Energy Storage Hardware Clause Samples

Energy Storage Hardware. For this pilot, ▇▇▇▇▇ will provide the following ▇▇▇▇: • One 40kW/80 kWh ▇▇▇▇▇ ▇▇▇▇ (1 rack) with a three-phase ABB inverter to be deployed on a selected distribution station in Madeira Island. The ▇▇▇▇ provided by ▇▇▇▇▇ will consist of: • Interconnected battery cells making up the battery system; • The battery protection unit (BPU) – a set of switching and current sensing devices controlled by the underlying battery management system (BMS) • The BMS, responsible for battery safety, control of BPU, monitoring and diagnostic of the ▇▇▇▇; • The inverter – a bidirectional power converter DC/AC. A three-phase inverter will be used for this 40kW/80kWh system. • A site controller – a local controller responsible for inverter control and its safe connection and disconnection, collecting all relevant data and transferring them to the EMS using a third-party system (the VNet, provided by the SMILE partner OVO-Energy), self-diagnostics of the entire ▇▇▇▇ (battery + inverter), and receiving control signals (e.g. active, reactive power set points, operation mode) from the EMS. The block diagram in Figure 3.3 presents the ▇▇▇▇ structure: 4 ModBUS TCP/IP, ▇▇▇▇▇://▇▇▇.▇▇▇▇▇▇▇▇▇▇▇▇▇.▇▇▇/technologies/modbus-tcpip/ The main parameters of the grid support system are presented in Table 3.3. Dimensions (height*width*depth) Not Available cm Battery type NMC - Number of racks 1 - Power 50 kW Nominal battery DC voltage 700.8 V Maximum rack voltage 806.4 V Minimum rack voltage 499.2 V Energy content 80 kWh The grid support BMS will be provided by an ABB ESI-S5 inverter, with the unique function of reducing power losses for improving system economy (very low standby power consumption). ▇▇▇▇▇ will provide the inverter together with AC side grid filter and AC contactors. The main parameters of the inverter are presented in Table 3.4 below: Dimensions (height*width*depth) 58.5*32.6*75.5 cm Type ESI-S – IP30 - Mounting type Wall mounted - 5 ABB ESI-S inverter, ▇▇▇▇▇://▇▇▇.▇▇▇.▇▇▇/high-voltage/capacitors/lv/energy-storage-inverters-esi Nominal power 40 kW Rating 60 Arms Nominal network voltage 400 V DC voltage control range 585 – 830 V Dynamic power control (P) and reactive power control (Q) Individual power control per phase * Harmonic mitigation up to the 50th * Stepless reactive power compensation Main features Load balancing (3-Phases/ 3-Phases + Neutral) * Islanding mode Black start (as an option) LVRT (Low Voltage Ride Through) Modularity (several units can be put in parallel) for...
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Energy Storage Hardware. The SMILE partner Lithium Balance (▇▇▇▇▇) will provide the energy storage hardware for the Madeira pilots. In the concrete case of pilots 1 and 2, the following ▇▇▇▇ will be provided: • 4 single-phase 3kW/8.6kWh residential ▇▇▇▇, to be deployed in four domestic UPACs as part of the pilot number 1. • 3 single-phase 3kW/8.6kWh residential ▇▇▇▇, to be deployed on a three-phase commercial UPACs as part of the pilot number 2. Overall, the domestic ▇▇▇▇ provided by ▇▇▇▇▇ will consist of the following components: • Interconnected battery cells making up the battery system; • The battery protection unit (BPU) – a set of switching and current sensing devices controlled by the underlying battery management system (BMS) • The BMS, responsible for battery safety, control of BPU, monitoring and diagnostic of the ▇▇▇▇; • The inverter – a bidirectional power converter DC/AC. Single phase inverters will be used for 3kW/8.6kWh systems. • A site controller – a local controller responsible for inverter control and its safe connection and disconnection, collecting all relevant data and transferring them to the EMS using a third-party system (the VNet, provided by the SMILE partner OVO-Energy [5]), self-diagnostics of the entire ▇▇▇▇ (battery + inverter), and receiving control signals (e.g. active, reactive power set points, operation mode) from the EMS. The following block diagrams represent the different components that will comprise the domestic ▇▇▇▇. Figure 2.1 represents the single-phase ▇▇▇▇ that will be deployed in pilot number 1, whereas Figure 2.2 represent the 3 single-phase ▇▇▇▇ to be deployed in pilot number 2. 2.1 Block diagram of the single-phase ▇▇▇▇▇ 3kW/8.6kWh ▇▇▇▇ and communication with the EMS. (Application: improving self-consumption of the domestic UPACs – pilot study 1).
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Related to Energy Storage Hardware

  • Interconnection Customer Provided Services The services provided by Interconnection Customer under this LGIA are set forth in Article 9.6 and Article 13.5. 1. Interconnection Customer shall be paid for such services in accordance with Article 11.6.

  • Transport Services Upon the conclusion of such multilateral negotiations, the Parties shall conduct a review for the purpose of discussing appropriate amendments to this Agreement so as to incorporate the results of such multilateral negotiations.

  • TOOL STORAGE 1. A company shall provide on all construction jobs in towns and cities, and elsewhere where reasonably necessary and practicable (or if requested buy the employee), a suitable and secure waterproof lock-up solely for the purpose of storing employees’ tools, and on multi-storey and major projects the company shall provide, where possible, a suitable lock-up for employees’ tools within a reasonable distance of the work area of large groups of employees. 2. Where an employee is absent from work because of illness or accident and has advised the company in accordance with Clause 33 – Personal Leave of the award, the company shall ensure that the employee’s tools are securely stored during his/her absence.

  • Packaging Materials and Containers for Retail Sale 1. When packaging materials and containers in which a good is packaged for retail sales are classified in the Harmonized System with the good, they shall not be taken into account in determining whether all non-originating materials used in the production of the good undergo the applicable change in tariff classification set out in Annex 4.03. 2. When the good is subject to a requirement of regional value content, the value of these packaging materials and containers shall be taken into account as originating or non-originating materials, as the case may be, in calculating the regional value content of the good.

  • Interconnection Customer (1) Interconnection Customer shall construct and, unless otherwise indicated, shall own, the following Interconnection Facilities: None (2) In the event that, in accordance with the Interconnection Construction Service Agreement, Interconnection Customer has exercised the Option to Build, it is hereby permitted to build in accordance with and subject to the conditions and limitations set forth in that Section, the following portions of the Transmission Owner Interconnection Facilities which constitute or are part of the Customer Facility: None Ownership of the facilities built by Interconnection Customer pursuant to the Option to Build shall be as provided in the Interconnection Construction Service Agreement.