Impact of battery electric vehicles on ventilation design for road tunnels: A review

Over the next several years, the proportion of battery electric vehicles (BEVs) in road tunnels is anticipated to increase as governments throughout the world promote BEVs to minimize environmental pollution. However, the research on emission factors and fire characteristics of BEVs is not as mature as that of conventional internal combustion engine vehicles (ICEV). As a result of these changes, the impact of BEVs on ventilation design for road tunnels needs to be considered in detail. This review analyzes the expected impact of BEVs on road tunnel ventilation by investigating the existing literature on emission factors and fire characteristics of BEVs. The results of current literature studies show that although exhaust emissions have been eliminated, BEVs still generate non -exhaust particles, which account for more than 85% of the total traffic particles. Due to the relatively large vehicle weight, non-exhaust particles produced by BEVs may be comparable to the total traffic particles emitted by their ICEVs counterparts. The average heat release rate of BEVs fire is similar to that of their ICEVs coun-terparts, but the HF concentration generated is higher, and water is still suitable for eliminating BEVs fire. At present, the impact of BEVs on tunnel ventilation design is not obvious. This review is expected to broaden the understanding of BEV emission factors and fire characteristics, which can provide some reference for road tunnel policymakers and ventilation designers.

Automated summary

As governments worldwide promote battery electric vehicles (BEVs) to reduce environmental pollution, their proportion in road tunnels is expected to increase in the coming years. However, research on emission factors and fire characteristics of BEVs is not as mature as that of conventional internal combustion engine vehicles (ICEVs). This review analyzes the expected impact of BEVs on road tunnel ventilation by investigating existing literature on emission factors and fire characteristics.