DEUTSCHES ZENTRUM FUER LUFT UND RAUMFAHRT EV



Participant Legal Name

DEUTSCHES ZENTRUM FUER LUFT UND RAUMFAHRT EV

Project Acronym

DLR

Website

Location

Stuttgart, Germany

Organization activites

DLR is the national aeronautics and space research center of the Federal Republic of Germany. Its extensive research and development work in aeronautics, space, energy, transport and security is integrated into national and international cooperative ventures. In addition to its own research, as Germany’s space agency, DLR has been given responsibility by the federal government for the planning and implementation of the German space program. DLR is also the umbrella organization for the nation’s largest project management agency. DLR’s mission comprises the exploration of Earth and the Solar System and research for protecting the environment. This includes the development of environment-friendly technologies for energy supply and future mobility, as well as for communications and security. DLR’s research portfolio ranges from fundamental research to the development of products for tomorrow. In this way, DLR contributes the scientific and technical expertise that it has acquired to the enhancement of Germany as a location for industry and technology. DLR operates major research facilities for its own projects and as a service for clients and partners. It also fosters the development of the next generation of researchers, provides expert advisory services to government and is a driving force in the regions where its facilities are located.

Involved in

WP1 : MANAGEMENT AND COORDINATION

Task 1.1: Strategic decision making and project governance
Task 1.2: Scientific Coordination and technical review
Task 1.3: Project management and administration

WP2 : Validated tools for accurate PSD soot prediction

Task 2.1: Experiments correlated to soot formation
Task 2.2: Comprehension of phenomena related to soot formation and oxidation - detailed sub models
Task 2.3: Soot modelling for numerical simulations of turbulent flames
Task 2.4: Model validation and application

WP3 : Reliable cooling design for durable combustors

Task 3.1: Near-wall region improved description
Task 3.2: Understanding of heat transfer and cooling

WP4 : Innovative applications

Task 4.1: Combustor optimization for soot reduction
Task 4.2: Innovative low emission injection systems and thermal optimization of the combustor

WP5 : Dissemination and Exploitation

Task 5.1: Development of dissemination & communication plan
Task 5.2: Dissemination & communication
Task 5.3: Exploitation Planning
Task 5.4: IP Management
Task 5.5: Interaction with Regulatory networks