Digitalization as a driver for supporting PV deployment and cost reduction

IF 1.9 Q3 PHYSICS, APPLIED

EPJ Photovoltaics Pub Date : 2022-01-01 DOI:10.1051/epjpv/2021013

E. Saretta, P. Bonomo, Willy Maeder, V. K. Nguyen, F. Frontini

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引用次数: 4

Abstract

Digitalization is providing advantages to all sectors around the world and it can be of relevance also for the photovoltaic (PV) sector. As an example, the current value chain of the European PV sector is often characterized by analogue and fragmented processes that should be overcame to support greater PV deployment. The adoption of a more open and collaborative digital-based approach characterized by data-sharing among different stakeholders and more integrated information thread from the design till O&M can provide direct benefits in optimizing the PV process, increasing performances, and reducing of costs. Therefore, a novel PV Information Management (PIM) approach has been drawn within the European H2020 project “SuperPV”. In accordance with PIM objectives, a workflow for seamlessly transferring data along main PV work-stages has been developed, as well as new digital features to specifically address collaborative approach in the PV sector such as: (i) advanced functionalities introduced in the existing BIMSolar® software for improving the simultaneous design, performance simulation and cost assessment of medium and large PV systems, (ii) a proof-of-concept for aggregating all relevant information into a Digital Twin platform aimed at setting the ground for post-construction management and lifecycle assessment of the whole PV system.

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数字化是支持光伏部署和降低成本的驱动因素

数字化正在为世界各地的所有行业提供优势，它也可以与光伏(PV)行业相关。例如，目前欧洲光伏行业的价值链通常以模拟和分散的过程为特征，应该克服这些过程以支持更大的光伏部署。采用更加开放和协作的基于数字的方法，其特点是不同利益相关者之间的数据共享，以及从设计到运维的更集成的信息线程，可以为优化光伏工艺、提高性能和降低成本提供直接好处。因此，在欧洲H2020项目“超级光伏”中提出了一种新的光伏信息管理(PIM)方法。根据PIM的目标，已经开发了一个在主要光伏工作阶段无缝传输数据的工作流程，以及专门解决光伏行业协作方法的新数字功能，例如:(i)现有BIMSolar®软件中引入的先进功能，用于改进大中型光伏系统的同步设计、性能模拟和成本评估;(ii)将所有相关信息聚合到数字孪生平台中的概念验证，旨在为整个光伏系统的施工后管理和生命周期评估奠定基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

EPJ Photovoltaics PHYSICS, APPLIED-

CiteScore

2.30

自引率

4.00%

发文量

审稿时长

8 weeks