Solar & Storage Systems
Engineered PV and battery storage solutions for industrial facilities, mining operations, and community microgrids — built to work reliably when the grid doesn't.
What this solution is, and who it's for.
Solar and storage in emerging markets is not the same problem it is in Germany or California. Weak grids, hot ambient temperatures, dust, theft risk, and high diesel prices all change the engineering answer.
Sinovolt designs PV + BESS systems for these realities — captive power for mine camps and factories, hybrid controllers that cut diesel burn by 40–70%, and lithium iron phosphate chemistries chosen for hot climates.
Every component of the facility, delivered under one contract.
Civil design inputs, process equipment, electrical, piping, automation, auxiliary systems, commissioning, training, and post-handover support — all included.
- Site survey and solar resource assessment
- PV array design (ground-mount or rooftop), racking, tracking (optional)
- Tier-1 modules, string inverters or central inverters
- BESS (battery energy storage system) — lithium iron phosphate for industrial/mining duty cycles
- Hybrid controllers for PV + BESS + diesel + grid integration
- MV/LV switchgear, transformers, protection
- SCADA, remote monitoring, performance analytics
- Grounding, lightning protection, site security infrastructure
- Civil works, cabling, commissioning
- Performance warranty (energy yield guarantee)
- O&M contract options
Capacity and capability envelope.
Actual project parameters are engineered against site conditions and client requirements. The ranges below describe the envelope of what we deliver.
| Parameter | Range |
|---|---|
| Capacity | 100 kW – 10 MW (PV) with 200 kWh – 20 MWh storage |
| Topology | Off-grid / on-grid / hybrid with diesel |
| Typical applications | Mining camp power, factory captive power, community microgrid, telecom towers |
| Expected yield | 1,500 – 2,000 kWh/kWp/year in sun-belt regions |
The six-step path from scope to handover.
Every Sinovolt project runs on the same disciplined sequence. Below is how it maps onto this solution.
Scope
Outcome-first conversation. Throughput targets, site realities, permitting, budget — resolved before any specification lands.
Design
Preliminary engineering package: flowsheet, layout, utilities, civil inputs, single-line diagram, total equipment list.
Source
Tiered China-supply-chain sourcing with QC and factory acceptance testing before shipment.
Build
Consolidated shipment, civil coordination, mechanical erection, electrical, piping, instrumentation.
Commission
Cold and hot commissioning, performance test against guaranteed parameters, trained operator handover.
Support
Warranty, spares, remote diagnostics, technician dispatch, upgrade paths — long-term partnership.
What breaks this solution elsewhere, and how we engineer around it.
Designed for high-temperature, dusty environments (module derating, cleaning regime)
Anti-theft module mounting and site perimeter security
Fuel-saving optimisation for diesel-hybrid sites (typical 40–70% diesel reduction)
Battery chemistry selection for ambient conditions — LFP preferred over NMC in hot climates
Request a detailed technical brief for Solar & Storage.
Tell us the site, target throughput, and stage you’re at. We’ll respond with an engineering brief tailored to your project.
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