Mar 1 2011
ENN Solar Energy made an announcement at the SNEC 2011, stating that it would continue to invest extensively in American and European solar power projects.
Presently, the company was working on the three most advanced automated production processes in the world for manufacturing tandem junction silicon thin film modules, which have a 9% conversion efficiency for the total area. ENN has plans of liaising with developers, local project integrators and EPC providers for seeking opportunities for solar projects and also to advance solar energy solutions.
ENN’s cutting edge thin film technologies and project development innovations have helped in extending the solar energy boundaries. ENN in 2010 supervised the planning, development and construction work on a 3.2 MW solar power plant in Mastershausen in Germany utilizing its thin film modules. It has also completed phase 11.17 of an Italian 10MW rooftop plant.
ENN’s COO, Dr. De-ling Zhou remarked that the company would move forward in its investment plans in the overseas markets. According to him, the technology expertise available in the company along with the unique business model would prove to be a strong foundation for overseas partners.
ENN had exhibited the 5.7 square meter tandem junction silicon thin film modules with a 9% total area conversion efficiency at the 2010 SNEC. Furthermore, their company’s PV thermal system, PV buildings and huge solar farms needed integrated services such as development, production, engineering, long term maintenance, financing and delivery. Dr. Zhou disclosed that PV buildings were a source of Renewable Energy in the future and would help in the development of greener cities. However, mini AC grid connected and PV thermal systems could satisfy the requirements of both the small and medium sized businesses, families and also that of those living in high temperature areas like deserts.
ENN has further revealed that a 5 MW thin film project has commenced on a New Jersey land fill area to be completed by the middle of 2011.