loader image

OUR REFERENCES

Trusted Partnerships and Proven Success Stories
CONTACT US NOW

WHO TRUST IN BSE

WHO TRUST IN BSE

PROJECT DEVELOPMENT

PROJECT DEVELOPMENT

START TIMELINEINDUSTRY, REGIONCONCEPT & CAPACITYPROJECT DESCRIPTION
2011Methanol, Germany - Syngas-to-Methanol
- Max. annual MeOH capacity: 50,000 t
Preperation of revamping a Methanol plant by using Syngas from Biomass in schwarze Pumpe, Erection of a modular Biomass Gasifier (Zeropoint, Potsdam NY)
Achievement: Experience in flexible methanol plant operation mode.
2016Pulp and Paper, GermanyPower-to-Methanol
'Max. annual MeOH capacity: 40,000 t IMPCA
- Project development and BoP pre-engineering for two Power-to-Methanol Plants
- Units: Carbon capture, Chloralkalie and Water Electrolyzer, Methanol Synthesis and distillation, Oxygen use, Methanol storage and loading
Achievement:
'- Near to Auxiliary Material autonomy is possible
- Biomethanol production from own generator and positive business case for Pulp and Paper industry with CO2-to-Methanol
2021Pulp and Paper, GermanyPower-to-Methanol
Max. annual MeOH capacity: 40,000 t IMPCA
Update to Feasibility Study
Achievement: 'Corporate CO2 Strategy defined
2018Utility company, Germany80 MW Power-to-Methanol
Max. annual MeOH output: 64,000 t IMPCA
-Pre-Basic Engineering for a 80 MW Power to Methanol Plant that consist out of 4 Synthesis Skids
- technical due dilligence done by client
2019 ongoingIndustry-Research consortium, GermanyPower-to-Methanol
Max. annual MeOH output: 1 t
- Modelling and Balancing of a Power-to-Methanol plant at a Biomass CHP/ Waste to Energy Plant together with Partners.
- Limitations of Oxygen inlet into furnace
2020Waste incineration, Germany10 MW Power-to-Methanol
Max. annual MeOH output: 8,000 t IMPCA
-Feasibility Study for units Carbon capture, Water Electrolyzer, Methanol Synthesis and distillation, Methanol storage and loading
- Balance of the Plant under integration in a Waste to Energy Plant
Achievment: Positive business case circular economy of municipality based on CO2-to-methanol
2021Chemical, Spain50 MW Power-to-Methanol
Max. annual MeOH output: 40,000 t IMPCA
- Methanol market and plant requirements from framework incl. public funding
- Prebasic Engineering 20-50 MW Power to Methanol plant including Carbon capture, Water Electrolyzer, Methanol Synthesis and distillation, Oxygen logistics, Methanol storage and loading
Achievement:
- Secured 48 Mio. EUR Innovation Fund Grant
- Further execution with bse, BASF and MAN, if PID is reached
2019Waste incineration, Germany20 MW Power-to-Methanol
Max. annual MeOH output: 16,000 t IMPCA
Feasibility Study 20 MW Power-to-Methanol including units Carbon capture, Water Electrolyzer, Methanol Synthesis and distillation
- technical due dilligence by Client
2022Ethanol, Germany8.500 t/y
51.000 t/y
Projectdevelopment and BOD of a Power to Methanolplant using CO2 from BioEthanol plant in two steps:
'Stage 1 Methanol Capacity 8.5 kt/a
Stage 2 Methanol Capacity 51 kT/a
2022Project developer, Kenya10 MW Power-to-Methanol
Max. annual MeOH output: 8,000 t IMPCA
Fully functional 10 MW PV-Offgrid Methanol plant using geologic sulphur rich CO2
2023Direct Air Capture, Spain/SwedenPower-to-Methanol
Max. annual MeOH output: 224,000 t IMPCA
Feasibility study for a 450 MW offgrid installation in comparison to a 300 MW Gridconnectet set-up
- incl. Simulation Production cost optimized setup based on power supply profile
- Units: Water Electrolyzer, Methanol Synthesis and distillation, Methanol storage and loading, logistics
2024Project developer, Angola250 MW Power-to-Methanol
Max. annual MeOH output: 200,000 t IMPCA
MOU project development, engineering and FlexMethanol skids delivery signed
2021Utility company, Germany20 MW Power-to-Methanol
