Battery Energy storage system BESS
The OSM ESS product line provide BESS with complete electrical energy storage and management system that can be configured to perform numerous functions – from reducing the intermittency of renewable generation sources to performing ancillary services in power substations.
The system consists of an energy control and management solution which coordinates the operating modes and optimizes their performance, ensuring higher efficiency and better use of energy resources, in addition to providing operational flexibility and energy supply reliability.
OSM flexible battery energy storage system design are designed for indoor and outdoor installation. The BESS We made suitable for whole house battery backup power And also commercial. The commercial containers BESS are built for both small-scale and large-scale energy storage systems with the power of up to multi-megawatt. from 500kwh, 600kwh, 700kwh to 1000kwh. All our systems use the same building block structure of a OSM partnered with our own inverter PCS, EMS. It can minimize the possibility of a single point’s failure in the system and maximize reliability. Large-scale systems use a multi-tower power source controller to manage the cells across the entire system.
Why energy storage?
Battery Energy storage systems are capable of intensively exploiting energy resources, playing an important role in the unification, distribution and capacity expansion of distributed generation systems. This technology allows disseminating the use of solar, wind and other renewable energy sources in a sustainable manner, overcoming the problems of random energy availability and increasing the efficiency of the system as a whole, in addition to contributing to the reduction of environmental impacts.
The OSM BESS line stands out for being a solution fully developed to meet the specific demand of each project.
Operating modes
- Power factor regulation;
- Peak shaving;
- Voltage and frequency regulation;
- Spinning reserve;
- Load leveling;
- Time shifting;
- Power stabilization;
- Energy management;
- Black start.
Main components The ESSW is a modular, scalable solution that can be configured for different applications. The components are individually designed and manufactured to meet the specific demands of each installation.
- Special E-house for BESS;
- Bidirectional converter;
- Battery bank;
- Power transformer;
- DC switchboards;
- AC switchboards;
- HVAC and fire control system;
- Energy Management System (EMS).
Success BESS examples made by OSM
500kw/1mwh LFP LiFePo4 solar panel battery pack
- Date: April , 8th, 2016
- Location: AUSTRALIA
- Application: POWER SUPPLY FOR FARM PLACE utility-scale batteries
- Model No.: OSM-ESS500KWH
- Config.: 1mkWH Lifepo4 battery +500KVA OSM HYBRID INVERTER
- Size: 1000KWH
- Purpose: SUPPLY FOR 12 HOURS
- Energy Source: PV SOLAR PANELS AND GRID
OSM Design ESS 1000KWH 500kva ALL IN ONE design for commercial solar system
- Date: March, 22th, 2017
- Location: South Africa
- Application: Urban equipment electricity consumption
- Model No.: OSM-ESS500KWH
- Config.: 1mkWH Lifepo4 battery +500KVA OSM HYBRID INVERTER
- Size: 1000KWH
- Purpose: SUPPLY FOR 8 HOURS
- Energy Source: PV SOLAR PANELS AND GRID
OSM Design ESS 1000KWH 500kva ALL IN ONE design for commercial solar system
- Date: March, 15th, 2014
- Location: USA
- Application: POWER SUPPLY FOR SUPER MARKET
- Model No.: OSM-ESS5025
- Config.: 250KWH lithium battery+100KVA OSM HYBRID INVERTER
- Size: 250KWH INDOOR USE
- Purpose: SUPPLY FOR 8 HOURS
- Energy Source: PV SOLAR PANELS AND GRID
OSM manufacture Design ESS2000KWH 500kva ALL IN ONE design for commercial solar system
- Date: March, 28th, 2016
- Location:Jiang Xi china
- Application: State Grid Corporation of China
- Model No.: OSM-ESS500KWH
- Config.: 2mkWH Lifepo4 battery +500KVA OSM HYBRID INVERTER
- Size: 2000KWH
- Purpose: SUPPLY FOR 12 HOURS
- Energy Source: PV SOLAR PANELS AND GRID
OSM manufacture Design ESS2000KWH 500kva ALL IN ONE design for commercial solar system
- Date: May, 18th, 2018
- Location: AUSTRALIA
- Application: solar energy
- Model No.: OSM-ESS500KWH
- Config.: 2mkWH Lifepo4 battery +500KVA OSM HYBRID INVERTER
- Size: 2000KWH
- Purpose: SUPPLY FOR 12 HOURS
- Energy Source: PV SOLAR PANELS AND GRID
OSM Design ESS 360KWH 100kva ALL IN ONE design for commercial solar system
- Date: March, 19th, 2017
- Location: USA
- Application: POWER SUPPLY FOR SUPER MARKET
- Model No.: OSM-ESS2360
- Config.: 360KWH lithium battery+100KVA OSM HYBRID INVERTER
- Size: 360KWH INDOOR USE
- Purpose: SUPPLY FOR 10 HOURS
- Energy Source: PV SOLAR PANELS AND GRID
OSM 4MWH 2000KVA lifepo4 battery FOR SMART GRID
- Date: Sept., 9th, 2016
- Location: XINJIANG , CHINA
- Application: SMART GRID
