Warm Rain and Collision-Coalescence
How rain forms in clouds warmer than freezing through the collision and merging of liquid droplets.
Definition
The warm rain process is the formation of precipitation in clouds above the freezing level by the gravitational collision and coalescence of liquid water droplets into raindrops.
Scope
Covers the limits of condensational growth, the terminal fall speeds of droplets, collision efficiency and coalescence efficiency, the continuous and stochastic collection equations, the broadening of droplet size distributions, and the conditions under which warm clouds produce rain.
Core questions
- Why is condensation alone too slow to produce raindrops?
- How do differences in fall speed allow larger droplets to collect smaller ones?
- What determines whether a warm cloud will rain?
Key theories
- Collision-coalescence growth
- Larger droplets fall faster and sweep up smaller ones, growing by collection at a rate that accelerates with size and explains the rapid jump from cloud droplets to raindrops.
Mechanisms
Condensational growth narrows the droplet spectrum and stalls at drizzle sizes because the rate falls as droplets enlarge. Precipitation requires collection: larger droplets with higher terminal velocities overtake and collide with smaller droplets, and a fraction of collisions result in coalescence. The collection process is self-accelerating, so once some droplets reach a critical size of a few tens of micrometres they grow rapidly into raindrops. Stochastic variations in collection help broaden the spectrum and trigger this onset.
Clinical relevance
Warm-rain physics governs precipitation from tropical and maritime clouds and is central to evaluating the susceptibility of clouds to aerosol pollution and to warm-cloud seeding.
History
The recognition that collision and coalescence, rather than condensation, produces rain in warm clouds developed through the mid-twentieth century, with the stochastic collection framework refining earlier continuous-growth models.
Key figures
- Roddy Rogers
- Hans Pruppacher
Related topics
Seminal works
- rogers1989
- pruppacher1997
Frequently asked questions
- Why can't condensation alone make rain?
- Condensational growth slows as droplets enlarge and would take far too long to reach raindrop size; collision and coalescence provide the much faster growth needed to produce rain.