Max. annual MeOH output: 16,000 t IMPCA
Pre-Feasibility Study with use of CO2 from biomass CHP
2014Ethanol, Germany50 MW Power-to-Methanol
Max. annual MeOH output: 40,000 t IMPCA
Feasibility Study
- Units: Water Electrolyzer, Methanol Synthesis and distillation, Methanol storage and loading
Achievement: Biomethanol production via electrolyzer feasible by EU Framework FQD and RED 2014
2024Recycling, GermanySyngas-to-Methanol
Max. annual MeOH capacity: 30,000 t
Pre-Feasibility study to produce 3.5 t/h Methanol from syngas
- Units: Synthesis, Distillation, PSA
2021Power plant, Germany100 MW Power-to-Methanol
Max. annual MeOH output: 80,000 t IMPCA
Grid connect Methanol concept with use of CO2 from cement mill
2020Chemical park, Turkmenistan20 MW Power-to-Methanol
Max. annual MeOH output: 16,000 t IMPCA
Pre-Feasibility Study
- Units: Water Electrolyzer, Methanol Synthesis and distillation
2021Chemical, The Netherlands10 MW Power-to-Methanol
Max. annual MeOH output: 8,000 t IMPCA
Pre-Feasibility Study
- Units: Water Electrolyzer, Methanol Synthesis and distillation
2019Utility company, Sweden/GermanyPower-to-MethanolBusiness Development / Feasibility Study with site comparison
2018Project developer, DenmarkGreen house gas savings from combined biogas/methanol processPre-Feasibility study incl. Green house gas savings from combined biogas/methanol process
2017Development agency/refinery, Germany16 MW Power-to-Methanol
Max. annual MeOH output: 12,500 t IMPCA
-Feasibility Study power-based Methanol production from wind power and integration into a refinery
- Units: CO2 Capture, Water Electrolyzer, Methanol Synthesis and distillation
2017Ethanol, Germany/The Netherlands/PolandPower-to-Methanol
Max. annual MeOH output: 32,000 t
Feasibility Study and site comparison power-based Methanol production
2016Waste incineration, Germany10 MW Power-to-Methanol
Max. annual MeOH output: 8,000 t IMPCA
- Feasibility Study power-based Methanol production from own generator and integration into a waste to energy plant
- Units: CO2 Capture, Water Electrolyzer, Methanol Synthesis and distillation
2016Waste incineration, GermanyPower-to-Methanol
Max. annual MeOH output: 8,000 t IMPCA
- Pre-Feasibility Study power-based Methanol production from own generator and integration into a waste to energy plant
- Units: CO2 Capture, Water Electrolyzer, Methanol Synthesis and distillation
2016Waste incineration, GermanyPower-to-MethanolPre-Feasibility study Power supply concept, plant requirements by Market, normative framework
2016Gas, SlovakiaSyngas/power-to-Methanol Max. annual MeOH output: 3,500 t- Technical Concept large scale energy storage via methanol production at NG field
- Units: Reformer, Water Electrolyzer, Methanol Synthesis and distillation
2022Cement, Germany260 MW Power-to-Methanol
Max. annual MeOH output: 208,000 t IMPCA
- Pre-Feasibility Study power-based Methanol production from CO2 via pipe, incl. Outlook hydrocarbon demand by sectors
- Units: CO2 Capture, Water Electrolyzer, Methanol Synthesis and distillation
2022Utility company, UkrainePower-to-MethanolPre-Feasibility study business opportunities E-Methanol by renewable power supply, markets, normative framework and applications
2022Cement, globallyUse of non-substitutable CO2Pre-Feasibility Study incl. Outlook CO2 demand and availability by sectors
2024Project developer, Uruguay140 MW Power-to-Methanol
Max. annual MeOH output: 112,000 t IMPCA
- Feasibility Study Green-field power-based Methanol plant
- Units: Methanol Synthesis and distillation
2024Argra-Processing, Brasil200 MW Power-to-Methanol
Max. annual MeOH output: 160,000 t IMPCA
- Feasibility Study Green-field power-based Methanol plant
- Units: Electrolyzer, Methanol Synthesis and distillation