- Model No.: OSM-ESS-4000KWH
- Config.: 4000KWH Lifepo4 battery+2000KVA PCS
- Size: 4*768VDC
- Purpose: LOAD SHIFTING/DEMAND MANAGEMENT
- Energy Source: Local GRID NET
OSM Design ESS 600KWH 200kva ALL IN ONE design for commercial solar system
- Date: March, 28th, 2017
- Location: USA
- Application: School power supply
- Model No.: OSM-ESS2360
- Config.: 600KWH lithium battery+200KVA OSM HYBRID INVERTER
- Size: 600KWH INDOOR USE
- Purpose: SUPPLY FOR 12 HOURS
- Energy Source: PV SOLAR PANELS AND GRID
OSM 500KWH 100KVA lifepo4 battery CONTAINER ESS FOR SOLAR STORAGE SYSTEM
- Date: August., 25th, 2017
- Location: Gan Su CHINA
- Application: SOLAR STORAGE OFF GRID
- Model No.: GSL-ESS-500KWH
- Config.: 500KWH Lifepo4 battery+150KVA PCS
- Size: 20FT CONTAINER STANDARD
- Purpose: OFF GRID SOLAR STORAGE FOR VILLIAGE
- Energy Source: 150KWH SOLAR PANELS
C&I ESS Commercial & Industrial
OSM Energy designs and builds advanced critical energy storage systems (ESS) which are deployed in demand response enabled microgrid solutions for commercial and industrial applications.
Our advanced commercial and industrial energy storage systems allow companies to mitigate economic risk with on-site independent backup power to essential equipment while helping to insulate operating expenses from utility rate increases and fluctuations in power supply.
Our C&I solutions are designed for low or high voltage single, split or 3 phase electrical architecture and easily integrates with a broad selection of high power inverters, power control systems, and energy management systems.
OSM Energy ESS protects by
- Improving energy resilience with an energy storage system that allows for critical loads backup.
- Saving money by reducing or eliminating utility peak demand charges.
- Maximize renewable self-consumption and participate in demand response programs.
- Prepare for the future shared energy market with your commercial virtual power plant.
Microgrid
Energy storage is a critical component of any micro-grid. Whether the microgrid is one circuit within a building, a mobile power station, or an entire campus, our energy storage system can be configured to meet the power needs of any project. Our C&I solutions are being deployed to meet a wide variety of micro-grid applications.
Critical Power
Uninterruptible power supply is the first line of defense for corporations who need to protect their company from the detrimental risks of power outages which can cost businesses thousands of dollars per minute! Our energy storage systems are are designed to ensure businesses will have power to meet their facility’s critical power needs.
Demand Shaving
For many companies the most significant portion of the electric bill are the demand charges which are based on the highest amount of power drawn during any 15-minute interval billing period. Without our ESS, traditional solar systems can do very little to reduce demand charges.
Hybrid Genset
The lack of reliable electric supply and high costs of peak demand are some of the challenges that are a motivating factor in energy manager’s search for a more reliable and long term solution for secondary power supply. Our high discharge energy storage systems are being deployed to allow companies to achieve significant savings with hybrid genset systems.
Lithium Ion Batteries
The high efficiency of the ESSW energy storage system is guaranteed by the advanced battery technology and the integrated BMS. The lithium battery has a reduced environmental impact combined with excellent performance and safety. The ideal battery bank for the project is defined according to the type of application, storage capacity, charging/discharging capacity, service life, etc. Lithium batteries are used because they provide several advantages in relation to the other topologies used worldwide – among them, high energy density, extended useful life, high charging and discharging capacity, modularity and low maintenance.
The figure below shows the modularity of these batteries; the cells are enclosed in modules and mounted on racks. Each rack has its energy measurement, control and management unit (BMS).
Inside of battery rack modelers
Outlook of LFP container BESS
Advantages
- Modular structure ensuring easy operation andmaintenance;
- Flexible arrangement for various voltage levels and storage capacities;
- Design of the battery management system (BMS) in three levels (module, rack and bank), ensuring greater control andmonitoring of the system;
- High reliability and safety provided by the chemistry used;
- Long service life;
- Optimized dimensions ensuring high energy density and reduced weight;
- Flexible and fast transportation and implementation;
- Lower maintenance in comparison to other batterychemistries.