斜坡式重力储能系统机械-电气综合仿真的多工具协同建模策略

赵冬晗

doi:10.19799/j.cnki.2095-4239.2026.0204

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斜坡式重力储能系统机械-电气综合仿真的多工具协同建模策略

储能系统与工程 | 更新时间：2026-04-29

- 斜坡式重力储能系统机械-电气综合仿真的多工具协同建模策略
- Multi-tool collaborative modeling strategy for mechanical-electrical integrated simulation of sloped gravity energy storage system
- 储能科学与技术 2026年15卷第4期页码：1343-1345
- 作者机构：
  
  濮阳职业技术学院机电与汽车工程学院，河南濮阳 457000
- 作者简介：
  
  赵冬晗（1972—），女，硕士，讲师，主要研究方向为机械工程，E-mail：donghanzhao@sina.com。
- 基金信息：
- DOI：10.19799/j.cnki.2095-4239.2026.0204
  中图分类号： TM 743
- 收稿：2026-03-11，
  
  修回：2026-04-08，
  
  纸质出版：2026-04-28
- 稿件说明：
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赵冬晗. 斜坡式重力储能系统机械-电气综合仿真的多工具协同建模策略[J]. 储能科学与技术, 2026, 15(4): 1343-1345.

ZHAO Donghan. Multi-tool collaborative modeling strategy for mechanical-electrical integrated simulation of sloped gravity energy storage system[J]. Energy Storage Science and Technology, 2026, 15(4): 1343-1345.
赵冬晗. 斜坡式重力储能系统机械-电气综合仿真的多工具协同建模策略[J]. 储能科学与技术, 2026, 15(4): 1343-1345. DOI： 10.19799/j.cnki.2095-4239.2026.0204.

ZHAO Donghan. Multi-tool collaborative modeling strategy for mechanical-electrical integrated simulation of sloped gravity energy storage system[J]. Energy Storage Science and Technology, 2026, 15(4): 1343-1345. DOI： 10.19799/j.cnki.2095-4239.2026.0204.

摘要

在“双碳”目标驱动下，斜坡式重力储能系统因可平衡可再生能源波动备受关注。但系统机械与电气子系统耦合复杂，单一建模工具难以满足仿真需求。本文聚焦于斜坡式重力储能系统机械-电气综合仿真，探讨多工具协同建模策略，通过分析斜坡式重力储能系统的工作原理与特性，阐述多工具协同建模的必要性，详细介绍常用建模工具及其协同方式，为斜坡式重力储能系统的研究与优化设计提供理论支持与方法参考，以促进其在储能领域的发展与应用。

Abstract

Driven by the "dual-carbon" goals

sloped gravity energy storage systems have attracted significant attention due to their ability to balance fluctuations in renewable energy. However

the complex coupling between the mechanical and electrical subsystems of the system makes it difficult for a single modeling tool to meet the simulation requirements. This paper focuses on the mechanical-electrical integrated simulation of sloped gravity energy storage systems and discusses multi-tool collaborative modeling strategies. By analyzing the working principles and characteristics of sloped gravity energy storage systems

the necessity of multi-tool collaborative modeling is expounded. Commonly used modeling tools and their collaborative approaches are introduced in detail

providing theoretical support and methodological references for the research and optimal design of sloped gravity energy storage systems

so as to promote their development and application in the energy storage field.

关键词

Keywords

references

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