Public Funding for Lambda Photometrics Limited

Ageing electrical wiring inspection is one of the concern in aerospace sector. Aircraft wires operate under constant change of operational conditions i.e. aircraft wires might operate under a cold, hot or humid environment with variations in the atmospheric pressure. Operating in such conditions might create chafes, cracks, cuts, delamination or embrittlement in the insulation of the aircraft wires. The extreme conditions under which aircraft wires operate may cause failure if it becomes brittle or cracked. In these scenerios aircraft wiring can be potential fire hazard. There have been 400 reported incidents due to aircraft wiring failures. Therefore, there is a need for an inspection technique to improve the reliability of the aircraft wiring. NDT technology can be used to inspect aircraft wires and is regarded as the promising technology for aerospace industry to reduce its maintenance costs by 70% and can increase the system lifetime operation of aerospace systems. Consequently,reducing the need for new products, which will ultimately save cost for aviation industry. UltraHandMan project will develop a novel portable wiring inspection system based on extended long range ultrasonic testing techniques ,advanced signal processing software, innovative sensor array in combination with energised handheld pulser/receiver. Flaws in the wiring will reflect ultrasound back to the sensor assembly and will be detected by the pulser/receiver.Insulation damage will be recognised by advanced signal processing and pattern recognition techniques.

One of the most costly problems growers of edible and non- edible horticulture crops face is loss in production and spoilage of harvested product to the fungal pathogen, Botrytis cinerea. Botrytis is commonly known as grey mould and is a significant factor in reduced shelf-life and consumer fresh produce waste. Standard 'control' techniques which involve direct spray application of fungicide are often ineffective. This project aims to develop an innovative non-contact approach to eradicate Botrytis both in the pre- and post- harvest environments for tomato and cut flower crops; this involves the use of ultra violet light to induce natural plant resistance mechanisms and the removal of the gaseous plant hormone ethylene to prevent Botrytis infection. The technique will minimise waste both in the production and domestic environments and extend shelf-life. It will also promote the industry's green credentials in meeting consumer expectations of available, residue free and safe fresh produce.