south pacific · Marshall Islands
Micro–grid system project
Recently, SINOSOAR successfully attained a Solar on–Grid system project in the Marshall Islands, particularly for a Major Supermarket in Majuro. The project aims to build a roof mounted PV system on top of the Supermarket After the completion of this project, it will largely reduce the Electricity Bills for the Supermarket. Moreover, the system will boast a payback period of 3 years which is a milestone in itself. Details of the system are listed below.
•Micro–grid system•
This commercial micro-grid system is consists of:
PV Capacity |
416.925kWp |
PV Inverter |
60kW/480V (6 pieces) |
BESS Capacity |
30kW/37kWh |
•solutions•
It is worth mentioning that in this project, SINOSOAR will choose SP30H series energy storage inverters, excellent products independently developed by SINOSOAR. SP30H Embedded EMS system, supports up to 20pcs parallel operation for both DC&AC side, 150% overload for 30s, Parallel operation with generators & grid, and supports 100% three phase imbalance. This will ensure the efficient and stable operation of the entire micro-grid system.
The micro-grid system also consist of energy meters, protection equipment, outdoor/interior cabling between the solar array, inverter, BESS, and main switchboard per required standards.
•Industrial and Commercial•
The operating principle for the system after its completion will be as follows:
operating principle
When the Utility grid is stable, the PV powers the load with the grid to cut down on electricity costs.
When the Utility grid is turned off, the diesel genset is activated, and the PV powers the load with the diesel genset.
1) The majority of the time, the PV generation is less than the load, allowing the entire amount of PV to be utilized by the load;
2) Nevertheless, there are times when the PV load is larger than the load, particularly at noon when the sun is at its best. In these cases, the PV will power the load and charge the battery; however, if the battery SOC is so high that it cannot be charged, the PV power will be restricted.
The BESS systems can offer the power grid a number of advantages and support services, such as:
1) Ancillary services/grid stability – BESS systems can charge and discharge quickly, making them ideal for balancing the grid on demand or production side.
2) Voltage support/stabilization.
3) Emergency response systems – BESS systems can provide emergency response services of frequency regulation, ramping and voltage support in a manner that is close to energy reliability services from synchronous facilities.
4) And other important functions that are not mentioned here.
In conclusion, the system offers a wide range of advantages with the main one being the fast payback period for the client. Overall, this will act as a perfect example for Future clients that will want to incorporate BESS into their Solar on-grid projects.
Turkey Solution Provider for Hybrid Solar Power Plant
SINOSOAR is proud of its sophisticated R&D team, the self-developed SP Series Battery Inverter, and Energy Storage Series, Energy Management System, Hybrid Global Data Platform (Supervisory Control And Data Acquisition) have been launched and successfully applied to the solar hybrid projects in Maldives, Myanmar, Uganda, Suriname etc.
The technical team of SINOSOAR has more than 15 years of experience in design and implementation of solar hybrid and off grid projects. With the service tenet of “Customer First”, SINOSOAR starts from customer demand and ends with customer satisfaction, provides complete solar hybrid and off grid solutions based on the actual requirements of customers.
Power the world with hybrid energy
Sino Soar Hybrid (Beijing) Technology Co., Ltd. (Abbr. SINOSOAR) is an international high-tech company specialized in solar hybrid and off grid fields. SINOSOAR’s main business scope covers R&D, system integration, project development, engineering, procurement, construction, maintenance as well as project financing and investment.
Relying on strong R&D capabilities, sophisticated engineering experts, advanced supply chain and rich experiences in resources integration, SINOSOAR provides customized turnkey solutions for solar hybrid and off-grid projects all over the world.
Science & Technology
01
R & D
The development strategy of SINOSOAR is to expand our business chains upstream and downstream (including financing & investment) during the implementation of solar hybrid and off-grid projects. Our aim is to supply clean and sustainable power to industrial and individual users at isolated islands and remote undeveloped areas from pole to pole.
02
products
SINOSOAR has obtained the Certificate of National High-tech Enterprise and the Certificate of “Zhongguancun” High-tech Enterprise. SINOSOAR has declared a total of 103 patents, including 17 national invention patents, 86 utility model invention patents, 28 certificates for computer software copy right, and 3 appearance design patents. In addition, SINOSOAR has been issued with the ISO Certificates and HSE Certificate.
03
service coverage
As of now, SINOSOAR has completed more than 30 solar hybrid projects in Asia and Africa. The projects are benefiting more than 30 million people. SINOSOAR’s business map covers more than 20 countries and regions in Asia, Oceania, Latin America and Africa. In addition, SINOSOAR has successfully supplied and installed more than 400,000 sets of off-grid solar power system. These independent solar power systems are providing renewable energy to more than 3 million people to meet their basic needs of electricity. For the projects invested and constructed in these underdeveloped countries and regions, SINOSOAR has provided our end-users with free training and maintenance. We also established the maintenance stations near to the project sites to serve our customers with high-quality after-sales services.
Global Cases
Cases of Maldives
(Solar Hybrid system)
PV : 2.86MWp |
|
BESS : 3.23MWh |
|
Genset : 6.72MW |
|
Fund : Asian Development Bank (ADB) |
Cases of Uganda
(Solar Hybrid system)
PV : 518.4kWp |
|
BESS : 650kWh |
|
Genset : 500kW |
|
Fund : The Global Fund |
Cases of Mongolia
(Solar Hybrid system)
PV : 80kWp |
|
BESS : 96kWh |
|
Genset : 100kW |
|
Fund : Mongolian Highway Administration |
Cases of Myanmar
(Solar Hybrid system)
PV : 583.2kWp |
|
BESS : 476KWh |
|
Genset : 500kW |
|
State Grid : 1.25MVA |
Cases of Suriname
(Solar Hybrid system)
PV : 2.3MWp |
|
BESS : 1.14MWh |
|
Fund : Caribbean Development Bank (CDB) |
Cases of Marshall Islands
(Solar Hybrid system)
PV : 4MWp |
|
BESS : 2MW/1MWh |
|
Genset : 8.6MW |
|
Fund : The World Bank |
Cases of Sri Lanka
(Solar Hybrid system)
PV : 1.7MWp |
|
Wind Turbine : 530kWp |
|
BESS : 2.35MWh |
|
Genset : 2.05MW |
|
Fund : Asian Development Bank (ADB) |
Cases of Niger
(Solar Hybrid system)
PV : 2.9MWp |
|
BESS : 4.35MWh |
|
Genset : 1.48MW |
|
Fund : The World Bank |
Cases of Ethiopia
(Solar Hybrid system)
PV : 2MWp |
|
BESS : 5.5MWh |
|
Genset : 450kW |
|
Fund : African Development Bank (ADB) |
Cases of Solomon Islands
(Solar Hybrid system)
PV : 212.8kWp |
|
BESS : 161kWh |
|
Fund : Solomon Government |
Cases of Myanmar
(Solar Off-grid System)
System Quantity : 368240 Sets |
|
Capacity : 24.88MWp |
|
Fund : The World Bank |
Cases of Philippines
(Solar Off-grid System)
System Quantity : 25000 Sets |
|
Capacity : 1.1MWp |
|
Fund : EU & The World Bank |
|
Power the World with Hybrid Energy