Sage Journals: Discover world-class research

Abstract

Cooling system is a crucial subsystem essential for the engines, and its condition monitoring plays an important role in the engine safety and reliability. This paper proposes an innovative deep digital twin (DDT) model that combines Gradient Boosting Decision Tree (GBDT) based ensemble learning and Stacked Sparse Autoencoder (SSAE) based deep learning to enhance the sensitivity and accuracy of engine cooling system condition monitoring (CM). The Gradient Boosting Decision Tree (GBDT) algorithm is employed to generate coolant temperature baselines of healthy state under varying operational conditions. Then, taking the coolant temperature as the characteristic parameter, the health feature extraction model is constructed using Stacked Sparse Autoencoder (SSAE) network to extract the feature representations from coolant temperature under different health states. Specifically, to enhance the efficiency of feature extraction, this paper introduced modifications to the structure of the SSAE. To assess the health state of the cooling system quantitively, the probability density function (PDF) of the feature representations was calculated, with Kullback-Leibler (KL) divergence serving as the health indicators (HI). The severity of cooling system’s degradation was indicated by comparing the deviation in KL divergence between healthy and degradation states. Simulation and experimental data validation demonstrate the capability of the proposed method in cooling system condition monitoring.

Keywords

Cooling system condition monitoring deep digital twin stacked sparse autoencoder network Kullback-Leibler divergence

Get full access to this article

View all access options for this article.

References

Khazaee

Banakar

Ghobadian

, et al. Detection of inappropriate working conditions for the timing belt in internal-combustion engines using vibration signals and data mining. Proc IMechE, Part D: J Automobile Engineering 2016; 231(3): 1–34.

Sun

Zhang

Luo

. Machining process monitoring and application: a review. J Adv Manuf Sci Technol 2021; 1(2): 2021001.

Che

, et al. Methodology and application of digital twin-driven engine fault diagnosis and virtual fault model acquisition. Eng Appl Artif Intell 2024; 131: 1–13.

Wang

Zhang

Zhao

, et al. Dynamic model-assisted transferable network for liquid rocket engine fault diagnosis using limited fault samples. Reliab Eng Syst Saf 2024; 243: 1–12.

Baur

Albertelli

Monno

. A review of prognostics and health management of machine tools. Int J Adv Manuf Technol 2020; 107: 1–4.

Chen

Zhou

Zio

, et al. A deep learning feature fusion based health index construction method for prognostics using multiobjective optimization. IEEE Trans Reliab 2023; 72(3): 1038–1052.

Song

Liu

. Statistical degradation modeling and prognostics of multiple sensor signals via data fusion: a composite health index approach. IISE Trans 2018; 50(10): 853–867.

Zhou

Zheng

, et al. Online noninvasive technique for condition monitoring of cooling system in urban rail vehicles. IEEE Trans Ind Electron 2023; 70(12): 12762–12771.

Pourramezan

Rohani

Keramat Siavash

, et al. Evaluation of lubricant condition and engine health based on soft computing methods. Neural Comput Appl 2022; 34: 5465–5477.

10.

Holly

Heel

Katic

, et al. Autoencoder based anomaly detection and explained fault localization in industrial cooling systems. arXiv preprint arXiv:2210.08011, 2022.

11.

Calvo-Bascones

Voisin

, et al. A collaborative network of digital twins for anomaly detection applications of complex systems. Snitch Digital Twin concept. Comput Ind 2023; 144: 103767.

12.

Huang

Yang

Wang

, et al. Digital twin-driven online anomaly detection for an automation system based on edge intelligence. J Manuf Syst 2021; 59: 138–150.

13.

Vanem

Brandsæter

. Unsupervised anomaly detection based on clustering methods and sensor data on a marine engine. J Mar Eng Technol 2021; 20(4): 217–234.

14.

Karatuğ

Arslanoğlu

. Development of condition-based maintenance strategy for fault diagnosis for ship engine systems. Ocean Eng 2022; 256: 1–8.

15.

Yang

Han

, et al. A key performance indicator-based fault detection scheme for marine diesel turbocharging systems. J Franklin Inst 2021; 358: 9346–9363.

16.

Zhang

Wang

, et al. A digital twin approach for gas turbine performance based on deep multi-model fusion. Appl Therm Eng 2024; 246: 122954.

17.

Juarez

Botti

Giret

. Digital twins: review and challenges. J Comput Inf Sci Eng 2021; 21: 1–23.

18.

YFF

Zhu

, et al. Construction of data-driven performance digital twin for a real-world gas turbine anomaly detection considering uncertainty. Sensors 2023; 23: 6660.

19.

Ren

Wan

Deng

. Machine-learning-driven digital twin for lifecycle management of complex equipment. IEEE Trans Emerg Top Comput 2022; 10(1): 9–22.

20.

Wang

, et al. Digital twin modeling for structural strength monitoring via transfer learning-based multi-source data fusion. Mech Syst Signal Process 2023; 200: 1–21.

21.

Castellani

Schmitt

Squartini

. Real-world anomaly detection by using digital twin systems and weakly supervised learning. IEEE Trans Industr Inform 2020; 17(7): 4733–4742.

22.

Dang

Tatipamula

Nguyen

. Cloud-based digital twinning for structural health monitoring using deep learning. IEEE Trans Industr Inform 2022; 18: 3820–3830.

23.

Ren

Jin

, et al. Research on performance degradation estimation of key components of high-speed train bogie based on multi-task learning. Entropy 2023; 25: 696.

24.

Booyse

Wilke

Heyns

. Deep digital twins for detection, diagnostics and prognostics. Mech Syst Signal Process 2020; 140: 1–25.

25.

Guo

Duan

ADZ

, et al. An unsupervised feature learning based health indicator construction method for performance assessment of machines. Mech Syst Signal Process 2022; 167: 1–17.

26.

Hendre

Kale

Gore

, et al. Numerical study of water cooling jacket of an engine using coupled field analysis. Mater Today Proc 2023; 77: 739–747.

27.

Chen

Jia

, et al. Intelligent detecting method for blockage degree of forced air-cooled heat sinks. J Beijing Jiaotong Univ 2020; 44(5): 125–132.

28.

Zhu

Song

Xie

, et al. Fault diagnosis algorithm of diesel engine cooling system based on physical model and support vector machine. J Automot Saf Energy 2020; 11(4): 529–537.

29.

Sahoo

Ghosh

Sarkar

. Energy and exergy comparisons of water based optimum brines as coolants for rectangular fin automotive radiator. Int J Heat Mass Transf 2017; 105: 690–696.

30.

Zhao

Zhang

, et al. Interval prediction model of deformation behavior for dam safety during long-term operation using bootstrap-GBDT. Struct Control Health Monit 2023; 2023: 6929861.

31.

Wang

Huang

Gao

, et al. Blockage location algorithm of multi cylinder fuel injectors based on stacked sparse autoencoder. Acta Armamentarii 2024; 45: 3706.

32.

. Conjugate heat transfer study of backdisc cooling of a radial turbine. Proc IMechE, Part D: J Automobile Engineering 2021; 235: 841–853.

Research on engine cooling system condition monitoring based on deep digital twin

Abstract

Keywords

Get full access to this article

References