juwi Shizen Energy Completes Construction and Begins Commercial Operations of 14MW solar EPC project “LS Miyagi Matsushima Power Plant” in Miyagi Prefecture

2021.10.12[Notificação]

juwi Shizen Energy Inc. (“juwi Shizen Energy”) completed a 14 megawatt (DC) EPC (engineering, procurement, construction) project, namely “LS Miyagi Matsushima Power Plant ” and started its commercial operation.

This power plant is constructed on an approximately 360,000 m2 sized former quarry located in Matsushima-machi, Miyagi Prefecture, commissioned by Green Mega Solar LLC., an SPC wholly owned by Takara Leben Co.,Ltd. (Chiyoda-ku, Tokyo/ Representative: Kazuichi Shimada). The annual output is expected to be approximately 17,960,000 kilowatt, equivalent to the annual electrical power use of about 5,700 households(*).

juwi Shizen Energy is currently proceeding construction amounting to a total of 426 megawatts of combined peak output, which includes “Azuma Kofuji 1 Solar Power Plant” (100MWp(DC)) and “Pacifico Energy Sanda Mega solar(121MWp(DC)), two of Japan’s largest scale power plants. 

juwi Shizen Energy will continue to leverage the knowledge and experience it has accumulated through its global operations and aim to contribute to the increased use of renewable energy and the construction of a sustainable society both in Japan and overseas by providing EPC solutions that meet the needs of the local areas in which a power plants are constructed.

 

【Project Outline】

Project Name

LS Miyagi Matsushima Power Plant

Location

Matsushima Town, Miyagi Gun, Miyagi Prefecture

EPC

juwi Shizen Energy Inc.

Site-area

approx. 360,000 m2 

Output

14.2MWp (DC) /12 MW (AC) 

Estimated annual generated energy output

approx. 17,950,000 kWh/year
(equivalent to the annual electrical power use of 5,700 households (*))

Start of construction

August 2019

Start of operation

September 2020

 

【Picture of Solar Power Plant】

【Reference】

* Estimated annual generated energy output and its conversion to the number of households are of our own independent calculations.