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Clouds, Water Vapour and Climate (CWVC) ProjectThis is an ongoing project involving flights of the UK Met Office C-130 aircraft over Chilbolton, to study the nature of embedded convection other and mixed-phase processes in warm-fronts. Colleagues at UMIST are simulating these case studies with the Met Office Large Eddy Model. The radar data from these cases will shortly be available at the British Atmospheric Data Centre.CWVC Flight I (30 March 1999)Embedded convection in a warm front was sampled by the radar and the aircraft. The Hallett-Mossop process was active, generating high concentrations of small ice crystals which grew rapidly into pristine columns that were visible to the radar as a region of high ZDR.
Scans of Z, ZDR, LDR, V and PHI_DP Frontiers animation | Synoptic chart 00Z | Larkhill sonde ascent 10Z Older images of Z and ZDR Preliminary analysis: 3D visualisation Comparison with the UK Met Office mesoscale model (by Damian Wilson) A look at the velocity structure CWVC Flight II (9 June 2000)Showery precipitation, followed by altocumulus. Very high values of ZDR (up to around 6 dB) were observed by the radar near the top of the cloud, while the aircraft reported liquid water and dendrite crystals.
Scans of Z, ZDR, LDR, V and PHI_DP Frontiers animation | Synoptic chart 00Z | Larkhill sonde ascent 06Z Comparison with the UK Met Office mesoscale model (by Damian Wilson) CWVC Flight III (20 October 2000)A thick ice cloud, with fall streaks penetrating a suspected liquid water layer at -11°C and rapid ice growth indicated by the increase in radar reflectivity.
Overview of radar observations Scans of Z, ZDR, LDR, V and PHI_DP Frontiers animation | Synoptic chart 00Z | Larkhill sonde ascent 10Z Animation of Z and ZDR | Animation of Z only | Animation of ZDR only | MPEG of Z and ZDR | MPEG of Z only Comparison with the UK Met Office mesoscale model (by Damian Wilson) CWVC Flight IV (21 November 2000)Initially very uniform nimbostratus, in which later an embedded convective plume was observed and tracked. A mixed-phase mid-level cloud was present towards the rear of the system.
Overview of radar observations Scans of Z, ZDR, LDR, V and PHI_DP Frontiers animation | Synoptic chart 00Z 22 November 2000 | Larkhill sonde ascent 15Z Animation of Z and ZDR | Animation of Z only | Animation of ZDR only | MPEG of Z and ZDR Comparison with the UK Met Office mesoscale model (by Damian Wilson) CWVC Flight V (28 February 2001)A mixed-phase boundary layer cloud extending from 0°C at the surface to -12°C at cloud top. The ground-based cloud radar indicated considerable small scale vertical velocity structure.
Scans of Z, ZDR, LDR, V and PHI_DP Frontiers animation | Synoptic chart 00Z | Larkhill sonde ascent 07Z CWVC Flight VI (19 May 2005)A mixture of broken cirrus and altocumulus
Synoptic Chart 00Z | Camborne sonde ascent 12Z Scan showing mixed-phase altocumulus with high ZDR, plus some cirrus CWVC Flight VII (26 May 2005)Not a very successful flight due to the failure of the CAMRa radar. There were two overheads of Chilbolton, at 10.05 and 11.19 UTC, so the comparisons with the Copernicus radar and Acrobat radar may be interesting. CWVC Flight VIII (5 July 2005)An interesting flight with precipitating mixed-phase cloud observed by the aircraft. Initially the inhomogeneous fallstreak-like features were observed, as in the first scan below. The aircraft flew directly over Chilbolton at 12.55 & 13.00 UTC at 4 km altitude, at which time a mixture of columns, plates, droplets, and shortly afterwards graupel was reported. Later in the flight a shallow shower cloud (the one in the second scan below) was sampled in detail as it was advected towards the radar. Vertical winds of up to 2 m/s were reported, as well as supercooled 250-microns droplets. The Hallett-Mossop mechanism is therefore likely to have been active in this cloud. An overhead of Chilbolton occurred at around 14.20 UTC when the shower passed overhead. The last run of the day was at 1.5 km altitude in the low clouds and included an overhead of Chilbolton in light rain. Animations of the scan sequence would be very informative. Note that there is an offset in the velocity measurements.
Synoptic Chart 00Z | Camborne sonde ascent 12Z | Herstmonceux sonde ascent 12Z Scan at 11.37 UTC showing possible generating cells at 5 km and ice falling in strong wind shear Scan at 13.28 UTC showing a shower cloud that was extensively samped; note the velocity perturbation in the updraft CWVC Flight IX (27 July 2005)13.00 UTC| 13.21 UTC| 14.00 UTC| 14.21 UTC| 14.42 UTC| 15.03 UTC| 15.23 UTC |