TTEC manufactures T/C`s & RTD`s for a variety of Aircraft & Aerospace Applications, including Test Stands, Environmental Chambers and Heat Treating Furnaces for Aircraft Components. NIST Traceable calibration tests and material tests reports are available as required. TTEC Style 8012 RTD`s with DIN Class A special accuracy are use to precisely measure Environmental Chamber Temperatures. These Chambers re-produce in-flight conditions that aircraft parts will be exposed to. Accurate & Stable readings...
Our flow instrumentation has been on numerous space shuttles and is currently on the International Space Station. Our high pressure mass flow controllers are used extensively in the development of advanced composites for aerospace.
The role of quality assurance in aerospace manufacture is becoming increasingly important. These inspections require the use of borescopes allowing engineers to properly and thoroughly assess different units of an aircraft: Turbines and engines, combustion chambers, low/high pressure compressors, wings, foils, cells etc.
Aerospace and aviation machining, welding, metal finishing, coating, and painting processes are complex and messy, often requiring clean rooms with precise temperature and humidity controls, as well as the need to isolate and capture contaminants via positive or negative pressure. But, expensive permanent enclosures aren’t efficient for alternating between short-term production projects and long-term constructions. What if you had a flexible clean air alternative that you could quickly deploy for existing...
Opsis systems provide high-performance monitoring of the emission activities within an airport. The rapid system allows on-line monitoring of the emissions from each aircraft at take-offs and landings, monitoring of fugitive emissions from stationary sources and differing of the airport sources from the surrounding pollution sources.
Machine condition monitoring based on oil analysis has become an essential maintenance practice of military organizations throughout the world. An effective oil analysis program will keep important military assets such as planes, ships, tanks, trucks, and any other oil-wetted machinery in operation by reducing unexpected failures and costly unscheduled downtime. Mission readiness of military equipment is paramount, and proper maintenance can also decrease the long-term expense by minimizing replacement...
The Opsis gas monitoring system is designed for monitoring in stacks and gas ducts in chemical industries, both in order to increase plant efficiency and to monitor emissions. The Opsis systems have been internationally approved by e.g. the German TÜV and the U.S. EPA.
The aerospace industry uses some of the most advanced technologies in the world in their turbines and engines. Because these turbines and engines are expected to operate and perform at the highest levels, companies in the aerospace industry employ special crews to perform regularly scheduled service and maintenance. But before any work can begin, the crew members must carry out a process called nitrogen flushing to effectively bring the concentration of oxygen in the air down to a safe level. This significantly...
Oil analysis has long been practiced for aircraft engines and other airborne oil-wetted systems such as hydraulic systems and gear boxes in helicopters. Military organizations are perhaps the number one users of oil analysis testing and commercial aviation also has a long history of oil analysis. A number of airlines throughout the world do their own oil analysis, but in many cases they send samples to commercial oil laboratories. Engine manufacturers also do oil analysis as part of engine development...
In every aspect of design specification whether it be on Airframe fuel systems or engine fuel systems the aviation industry knows that one of its biggest problems is ingress of moisture / water, as it can and does lead to catastrophic failures in aircraft engines.
Effective filtration within aircraft and military equipment, to ensure all systems are free from contaminants, to guarantee safety, long service life, reliability and cost effective operation in the most demanding situations.
SoDAR provides critical information on several fronts for airports as well. This information is both weather related and plane related. Since lives are at risk, timeliness of information is of the utmost importance.
Airport operations lead to many different types of wastewater for example through general airport, hangar and logistics operations as well as refuelling and cleaning of the aircrafts. The effluent from the runways is contaminated with oils, lubricants, detergents and other chemicals.
Applications for Coulson Ice Blast in the Aerospace sector:
Landing gear systems
Engine bay covers and other components– can be cleaned rapidly without disassembly
Brake dust and other soils and residues can be removed during restoration
Overhaul and maintenance, creating dramatic savings in man-hours and hazardous materials
Engine clean up
Anti-Corrosion coating (new aircraft only)
Cleaning ashes and fire...
Applications of 254nm amalgam UV lamp
Municipal Sewage Water Treatment
Urban Drinking Water Treatment
Swimming Pool and Spa Water Treatment
Ventilating duct and air-conditioning system
Applications of 185nm amalgam Lamps with Ozone
Kitchen Exhaust Cleaning
Urban Drinking Water Treatment
Swimming Pool and Spa Water Treatment
High Purity Process Water Disinfection
Market segments such as automotive, aviation, furniture, appliance involve: mechanical treatments and surface treatments that require large quantity of water and produce highly pollutant wastewater that cannot be discharged directly and contribute to increase company’s running costs.
Bird strikes are an extremely hazardous problem that needs to be addressed. Bird strikes have been an all-too-common occurrence since the dawn of aviation and are an ever increasing threat to aviation safety. Birds can become injected into the plane’s engines causing the plane to lose power resulting in forced landings and expensive repairs. This threat is demonstrated by the “miracle on the Hudson” in which Captain Chesley B. “Sully” Sullenberger guided an Airbus A320 into an...
Drinking Water Treatment and Disinfection for the Transport Industry
Even Airbus, the world’s largest aircraft manufacturer implements the REDO technology. Prior to delivering the new aircrafts, all of the drinking water pipelines are disinfected with the REDO Technology. Then the water tanks are filled with disinfected water from a REDO unit.
A significant advantage is the enormously reduced service time, in comparison to alternative methods. In addition, one profits from a better work-flow and last but not...
Governments the world over are now working on regulations that will require Airlines to monitor and manage their GHG emissions. The UK is leading this effort with requirements for 2010 - 2012, and other countries are soon to follow. Implementation of GHGWARE and the VisionMonitor Real-Time Environmental Performance Suite allows proactive GHG emissions and compliance data management in real-time as well as predictive modeling tools for planning of future regulatory compliance.