PRODUCT R&D

PRODUCT R&D

START TIMELINEINDUSTRY, REGIONCONCEPT & CAPACITYPROJECT DESCRIPTION
2015 - 2017Industry-Research consortium, GermanyLab tests
0.2 l/min synthesis gas
- within this project, all market-available conventional methanol catalysts have been tested under CO2/H2 feed as well as dynamic conditions in laboratory test bench
- single-tube reactor / 1 g catalyst
Achievement: '- BASF catalyst shows outstanding performance and stability for CO2-based methanol production under flexible conditions
- BASF catalyst comply with needs of dynamic energy market operation mode
- Achievement in 2017: signing of joint development agreement between BASF and BSE for small-scale, delocalised methanol production using custom-made BASF catalyst (press release: https://catalysts.basf.com/news/basf-and-bse-engineering-sign-development-agreement-to-transform-co2-and-excess-current-into-methanol)
2017Industry consortium, GermanyCatalyst and Process development- Joint development agreement between the Partners
- Achievment: Completion of Power-to-Methanol process and catalyst
2020 - 2022Industry consortium, Germany1.0 and 2.0 t/h IMPCA methanolDevelopment of standarized Skid mountend Synthesis units
2021Chemical Market Analyst Process Economics Program (PEP) PEP Report 43G
Reduced Carbon Intensity and Renewable Methanol
Production
- Achievement: Recognised Process Provider bse/BASF
- https://cdn.ihsmarkit.com/www/pdf/0122/RP43G_toc.pdf
2022JDA signed to develop the synergies between the Electrolyser and Methanol synthesis
Achievement: No hydrogen compressor needed and done redundancy review saves capital costs
2015Chemical, GermanyBiofuel vs. Power-to-X- Technology and Product benchmarking renewable fuels

ENGINEERING

ENGINEERING

START TIMELINEINDUSTRY, REGIONCONCEPT & CAPACITYPROJECT DESCRIPTION
2021Project developer, Spain30 MW Power-to-Methanol
Max. annual MeOH output: 24,000 t IMPCA
-Pre-basic Engineering 30 MW solar power to Methanol
- Balance of the Plant under integration of the power supply concept
Achiement: start permitting in Spainish projects
2021Utility company, Denmark40 MW Power-to-Methanol
Max. annual MeOH output: 32,000 t IMPCA
-Pre-Basic Engineering of 2x FlexMethanol 20 including units Aker's Carbon capture, Water Electrolyzer, Methanol Synthesis and distillation, Methanol storage and loading
- Balance of the Plant
2021Chemical, Germany20 MW Power-to-Methanol
Max. annual MeOH output: 16,000 t Grade AA
-Prebasic Engineering FlexMethanol 20 synthesis and distillation
- technical due dilligence by Wacker
2020
Industrial consortium of Harbor, Utility, chemical, methanol logistics, Gas TSO and waste incineration, Belgium10 MW Power-to-Methanol
Max. annual MeOH output: 8,000 t IMPCA
- Pre-Basic Engineering and Basic Engineering finalized for the production of 1 t/h IMPCA methanol from electrolysis H2 and liquid CO2
- decision for BSE as process provider for dynamic methanol synthesis
- ISBL: Methanol Synthesis, Methanol Distillation, Storage Tanks, Waste Gas Treatment/RTO
- assistance to permitting, which was granted in May 2022
Achievement:
- FID cancelled due to non-finalized EU Delegated Acts on Renewable Fuels of Non-Biological Origin to sign Offtake contract
- bse has signed MOU for for future Projects
2021Waste incineration, Germany20 MW Power-to-Methanol
Max. annual MeOH output: 16,000 t IMPCA
-Pre-Basic Engineering 20 MW FlexMethanol skid including units Water Electrolyzer, Methanol Synthesis and distillation
- technical due dilligence by Client
2023Waste incineration, Germany20 MW Power-to-Methanol
Max. annual MeOH output: 16,000 t IMPCA
-Pre-Basic Engineering 20 MW FlexMethanol skid Carbon capture and methanol plant integration
- technical due dilligence by Client
2021 OngoingIndustry-Research consortium, Germany10 MW Power-to-Methanol
Max. annual MeOH output: 8,000 t IMPCA
Basic engineering for a 10 MW Power to Methanol plant in the Chemistry Park Höchst.
2022-ongoingTunesiaPower-to-Methanol
Max. annual MeOH output: 100,000 t IMPCA
Project development and Basic engineering for an Off Grid PV/CSP Methanol plant in Tunesia
2024Bioenergy, Spain40 MW Power-to-Methanol
Max. annual MeOH output: 32,000 t IMPCA
MOU engineering and FlexMethanol skids delivery signed
2024Project developer, Nigeria440 MW Power-to-Methanol
Max. annual MeOH output: 352,000 t IMPCA
MOU engineering and FlexMethanol skids delivery signed
2023Ethanol, GermanyPower-to-Methanol
Max. annual MeOH output: 8,5000 t IMPCA
Update Feasibility Study MBS Anklam & Pre-Engineering