Industries we serve.
Drive-intensive sectors where uptime, controllability, energy performance, and execution discipline materially affect project outcomes and long-term operating economics.
One operating logic. Sector-shaped architecture.
Critical duties do not fail in the same way, and they should not be engineered in the same way. Integrical applies one system logic across applications, but the architecture, controls, protection, and supporting scope are shaped by the operating objective of each duty.
This enables better-fit solutions for the real demands of each sector — pumping, compression, grinding, propulsion, and other process-critical services — without diluting the discipline of grid-to-process integration.
Seven sectors. One discipline.
Oil, Gas & Petrochemicals
Compression, pumping, and process drives across upstream, midstream, and downstream where uptime is the operating economy.
- Compressors
- Mainline pumps
- Injection trains
- LNG compression
- —Process continuity & flare avoidance
- —Hazardous-area discipline
- —Long maintenance intervals
Mining & Mineral Processing
Severe-duty mill, conveyor, and slurry-handling drives in environments where vibration, dust, and inertia define the architecture.
- SAG / ball mills
- Conveyors
- Slurry pumps
- Crushers
- —High-torque, high-inertia control
- —Reversing & overload duty
- —Remote-site supportability
Power Generation & Utilities
Auxiliary drives, water systems, and grid-side conversion where electrical behavior under disturbance is the operating risk.
- Boiler feed
- ID/FD fans
- Cooling water
- Auxiliaries
- —Grid disturbance ride-through
- —Plant restart sequencing
- —Emissions / efficiency targets
Metals, Mills & Heavy Industry
Rolling, casting, and forming lines where reversing torque, dynamic response, and process synchronisation drive product quality.
- Hot / cold rolling
- Casters
- Coilers
- Furnace fans
- —Dynamic torque & speed control
- —Line synchronisation
- —Strip-quality consistency
Water, Wastewater & Desalination
Pumping and process drives where energy intensity, soft starting, and weak-grid behavior define the lifecycle case.
- HP pumps
- Lift stations
- RO trains
- Aerators
- —Energy efficiency under variable demand
- —Soft start in weak grids
- —Process stability under load swing
Marine & Offshore
Propulsion, thrusters, and offshore process drives where space, weight, and electrical resilience are constrained by design.
- Propulsion
- Thrusters
- Offshore compression
- Crane drives
- —DP-class electrical resilience
- —Compact MV architecture
- —Salt / vibration robustness
Renewables & Decarbonization
Electrification and conversion routes where mechanical prime movers are replaced and weak grids must be stabilised.
- E-drive conversion
- Storage interface
- Hydrogen compression
- Heat-pump drives
- —Direct CO₂ reduction
- —Weak / islanded grid behavior
- —Business case under grid limits
Where coverage is dense — and where it isn't.
| Sector | Compression | Pumping | Mill / Roll | Conveying | Propulsion | Conversion |
|---|---|---|---|---|---|---|
| Oil & Gas | ● | ● | ○ | ○ | ○ | ◐ |
| Mining | ○ | ● | ● | ● | ○ | ○ |
| Power & Utilities | ◐ | ● | ○ | ○ | ○ | ● |
| Metals | ○ | ◐ | ● | ● | ○ | ◐ |
| Water | ○ | ● | ○ | ○ | ○ | ◐ |
| Marine & Offshore | ● | ◐ | ○ | ○ | ● | ◐ |
| Renewables | ● | ◐ | ○ | ○ | ○ | ● |
It is the input that shapes electrical, mechanical, and control architecture.
“We do not enter a sector to sell a product. We enter to understand the duty, define the interfaces, and structure a solution that survives the operating life of the asset.”