Integrated Energy
Biomass energy
Biomass energy is electricity generated by using biomass resources—organisms that have grown by absorbing and fixing atmospheric carbon dioxide through photosynthesis—as fuel. It is considered carbon-neutral because it does not increase the concentration of CO2 in the atmosphere. By replacing fossil fuels with biomass, we can significantly curb global CO2 emissions, playing a crucial role in mitigating climate change. Additionally, effectively harnessing local biomass resources fosters new industries and job opportunities, from resource collection and transportation to power plant operations, thereby contributing to regional economic revitalization and growth.
Solar power generation relies solely on solar energy, making it a clean energy source that produces no waste, wastewater, noise, or vibration. Additionally, Jenmour New Energy oversees every stage—from development and construction to post-operation maintenance—committed to operating power plants that are closely integrated with the local community and ensure safe, stable energy production.
Geothermal power generation is a method of producing electricity by using steam or hot water to spin turbines located near the high-temperature underground regions close to volcanoes. Although the power output of the equipment itself is lower than that of solar or wind energy systems, geothermal power provides a reliable and consistent energy source. It boasts high overall capacity relative to its generating potential, with excellent equipment utilization rates. Moreover, it can generate electricity continuously—24 hours a day, regardless of weather conditions.
The basic principle involves harnessing the difference in water levels, combined with a hydroelectric generator, to produce electricity. Specifically, it converts the potential energy of water into mechanical energy that spins a turbine, which then drives the generator to generate power. Scientists skillfully leverage this natural water-level difference, employing advanced fluid dynamics and mechanical physics principles to optimize the system for maximum electricity output—delivering affordable, clean, and pollution-free energy for public use.