of Geothermal Energy

NEXT GENERATION

HOLISTIC GEOTHERMAL DEVELOPMENT

in South Eastern Europe

PERFECT START

INTRODUCTION

Introducing the next generation of Geothermal Energy: Significantly increasing yields, while aiming for Zero Emission. Our technology fully utilizes the energy potential of hot brines. In contrast to conventional geothermal power plants, our hybrid system uses two sources for its energy production: Hot water as well as the dissolved gases within this water...

LIFECYCLE CO2 EMISSIONS

(median) (grams CO2/kWh)

CAPACITY FACTOR PERCENTAGE

(%)

Coal - 820 grams CO2/kWh
Biomass - 230 grams CO2/kWh
Solar - 42 grams CO2/kWh
Classical Geothermal - 38 grams CO2/kWh
Nuclear - 12 grams CO2/kWh
Wind - 11 grams CO2/kWh
CLEAG Geothermal - 5 grams CO2/kWh
Coal - 85 %
Biomass - 83 %
Solar - 24 %
Classical Geothermal - 95 %
Nuclear - 90 %
Wind - 35 %
CLEAG Geothermal - 95 %
SOURCE 1: 2014 IPCC, Global warming potential of selected electricity sources
SOURCE 2: 2013, ökozentrum Langenbruck, CLEAG lifecycle CO2 Emissions

EXCEPTIONAL INVESTMENT OPORTUNITY

CLEAG TECHNOLOGY

CLEAG offers optimized geothermal energy Increasing yields, minimizing emissions, bundled in a compact modular system

PILOT PROJECT CROATIA

SUPPORT LETTERS

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