The Energy transition is inevitable. The emissions of greenhouse gases keep on rising, even though the effects of global warming are evident and the Paris agreement urged to reduce the emissions. If we, which means everybody, do not contribute to the reduction, already in the short term, environmental problems will be severe.
Energy & Renewable helps protect the environment and brings both society and industry closer to the goal of achieving sustainability. We provide solutions for renewable energy applications worldwide, thus contributing to sustainable development goals.
Current developments are strongly directed towards renewable electricity generation using wind farms and solar panels and to use this part to generate Hydrogen as energy storage to overcome the variability of these sources.
Only storage in molecules can store sufficient energy to bridge large gaps in the production by renewables. But the limitations and challenges related to Hydrogen are grossly underestimated: the required electrical power, the additional hardware and the clean water supply.
To read more about the challenges and solutions, download our whitepaper by clicking on the link below.
Hint and Triumph (HTP) have joined forces to make your processing operations more flexible, efficient, reliable, safer
and profitable with less Greenhouse Gas Emissions.
HTP offers a world of solutions in Gas Treatment, Processing, Renewable, LNG & Energy transition. We have extensive experience in the evaluation and development of CCUS and Hydrogen. HTP has no exclusive relationship with any technology provider. We are fully competent in all pre-treatment, cryogenic gas processing, LNG/FLNG, NGL Fractionation, and CCUS technologies. As HTP we are experts in Technical Services (operational excellence service & continuous remote monitoring service).
Our consultants are actively looking at the Hydrogen sector to support project development, feasibility studies, conceptual design, FID support, detail design, EPCM as well as optimization and troubleshooting of existing facilities.
Hydrogen produced by the electrolysis of water, using electricity from renewable sources like hydropower, wind, and solar. Zero carbon emissions are produced.
Hydrogen produced by the thermal splitting of methane (methane pyrolysis). Instead of CO2, solid carbon is produced.
Hydrogen produced by electrolysis using grid electricity.
Grey or brown hydrogen with its CO2, sequestered or repurposed.
Hydrogen produced by electrolysis using nuclear power.
Hydrogen extracted from natural gas using steam-methane reforming.
Hydrogen produced as a byproduct of industrial processes.
Hydrogen is extracted from fossil fuels, usually coal, using gasification.
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