System analysis shows that HJT technology can reduce BOS costs by about 3.5%, increase first-year power generation by 2.4%, and improve IRR by 0.46% compared with conventional PV modules in similar environments. When fully operational, the project is expected to generate approximately 360 million kWh of electricity annually, meeting the power demand of over 100,000 households. It is estimated to save about 123,000 tons of standard coal and reduce CO₂ emissions by 271,700 tons, SO₂ by 65.6 tons, and NOx by 73.4 tons per year.
Integration of Photovoltaics and Ecological Restoration
The project also includes about 1,600 hectares of ecological restoration and under-panel planting of drought-tolerant species, which help stabilize the soil and provide additional agricultural income, creating a combined model of “PV power generation + ecological restoration + modern agriculture.”
