7. PuREPower 30.0 Vs 40 KVA Inverter + Lead Acid
⚡ Instant <4ms>
🔋 30kW continuous battery power vs 8kW traditional.
☀️ Solar power during outages, bi-directional support.
📦 380kg portable vs 1400kg bulky battery room.
PuREPower 30.0 is not just another backup system—it is a smarter, cleaner, and more powerful way to keep your business running when the grid drops. While traditional inverter + lead-acid battery setups struggle with limited usable capacity, slow switchover, and constant upkeep, PuREPower 30.0 delivers seamless, high‑power backup that feels almost invisible to your operations.
Starts instantly with online, Less than 4 millisecond switchover, so critical loads never even see the power cut, unlike conventional inverters that can still trip sensitive equipment.
Provides 30 kW continuous output on batteries, compared to around 8 kW usable on typical 40 kVA inverter + lead‑acid systems, enabling you to support more ACs, servers, elevators, and other heavy loads without compromise.
Offers higher usable battery capacity through deeper discharge, so you get more real backup hours from every unit of installed capacity.
Eliminates frequent battery replacements with maintenance‑free operation and a longer usable life, while lead‑acid banks demand regular service and tend to age out faster.
Delivers cleaner, safer backup with zero emissions and no corrosive acid risks, protecting staff, equipment, and interiors.
Packs all this into a compact, indoor‑friendly design that replaces bulky battery rooms and frees up valuable floor space.
The following comparison table shows how PuREPower 30.0 outshines traditional inverter + lead acid battery systems across performance, reliability, safety, and total cost of ownership.
|
Item |
PuREPower 30.0 |
40 kVA Inverter + 32 kWH Lead Acid Batteries + Solar Grid-Tied Inverter |
|
Product Price (INR lakhs) |
7.3 |
8.38 |
|
Continuous Max Load (kW) |
33 |
32 |
|
Battery Capacity (kWH) |
30 |
32 |
|
Depth of Discharge |
95% |
80% |
|
Usable Battery Capacity |
28.5 |
25.6 |
|
Continuous Max Load on Batteries/off-Grid (kW) |
30 |
8 |
|
Surge Load Capability |
2X |
1.1X |
|
Switchover Time |
Online(<4> |
No (for high surge loads) |
|
Charging Time |
3 Hours |
5 to 10 Hours |
|
Solar Integration |
Yes |
Yes |
|
Bi-Directional |
Yes |
No |
|
Solar Power Generation During Power-cut |
Yes |
No |
|
TOD/ TOU |
Yes |
No |
|
Auto DG sync |
Yes |
No |
|
Battery Maintenance |
ZERO |
Distilled Water has to be filled in once in 6 months |
|
Emissions |
ZERO |
H2SO4 (Risk: Corrosive to Skin, Eyes, and Respiratory passages) |
|
Lifecycle / Lifespan |
10+ years |
5 years |
|
Auto changeover |
Inbuilt |
Additional cost |
|
Efficiency |
97% (Round-trip efficiency) |
80-85% (Lower efficiency) |
|
Aesthetics |
Suitable to All Interior Designs |
Bulky |
|
Space |
Compact and requires lesser space than a refrigerator |
Requires a separate battery room with Air Conditioning |
|
Dimensions (mm) |
850 x 650 x 1550 |
2700 x 2200 x 2200 |
|
Weight |
380 KG |
1400 KG |
|
Portability |
Yes with Castor Wheels |
Immovable |
|
Scalability with Load Balancing |
X 9 (upto 300 kW) |
No |
|
Anti corrosion |
Yes |
No |
|
In-built DC MCB(s)/MCCB(s) |
Inbuilt |
Additional cost |
|
In-built AC MCB(s)/MCCB(s) |
Inbuilt |
Additional cost |
|
Forced Convection |
Inbuilt |
NA |
|
Active Thermal Management |
Nano PCM |
NA |
|
Installation & commissioning |
4-6 hrs |
24 hrs |
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