Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Thermo Compression Engine
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Welcome to:
Thermo Compression Engine
Thermo Compression Engine
Overview
-> How it works
-> Thermodynamic
-> Prototype
-> Patents worldwide
How it works
Most important parts
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
12 cold air side heat exchanger
13 exhaust side heat exchanger
1&3 valve or plate slide
How it works 2 Stroke
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
End of Exhaust Stroke
Thermo
Comp-pression stroke
Ignition and expansion
End of expansion start of exhaust
How it works 2 Stroke
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Exhaust gas is going out of heat exhanger
Exhaust gas is going out of heat exchanger and intake of fresh air
How it works 4 Stroke
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
End of Exhaust Stroke
Thermo
Comp-pression stroke
Ignition and expansion
End of expansion start of exhaust
How it works 4 Stroke
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Exhaust gas is going out of heat exhanger
Exhaust gas is going out of heat exchanger and intake of fresh air
Thermodynamics
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
0,000
10,000
20,000
30,000
40,000
50,000
60,000
0,000 0,500 1,000 1,500 2,000 2,500 3,000Volumen [ccm]
Druc
k [b
ar]
Pressure vs. Volume Seilinger
Max Press 52bar
Thermodynamics
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Pressure vs. Volume 4 stroke Thermo Compression
0,000
2,000
4,000
6,000
8,000
10,000
12,000
14,000
16,000
18,000
20,000
0,000 0,500 1,000 1,500 2,000 2,500 3,000Volumen [ccm]
Druc
k [b
ar]
Max Press 18bar
Efficiency
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Process EfficiencyCarnot 80,28%Otto 56,47%Diesel 55,36%Seilinger 55,99%2 Stroke Thermocompression 56,96%4 Stroke Thermocompression Otto 69,87%4 Takt Thermocompression Seilinger 67,49%
Compression 8Injection ratio 1.13kappa 1.4Psi (pressure ratio) 1.305
Advantages 2 strokes thermocompression
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Low pressures
Less mechanical stiffness (e.g. cheap ball bearings possibles)
High efficiency
Excellent for cogeneration
Low Noise
Disadvantages 2 strokes thermocompression
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Heat exchanger needed
Limit on max. revolution / min due limits for heat exchanger (max. ca. 3000 rev/min)
Lower power per volume
Prototype
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Prototype
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Patents
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
Patents
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine
4 Patents Researcher
German patent OfficeWorld patent Office (WPO) 2 Independent patent researcher
Many Citations – Objections -> nothing found
Dipl.-Ing. Christian Daublebsky von Eichhain Engine Expo 2013 Open Technology Forum
Thermo Compression Engine