Design and Start-up of Lab Plant and Pilot Plant Systems for SynFuels
Synthetic fuels represent a pivotal component of future energy frameworks, essential for mitigating climate change. Leveraging our robust expertise, Microinnova plays a pivotal role in crafting carbon-neutral renewable fuels through the development and implementation of lab plant and pilot plant systems. These endeavors are paramount in combating climate change by offering sustainable energy alternatives.
Microinnova’s endeavors span various fronts, including CO₂ capture, methanol synthesis, Fischer-Tropsch synthesis, and other gas catalytic reactions, all geared towards advancing sustainable fuel technologies. One notable initiative is the BIOGO project, where Microinnova has erected a versatile modular lab plant encapsulating three critical domains.
Firstly, Microinnova’s lab plant facilitates the reforming of bio-oil (pyrolysis oil) and biogas into synthesis gas (“SYN – Synthesis Gas Generation”). This process lays the foundation for subsequent fuel synthesis by generating a crucial intermediate.
Secondly, the lab plant enables the conversion of syngas into methanol (“MET – Methanol Synthesis”). Methanol serves as a vital precursor in the production of various synthetic fuels, contributing to a diversified and sustainable energy matrix.
Lastly, Microinnova’s facility facilitates the synthesis of gasoline from methanol (“BIO – Biofuel Synthesis”), completing the value chain by producing a versatile and widely used transportation fuel. Through these initiatives, we demonstrate our commitment to innovation and sustainability, paving the way for a greener and more resilient energy landscape. By integrating cutting-edge technology with a steadfast environmental ethos, Microinnova is at the forefront of shaping a sustainable energy future.
Read our case study about synthetic fuels and gas catalytic reactions – Fischer-Tropsch, methanol synthethis, etc.
