All Issue

2022 Vol.54, Issue 6 Preview Page
Thermodynamic Performance Analysis of New Paper Machine Air Hood Heat Recovery System
Yan Yan1
,
Wang Weichao2
,
Pan Zhao2
1College of Mechanical & Electrical Engineering, Xi’an Polytechnic University, Lecture
2College of Mechanical & Electrical Engineering, Xi’an Polytechnic University, Graduate Student
Corresponding author: E-Mail: yy8923507@163.com (Address: College of Mechanical & Electrical Engineering, Xi’an Polytechnic University, Xi’an, Shaanxi Province, 710600, People’s Republic of China)
30 December 2022. pp. 43-50
PDF XML Citation
Abstract

In this paper, a new heat recovery system of hot air hood of paper machine is proposed, the thermodynamic model of the system is established, and the effect of different thermal parameters on the heat recovery efficiency of the system is studied. The results indicate that both the recovered energy and the proportion of exhaust air passing through the latent heat exchanger attenuate as fresh air temperature increase and fresh air moisture content decrease. The system heat recovery increasing with rising of exhaust temperature. Exhaust temperature and exhaust relative humidity have different effects on sensible and latent heat recovery. The maximum value of proportion of exhaust air passing through latent heat exchanger appears when the exhaust relative humidity is 35.8%. Overall, the fresh air temperature and the exhaust relative humidity have great influence on the heat recovery efficiency.

Keywords
Dryer section
heat recovery
latent heat exchanger
numerical simulation
References

Literature Cited

1

Centre, B., Energy technology perspectives scenarios and strategies to 2050, International Energy Agency 4(4):206-207 (2010).

2

Yang, X., Chen, K. F. and Wang, B., The characteristics of modern paper machine energy consumption and energy saving methods, China Paper 30(2): 58-62 (2010).

3

Johan, G. and Hannu, P., Papermaking science and technology, Helsinki: Finnish Paper Engineers Association and TAPPI (1998).

4

Yan, Y., Dong, J. X., Tang, W. and Shi, Y., Effect of multichannel dryer structure parameters on the heat transfer performance of dryer, Chinese Journal of Paper Making 30(3):41-46 (2015).

5

Yan, Y. and Dong, J. X., Heat transfer simulation of multichannel dryer based on distributed parameter model, China Science and Technology Paper 12(11):1294-1299 (2017).

6

Yan, Y., Dong, J. X. and Gao, X. F., Condensation heat transfer characteristics and flow patterns in horizontal rectangular tubes of multichannel drying cylinders, Journal of Xi’an Jiaotong University 51(4):116-121 (2017).

7

Mardon, J., Vyse, R. and Ely, D., Paper machine efficiency: the most important parameter, how to get it and how to keep it, Pulp & Paper Canada 92(12): 285-295 (1997).

8

Xia, J. R., Xia, L. and Zhang, F. Y., Optimization of energy saving design of Yankee air cover for high-speed thin paper machine, China Pulp & Paper Industry 41(14):3 (2020).

9

Zhou, Y., Research on optimal control of energy consumption in the drying section of paper machine with closed air hood, Shaanxi University of Science and Technology (2014).

10

Yin, Y. J., Modeling and optimization research of paper sheet drying ventilation system, South China University of Technology (2016).

11

Jiang, H. Z., Research on the measurement and control system of paper machine air hood ventilation system, South China University of Technology (2011).

12

Jiang, H. Z., Li, J. G. and Zhang, Z. B., Design and development of paper machine hood temperature and humidity distribution measurement system, Paper Science and Technology 30(5): 60-64 (2011).

13

Lu, S. H. and Li, D., Energy saving measures for air hood ventilation in paper machine drying section, Paper and Paper Making 30(7):12-14 (2011).

14

Zhou, L. C., Paper machine closed hood and its design points, China Pulp & Paper Industry 27(10):54-57 (2006).

15

Tang, W., Zhou, Y. and Su, Y. Z., Genetic algorithm based on optimization of air supply temperature in the drying section of paper machines with closed hoods, China Pulp & Paper Industry, 32(11):54-57 (2013).

Information
  • Publisher :Korea Technical Association of The Pulp and Paper Industry
  • Publisher(Ko) :한국펄프종이공학회
  • Journal Title :Journal of Korea TAPPI
  • Journal Title(Ko) :펄프종이기술
  • Volume : 54
  • No :6
  • Pages :43-50
  • Received Date : 2022-11-03
  • Revised Date : 2022-12-14
  • Accepted Date : 2022-12-15
  • DOI :https://doi.org/10.7584/JKTAPPI.2022.12.54.6.43
Journal Informaiton Journal of Korea TAPPI Journal of Korea TAPPI
Online Submission
  • scopus
  • NRF
  • KOFST
  • crossref crossmark
  • crossref cited-by
  • crosscheck
  • orcid
Journal Informaiton Journal Informaiton - close