Start Free Trial

Geophysical flow dynamics using pulsed Doppler radar

Nerc · United Kingdom government procurement

GlobalGov surfaces government procurement from around the world, including the markets your competitors overlook.

Active
Status

Opportunity Overview

Mass movement flows are a significant natural hazard throughout the world and yet our ability to predict their behaviour and plan for their effects is limited, in part, by our lack of understanding of their flow dynamics. This research will investigate the dynamics of geophysical mass movement flow processes (specifically snow avalanches and pyroclastic flows) by means of carefully-controlled trials at avalanche and volcano test sites. This research will utilise a sophisticated and new Doppler radar imaging instrument, able to form two-dimensional animated images of a variety of geophysical events. This radar has been under development at University College London, supported by the Royal Society, and permits imaging of the dense parts of the flow (often the most important component for risk analyses) by penetrating the suspended matter surrounding snow avalanches and pyroclastic flows. Advanced signal processing algorithms will be used to generate detailed models of the structure and dynamics of the flow. At present, opto-electronic instruments can provide such information at a single point and existing Doppler radar can provide crude images of the flow speed, but averaged over 50 m and only giving an overall measure of the velocity magnitude (with no information on direction). Our instrument will reduce the averaging distance to just 1 m so that, for the first time, information on individual blocks in the flow can be obtained and assessed in relation to their significance for the overall flow dynamics. Thus, we can assess the validity of a variety of flow laws that have been proposed for describing such processes. This will lead to improved models for these flow processes by limiting the values of coefficient in the models to reasonable values and rejecting some proposed flow laws outright. This will lead to more accurate modelling of these processes, which in turn will improve risk analyses and the design of defensive structures. This study will therefore...

This is one of 1,982 active United Kingdom Research Development opportunities most of your competitors will never see.

Your competitors are watching the same crowded contracts everyone else is. Track this opportunity and every one like it worldwide, set deadline alerts, and win where they aren’t. Free for 14 days, no card.

Start Free

Solicitation Details

Issuing agencyNerc
CountryUnited Kingdom
CategoryResearch Development
Response dueNot specified / rolling
StatusActive - open for responses
Official sourceView original notice

Related Opportunities in United Kingdom

Moist processes and their interaction with storm tracks
Homogeneous hydrocarbon oxidation using nitrous oxide as a sustainable feedstock
Deep connections: How do changes in deep sea faunal communities relate to surface physics and biology?
Understanding the interplay between the gut microbiome, behavior and urbanisation in wild birds
Establishing the relative importance of a rainforest microcosm in oil palm plantations
Humid heat extremes in the Global (sub)Tropics (H2X)
Woodland-mediated predator impacts on open ground birds
Perturbation of the Earth System at the Proterozoic-Phanerozoic transition and the resilience of the biosphere

See every United Kingdom Research Development opportunity your competition is missing. Free for 14 days.

Get real-time alerts, competitive intelligence, and deadline tracking for this and every market worldwide.

Start Free Trial — No Card Required

Free 14-day trial · no card required

See who is already competing here →