Services

We provide soundproof generators from basic 5KVA to 500KVA power range. Our machines are fitted to CPCB environmental norms. Due to regular maintenance and cleaning, our machines always look clean. We proud to say that, we are growing with all your preference on us.

Field We Supply

1. Domestic backups
2. Industries
3. Mining
4. Construction
5. Telecommunication
6. Government & PWD works
7. Banks
8. Hospital
9. Wedding Malls
10. Agriculture Irrigation, Fish pond, prawn culture
11. Catering Kitchens

On Time Service

Once committed to customers requirement and power sizing. We can serve customers like emergency works with our mobilized and trolley fitted generators.
We are applause by Telecommunication sectors and emergency works for our timely service on unexpected power failures.
Customers admired by our presence on repair works during mid knight with our 24/7 support.

Future Plans

Day by day fuel rates are becoming higher and higher. Customers always making first question that what is the fuel consumption of the generators which I take for rent. We are promised to say the all our generators are fuel efficient, generators which we provide are turbo charged after cooled (TAC), CPCB compliance and fitted to environmental use.

So, thinking about greenish planet and healthy future, we are planning to move to solar hybrid models like 1. Solar powered office containers 2. Solar-Generator hybrid high mast lights 3. Solar-Generators hybrid power backups

Basic Power Convertions for Customers :

We provide basic power conversions and calculations steps to find out required generator power on their own. Horse power to watts
1 HP=745 watts (or) 0.745Kw
1000w=1Kw
Load Watts W= V×I×cosØ
V= Voltage applies across load
I= Current flow through load
cos Ø= Power factor of load
cosØ power factor is an angle between voltage and current ranges from Leading +1.0 to -1.0 Lagging.
Lagging power factor always range from 0 to -1.0 for inductive loads like induction motors and coils. Usual cases lagging power factor will be 0.8Ø.
Leading power factor always range from 0 to +1.0 for capacitive loads, rare cases like malfunctioning PFC (power factor correction) panels.
Unity power factor 1.0cosØ usually lies in electronic equipment and electronic ballast
Example for unity power factor calculations
Ex. 40w electronic tube light ballast specification from its plate details,
V=240v
I=0.166a
CosØ=1.0
W= VIcosØ
W=240×0.166×1.0
W=40.
Due to unity power factor nature of load, efficiency reaches nearly 100%.
Example for lagging power factor calculations
Ex. Single phase 1hp induction motor from its name plate details.
V=240v
I=3.10a
cosØ=0.8 lagging
Max VA=240×3.10=745va
Load current varies depends upon load
W=VAcosØ
W=744×0.8
W=596 which is the active power absorbed by motor, remaining are wastage power.
Power sources are always selected by 110% as power required to manage the starting current of induction motors and oscillations of loads.
Induction motors takes 5 to 6 times the rated full load current during starting. So generators must be selected by keeping this criteria in mind.