
Frequent door opening
HVAC efficiency 
Fresh Air Supply-  Insufficient
–  Energetically inefficient without Heat Recovery units
Insufficient cooling
Excessive humidity lead to dust build up on equipment thereby lower efficiency
mould leads to lower lifespan of equipment
Heat build up from equipment thereby leading to de-rating of expensive equipment and reduced life span
Lighting- Conventional vs. LEDs
High operating cost due to higher consumption of electricity by Halogens
Higher replacement costs due to shorter lifespan
High thermal impact on cooling
Indoor air quality
High Humidity
High temperatures
Low efficiency due to dust built up
Humidity in indoor swimming pool
Power quality
High harmonic distortion generated by UPS, Rectifiers, VFDs, Battery Chargers as main reason of electronic cards failure
Single phase SMPS, lighting loads as major source of high neutral current
Equipment running on DC power
high 3rd harmonics leading to limited life span
Neutral wire overload
Building thermal efficiency
High exposure to sunlight due to extensive use of glass facades in case of building/high rise towers
 Insufficient thermal insulation of windows, doors & roofs (corrugated steel roofs)
Over burden on HVAC
Lack of air flows lead to heat pockets thereby damaging equipment
High outside temperature
HVAC efficiency 
Incorrect choice  of the chiller plant- this may be due to incorrect sizing or incorrect technology
Poor Maintenance of chiller plants
High Humidity
Incorrect configuration
Imbalance in air pressure
Poor Air-flow leads to poor dissemination of heat
High ambient temperature
Lighting- Conventional vs. LEDs
Old technology of conventional lightings
Inadequate light output
Significant light depreciation within 6-9 months of installation
Indoor air quality
Lack of dehumidification
Lack of cooling/ insulation
Lack of indoor air treatment
Excess use of solvents in the form of air fresheners, detergents, cleaning sprays etc.
Dusty natural environment & inadequate cleaning by FAHUs
Lack of indoor air filtration
High temperature leading to evaporation which is unavoidable
Power quality
Active Harmonic Filter with Neutral Compensator
Hybrid Filter with Neutral Compensator best suited when power factor is low
Voltage optimizer
Dynamic Power Factor Correction with detuned filter reactor
Building thermal efficiency
Cool window films
Cool roof coatings
Arresting leakage of hot air from doors
Air pressure rebalancing
HVAC efficiency 
Yearly audit and maintenance of HVAC and proper configuration of chiller plant.
Refurbish existing Heat Recovery units by chemical cleaning of Heat Wheels, Enthalpy Wheel or Desiccant Wheel
Additional upgrade of  HRU with Horse Shoe Heat Pipe or Desiccant Dehumidification
Consider advance air distribution technologies such as Bosch Clemotion or Composite air ducts.
Chiller replacement for highest energy savings and lowest cost of ownership – Heat Pump
-Water cooled chiller
-Invertor based chiller
Shading of chiller plant and Wet wall
Lighting- Conventional vs. LEDs
Replacement by LED with following specs:
-160 lumens/watt
-less than 10% depreciation in light output over the expected life of 5 years
– TL-21 certified
– LM 79 and LM-80 compliant
Indoor air quality
Heat Recovery Unit
Horse Shoe Heat pipe
Desiccant dehumidification
Indoor air purification
HEPA filters are best suited for dust collection
Oxygen concentrators to improve air quality
Power quality
Negligible likelihood of electronic cards failure
Significant savings (both tangible and intangible) through elimination of failures, reduced outages and improved true power factor
Neutral current within acceptable range
Total current harmonic distortion maintained within limits specified as per IEEE standard (iTDD <8%)
True power factor maintained close to unity
Reduced monthly electricity bills
Continuous and unbroken power supply
No risk of computer system lock-ups, meter error and premature apparatus failure
Building thermal efficiency
HVAC is no more over burdened
Window films add to the overall looks
HVAC efficiency 
Lower cost of utilities (DEWA bills)
Adequate cooling
Improved life of chiller plant
Improved lifespan of hardware
Overall well being
Lighting- Conventional vs. LEDs
Better light output
Well being
Reduction in heat load on HVAC
70-80% reduction in electricity bills
Significant reduction in maintenance costs due to longer asset life
Indoor air quality
Less maintenance problems
Better life of hardware
Better air quality
Prevention of data loss due to system crash

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