Abstract
The physical characteristics of water sprays profoundly influence the efficacy with which fires are extinguished. One of the most important physical characteristics of water sprays is the median diameter of the water droplets. However, this parameter is difficult to measure without resorting to the use of specialised equipment. Furthermore, the distribution of the size of water droplets and their initial velocity are profoundly sensitive to the pressure at the nozzle head. This paper presents a simple technique to determine the median droplet size of a water spray produced by a nozzle. The method required only two experiments to determine the mass flux distribution generated by a nozzle operating at two known pressures. A computational fluid dynamics (CFD) program was then used to estimate the median diameter of the water spray under these conditions. The median droplets generated when the nozzle was operating under a different pressure can be calculated using an established empirical relationship. The approach advocated in this paper is supported by invoking Whewell’s principle of consilience of inductions. This was achieved by observing that the CFD software accurately predicts the mass flux distribution when the new pressure and estimated median diameter of the droplets were used as inputs. This provides independent evidence that the proposed approach has some merit. The findings of this research may contribute to establish a technique in calculating the median diameter of droplets when direct measurement of droplet diameter is not available.
Highlights
Received: 22 September 2021Water-mist fire suppression systems (WMFSS) represent a promising technology for various applications within the field of fire protection due to their low demand for water and their highly effective fire suppression capability [1]
Drop-size distribution and characteristic diameter of the spray yield to a clear representation of the atomisation degree [6,7]
The corresponding median diameter of droplets was determined from the same experiment and a set of simulations using the data of flux density distribution of water droplets
Summary
Water-mist fire suppression systems (WMFSS) represent a promising technology for various applications within the field of fire protection due to their low demand for water and their highly effective fire suppression capability [1]. Numerous research studies have been performed to investigate the characteristics diameter of spray, including other parameters such as droplet size distribution, volumetric mean diameter (VMD), spray pattern, coverage area and so on for sprinkler and water-mist nozzle. This paper suggests a relatively simple technique for determining the median droplet size from a nozzle spray This technique requires only two simple experiments to determine the mass flux distribution generated by a spray nozzle operating at two known pressures and a CFD model to estimate the median diameter of the water spray under these conditions. Most of the CFD-based model uses the median size of droplets as the characteristic diameter of a spray, which represents the degree of atomisation of the spray [7,15]. This study will be useful in agricultural irrigation, energy, transport and many other industrial technologies where water spray atomisation is essential
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
