In lithium-ion battery cell manufacturing, using a traceability system is considered a promising approach to reduce scrap rates and enable more efficient production. Today,
Against this background, this work describes the implementation of a traceability system as part of QMS for battery cell production and presents a developed framework to overcome challenges...
A two-string PV system is considered in this paper to evaluate the performance of the proposed controller. The proposed MPC for the dc microgrid consists: maximum power point tracking
In PV system, each string of battery is capable of producing 70 kWh of electricity, and the total capacity of BESS is 2 MWh. The capacity of PV system is 40 MW, which consists of 880 arrays, 880 inverters and transformers. The inverter is connected to 0.4/35 kV power transformers which are connected to the substation via insulated power cables. Due to
Polarity should be verified on the following dc components and circuits PV system: Photovoltaic modules Photovoltaic source circuits Photovoltaic output circuits Disconnecting means Battery and charge controller circuits Inverter
Along the value chain of lithium-ion battery production, there are several process-related changes in the batch structure which are associated with technical challenges for cell-specific traceability. A holistic approach is needed to eliminate the information gaps between the processes and to ensure the traceability of components and process
This paper presents a methodology for the development of an ontology-based traceability system of data acquired along the battery cell manufacturing chain. This system
This paper presents a methodology for the development of an ontology-based traceability system of data acquired along the battery cell manufacturing chain. This system provides interrelations between data, data sources, and corresponding entities enabling an interoperable data acquisition.
In lithium-ion battery cell manufacturing, using a traceability system is considered a promising approach to reduce scrap rates and enable more efficient production. Today, traceability is...
A two-string PV system is considered in this paper to evaluate the performance of the proposed controller. The proposed MPC for the dc microgrid consists: maximum power point tracking (MPPT) of PV arrays and control of a bidirectional dc-dc converter for charging/discharging the battery energy storage system. The controller tracks the maximum
The independent control facilitates charge and load balancing between battery and PV panels with varying voltages. Simulations and experiments demonstrate the system''s MPP tracking performance with at least 97% efficiency, an approximate 19% increase in energy output compared to a fixed string of two PVs, and 1% ripple in the output voltage and
Thus, in reviewing various tracking systems, it is evident that solar tracking systems could potentially improve the photovoltaic system''s operating efficiency and profitability. From the analysis of various tracking systems, the study was able to show the increases in energy yield from the SATS and DATS as opposed to the fixed systems. It has been pointed out that
To enable improved data-driven approaches and address challenges in battery production from a traceability perspective, a framework introducing a set of technologies that enable unique traceability in battery
Against this background, this work describes the implementation of a traceability system as part of QMS for battery cell production and presents a developed framework to overcome challenges...
The paper proposed a control and power management scheme for a photovoltaic system connected to a hybrid energy storage system composed of batteries and supercapacitors. Several optimized PI control strategies have been proposed for the regulation of the DC bus voltage including the classical pole placement pole, Linear Matrix Inequality (LMI) approach,
To ensure a more responsible and sustainable battery supply chain, tracking and tracing battery production, distribution and recycling becomes crucial. End-to-end traceability — a distinct feature of Dassault Systèmes'' 3D EXPERIENCE® platform helps battery manufacturers align their output with battery passport 3 benchmarks.
This study examines a grid-connected photovoltaic-battery (PVB) system, which comprises the PV module, energy storage system, building load, and utility grid, as depicted in the upper left corner of Fig. 1. The PV system delivers electricity to the building load, battery system, and utility grid. In addition to PV generation, the load can be met through battery discharge
In lithium-ion battery cell manufacturing, using a traceability system is considered a promising approach to reduce scrap rates and enable more efficient production. Today, traceability is possible from the assembled cell onwards. However, with a view to the new EU battery regulation, complete traceability down to the material needs to be
To enable improved data-driven approaches and address challenges in battery production from a traceability perspective, a framework introducing a set of technologies that enable unique traceability in battery production was presented in this study. Innovative components of this framework were implemented and validated within the BLB. First, the
In lithium-ion battery cell manufacturing, using a traceability system is considered a promising approach to reduce scrap rates and enable more efficient production. Today, traceability is...
After the simulation, the results show that using the hybrid battery system together with the photovoltaic system (in both strategies), a significant cost of operation can be saved in comparison to the use of the diesel generator. 3.2. Operation of hybrid systems. Distributed storage and renewable generation sources are two elements that are widely used
Despite several existing work dedicated to the evaluation of photovoltaic battery system, the research on system sizing and operation strategy of the household system still has substantial areas to be explored such as techno-economic analysis under different electricity tariffs and comprehensive parametric analyses. In this paper, the mathematical model of a
The literature review on design the of hybrid systems considers configuration, storage system, criteria for design, optimisation method, stand-alone or grid-connected form and research gap are summarised in Table 1 Ref. [6], a designing of the hybrid photovoltaic and biomass was developed aimed at the net present cost-minimising and satisfying the loss of
At least three regulatory levels for the production, installation, operation and end of life of photovoltaic systems can be considered. Additionally, the Life Cycle Assessment methodology is also regulated by standards. In this chapter, the three levels are presented. First, a technical approach where the international technical standards of different standardization
Thus, a solution morphology for the integration of traceability concepts with focus on identification technologies in battery production was developed. This paper presents the developed...
Along the value chain of lithium-ion battery production, there are several process-related changes in the batch structure which are associated with technical challenges for cell-specific traceability. A holistic approach is needed to eliminate the information gaps between
To ensure a more responsible and sustainable battery supply chain, tracking and tracing battery production, distribution and recycling becomes crucial. End-to-end traceability — a distinct feature of Dassault Systèmes'' 3D EXPERIENCE®
Thus, a solution morphology for the integration of traceability concepts with focus on identification technologies in battery production was developed. This paper presents the developed...
The independent control facilitates charge and load balancing between battery and PV panels with varying voltages. Simulations and experiments demonstrate the system''s MPP tracking
Traceability technology to enable traceability in battery production. The tracking of an object with its corresponding information to facilitate holistic quality management is challenging due to the complexity of battery cell production.
Therefore, the need for the introduction of a holistic framework deploying a set of technologies to enable traceability within battery cell production is required. This research will introduce such an approach, outline its functionality within a pilot line facility and present the benefits for future data-driven approaches.
Data acquisition plays a major role in generating transparency within the complex system of battery manufacturing and enables its improvement. This paper presents a methodology for the development of an ontology-based traceability system of data acquired along the battery cell manufacturing chain.
A holistic approach is needed to eliminate the information gaps between the processes and to ensure the traceability of components and process steps up to the finished product. Thus, a solution morphology for the integration of traceability concepts with focus on identification technologies in battery production was developed.
State of the art 3.1. Traceability system A traceability system includes both forward tracking and backward tracing within the value chain . It collects information from trace objects along phases of the product life cycle. Trace objects are the units that are tracked during an entire production process or from a specific processing step.
Traceability in Manufacturing Systems The term traceability describes the ability to recreate the entire product and processing history of a specific object, i.e. trace-object, downstream its life cycle in the form of a consistent data set . This includes two core elements: tracking and tracing.
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