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On September 20, Siemens said that the world's first 3D printed combustion chamber for industrial gas turbines has been in successful operation for a year without any problems
.
Siemens installed a combustion chamber for the 32.
8 MW SGT-7000 gas turbine at the E.
ON combined cycle power plant in Hesse, Germany, which Siemens said on September 19 had been in operation for more than 8,000 hours and the results were impressive
.
3D printing, also known as "additive manufacturing," allows gas turbine components to be built
layer by layer in a sliced manner.
Siemens, which has been researching additive manufacturing processes since 1989, says the technology could revolutionize the way
parts are developed and produced.
Siemens says that it is difficult to produce gas turbines with higher efficiency, lower emissions and greater temperature resistance using traditional manufacturing techniques, and 3D printing can now produce almost any structure
imaginable.
This process allows gas turbine components such as gas turbine blades to construct complex internal cooling channels, thereby improving gas turbine efficiency
.
For Siemens, the importance of this achievement cannot but be taken seriously
.
Vladimir Navrotsky, CTO of Siemens Distributed Generation, said these early results from the Smart Combustion Chamber Manufacturing Program and E.
ON confirm our belief that this technology can be a
game-changer.
We appreciate E.
ON's active participation and commitment to driving innovation and look forward to our continued close collaboration
.
"
On September 20, Siemens said that the world's first 3D printed combustion chamber for industrial gas turbines has been in successful operation for a year without any problems
.
Siemens installed a combustion chamber for the 32.
8 MW SGT-7000 gas turbine at the E.
ON combined cycle power plant in Hesse, Germany, which Siemens said on September 19 had been in operation for more than 8,000 hours and the results were impressive
.
3D printing, also known as "additive manufacturing," allows gas turbine components to be built
layer by layer in a sliced manner.
Siemens, which has been researching additive manufacturing processes since 1989, says the technology could revolutionize the way
parts are developed and produced.
Siemens says that it is difficult to produce gas turbines with higher efficiency, lower emissions and greater temperature resistance using traditional manufacturing techniques, and 3D printing can now produce almost any structure
imaginable.
This process allows gas turbine components such as gas turbine blades to construct complex internal cooling channels, thereby improving gas turbine efficiency
.
For Siemens, the importance of this achievement cannot but be taken seriously
.
Vladimir Navrotsky, CTO of Siemens Distributed Generation, said these early results from the Smart Combustion Chamber Manufacturing Program and E.
ON confirm our belief that this technology can be a
game-changer.
We appreciate E.
ON's active participation and commitment to driving innovation and look forward to our continued close collaboration
.
"
