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Optimization Method for Twin-Tunnel Complementary Ventilation Design and Its Energy Saving Effect

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  • Lunlei Chai
  • Xing Wang
  • Xingbo Han
  • Yongxu Xia
  • Yongdong Wang
  • Ping Lei

Abstract

Based on the compensation principle and optimization theory, an energy conservation optimization mode for twin-tunnels complementary ventilation design was proposed. And, compensation concept utilization in energy conservation of long tunnels ventilation was discussed. The energy consumption for long tunnels can be reduced significantly by remoulding longitudinal ventilation to complementary ventilation of single U-type mode or normal mode. The short-term and long-term ventilation systems of the Qingniling Tunnel, Dabieshan Tunnel, and Lianghekou Tunnel were redesigned using the optimization method, and the new scheme was compared to the original design in terms of ventilation effects, and energy consumption. In redesign, the energy consumption of short-term ventilation systems decreased 240 kW, 150 kW, and 390 kW, and energy efficiency increased by 40%, 50%, and 68.4%, respectively. In the long term, the numbers of those were 1185 kW, 1185kW, and 540 kW, and 42.5%, 58.09%, and 45%, while the pollutants concentration increased a little. The study can provide a reference for the energy efficient design of ventilation systems in long and extra-long highway tunnels.

Suggested Citation

  • Lunlei Chai & Xing Wang & Xingbo Han & Yongxu Xia & Yongdong Wang & Ping Lei, 2019. "Optimization Method for Twin-Tunnel Complementary Ventilation Design and Its Energy Saving Effect," Mathematical Problems in Engineering, Hindawi, vol. 2019, pages 1-19, May.
    • Handle: RePEc:hin:jnlmpe:6301041
    DOI: 10.1155/2019/6301041
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