Back Share

LMS Imagine.Lab Aerospace Engine Equipment

LMS Imagine.Lab Aerospace Engine Equipment supports the design and industrialization of fuel systems and controls as well as engine control actuators. It helps engineers design market-specific gravity and pressure-feed fluid systems in aircraft engines and build reliable thermal-hydraulic systems. Users can specify and control the external design of aerospace engine-related components and systems.

Fluids Systems_Aerospace engine equipment_1_Low.jpg

LMS Imagine.Lab Aerospace Engine Equipment supports the design and industrialization of fuel systems (metering units, pumps, nozzle, starters, heat exchangers) and their controls, as well as engine control actuators. It helps engineers in designing market-specific gravity and pressure-feed fluid systems in aircraft engines and in building reliable thermal-hydraulic systems.

LMS Imagine.Lab Aerospace Engine Equipment is based on the LMS Imagine.Lab AMESim multi-domain system simulation approach and comes with dedicated thermal and hydraulics libraries including configurable components (metering valves, regulating valves) which are, once connected together, representative for the equipment hydraulic behavior. It provides equipment designers with the ability to specify and control the external design of aerospace engine-related components and systems.

The detailed models are based on experimental results of well-known geometries and are suitable to any new geometry or functional requirement. Straightforward coupling between libraries and components make it possible to easily run behavior analysis and testing on simple components as well as on wholly integrated fuel systems at any project level.

The aerospace fluids database of standard and customizable components is based on experimental results and ensures the necessary accuracy and validity of models required in aerospace engine design. LMS Imagine.Lab Aerospace Engine Equipment finally helps improve design quality, while reducing design time as well as the number of experimental tests and associated risks.

Features

Advanced thermal-hydraulics components
Heat exchangers with different modeling levels
Pressure/flow/temperature distribution for various operating points
Direct coupling of pressure and temperature for global system analysis
Advanced analysis tools (linear analysis, design exploration)
Large fluids database of standard and customizable components

Benefits

Accurately predict dynamic behavior of fuel systems under transient pressure and/or temperature conditions
Access multi-scale levels from components to complete system with control strategies
Gain significant development time through fast CPU, even for large systems

Covering a range of industries, LMS application cases let you discover how LMS solutions help our customers solve their real-life engineering challenges.

diesel engines modeling design software 3.gif Delphi cuts next-generation diesel engines ECU development time with LMS Imagine.Lab AMESim

Working together with LMS Imagine.Lab engineering services, Delphi engineers use LMS Imagine.Lab AMESim multi-domain system modeling software to efficiently develop advanced HiL simulators to design and test electronic control units for tomorrow’s fuel-efficient, clean-running diesel engines.

Messier-Bugatti optimized the A380 nosewheel steering and braking system with LMS Imagine.Lab AMESim

To save weight on the A380 superjumbo aircraft, Messier-Bugatti used LMS Imagine.Lab AMESim and the Ground Loads solution to design an innovative decentralized hydraulic generation system with lightweight micro-pumps delivering power locally to emergency braking and landing gear steering systems.

air-conditioning amesim renault thermal cooling -1 Renault applies LMS Imagine.Lab AMESim to streamline its cooling and air-conditioning systems development process

To comply with the multiple constraints relative to vehicle designs that affect the thermal management of underhood systems, and to ensure high-quality passenger comfort, Renault decided to rely more on simulation to engineer the underhood thermal environment. The French car maker deployed the AMESim solution as a collaborative system simulation platform.

More cases:

Brochures

Download the LMS Imagine.Lab Overview Brochure

Download the LMS Imagine.Lab AMESim Fluids Systems Brochure


	The solution makes it possible to analyze complete aerospace fuel systems including all thermal aspects.		Advanced thermal-hydraulics components accurately predict dynamic behavior of systems under transient pressure and temperature conditions.		The Hydraulic Component Library helps model a huge variety of aerospace engine fluid equipment such as fuel metering units, pumps, actuators, nozzle and starters.

Veuillez remplir tous les champs obligatoires (marqués d'un astérisque).

*
Nom *
Fonction
Société *
Pays *
Téléphone *
E-mail *
	Merci de bien vouloir me contacter, j'ai une question d'ordre technique Merci de bien vouloir me contacter, je souhaite recevoir une offre commerciale
Votre demande *

Insert text here

Back Share