Phoenix Enerji is a membrane supplier, engineering and contracting company. Phoenix membranes can separate 99% pure hydrogen from any gas.
Our main focuses are reducing carbon emissions with our patented membranes, lowering energy costs, producing hydrogen and hydrogen related products.
The Sustainable Development Goals (SDGs) were adopted by the United Nations in 2015 as a universal call to action to end poverty, protect the planet, and ensure that by 2030 all people enjoy peace and prosperity.
The 17 SDGs are integrated they recognize that action in one area will affect outcomes in others, and that development must balance social, economic and environmental sustainability.
Countries and companies that are showing commitment to those goals will be drivers for innovation and inclusive economic growth.
At Phoenix, we are proud in our efforts to support the UNs agenda.
Phoenix Enerji is determined to provide the most advanced technology in hydrogen production with most feasible investment costs
Phoenix patented membranes can separate hydrogen fro any gas, and operating expenses are lower than competitors
This is the best solution for obtaining available hydrogen
MA in Ege University, PhD in Bilgi University, Perfusionist. Previous posts in Alarko Carrier, Ford Otosan, and ECN
BA in Sabancı University, MA in Bilgi University, Economist. Previous posts in Garanti BBVA. Current Partner of SAS Grup, Troy Oil, and Mymanu
BA in Maltepe University, Legal, MA in Bilgi University. Founder of Ozturk Gunel Sumer Law Office, and Lima Ventures
BA in Bilgi University, Sociologist.
PHOENIX systems are manufactured in the factory located in Thrace, Northwest part of Turkiye, with 24.000sqm open area and 10.000sqm closed area. The factory includes a modern and efficient laboratory, equipped for the execution of accurate thermal tests, and can claim important collaborations with research societies and academicians.
The factory is certified according to EN ISO
9001:2008 and EN ISO 3834.
All our products are certified by CE, ATEX,
and ISO.
ALLOY
Separator Productivity by Alloy Material
REFORMING
01 - Output Flux by Thickness Ideal Palladium Alloy
02 - Output Purity by Pressure Ideal Palladium Alloy
The Maintenance period of the membrane is 4574 hours by simulating the flue acid at 450mg/cbm dust level in laboratory work.
As the dust level decreases to 150mg/cbm, the maintenance period extends to 8200 hours.
Hydrogen Permeable Pores, before and after passing maintenance time
New Tech Electrolysis
Obtaining Hydrogen from Chimney Gases
Obtaining Hydrogen from Coal
Hydrogen Production from Biogas
Hydrogen Production from Chemical Reaction
EV Charger Solutions by Using Hydrogen
PHOENIX ALER
New Tech Electrolysis
Phoenix integrated its patented HHO AEM Membrane system in electrolysis, replacing standard PEM Proton Exchange Membranes).
There is used to be high loss of H+ protons which
cannot pass through PEM and inevitably resulting forming of water and decrease hydrogen production.
Phoenix Aler electrolysis have higher hydrogen production rate because of replacing PEM.
Phoenix Aler membranes allows major energy saving because the membranes do not need compression for operational pressure. Whereas all PEM electrolysis are working under 30 bar pressure, Phoenix Aler works at 1.3 bar.
Another strong point of Phoenix Aler is it does not require any water purification system; while all PEM electrolysis require Reverse Osmosis unit.
Phoenix Aler is already available on the market Images from Phoenix Aler 300 Ncbm/h Electrolysis
PHOENIX COGEN
Obtaining Hydrogen from Chimney Gases
Plants with high energy consumption, such as power plants (coal, natural gas, biomass), cement plants, iron & steel plants, plastic plants, ceramic plants, they all generate a high amount of CO (carbon monoxide) which is then released from chimneys directly to the air.
Phoenix Cogen can be integrated to existing exhaust systems of plants. Phoenix Membrane inside Phoenix Cogen separates hydrogen at 99.98% purity.
During this process for each 1kg hydrogen roduction, 14kg of CO is converted to less toxic CO2.
Methane reforming is also possible for low CO systems with the reaction formula; CH4 +H2O ➔ CO + 3H2 and then CO is re processed as CO + H2O ➔ CO2 +H2 CO2 as
Methane reforming is also possible for low CO systems with the reaction formula; CH4 +H2O ➔ CO + 3H2 and then CO is re processed as CO + H2O ➔ CO2 +H2 CO2 as
CO2 as the by product of the reaction is forwarded back to the chimney or can be used as feedstock for methanol production or other purposes after purification.
CO+H₂O => CO₂+H₂
Ford Escort RS Combustion Chamber Water Spray System
BMW M4 GTS Combustion Chamber Water Spray System
Combustion Chamber Water Spray System in Jet Engines
The reaction is currently in use in some engines for power increase
In this case, 1250 tons of hydrogen can be produced from the flue gas of the cement plant, this is quivalent to 42.5 million kcal per year. Meanwhile, CO emission is reduced by 96%.
PHOENIX COGEN
Obtaining Hydrogen from Coal
Phoenix Cogen is designed to work in flue gases. Researches show that applying Phoenix Cogen to the chimney of a coal burner results in increasing burning efficiency. The system works with obtaining hydrogen from the flue gas, and then injecting it back to the burner.
During this process for each 1kg hydrogen production, 14kg of CO is converted to less toxic CO2.
Images of Phoenix Cogen The pilot plant inside an industrial zone for obtaining hydrogen from coal
PHOENIX BIOGAS
Hydrogen Production from Biogas
How Does Phoenix Membrane Work in Biogas?
Phoenix membranes can be used in converting biogas to hydrogen; which will increase the efficiency of burning.
In this case, 2000 Ncbm biogas together with water is applied to Phoenix membrane and the output is 3678 Ncbm hydrogen; which is equivalent to 2410 Ncbm biogas.
PHOENIX KİMYASAL
Kimyasal Reaksiyon İle Hidrojen Üretimi
Aluminium scrap is burned in chemical reactors in producing water purification chemicals. As a by product, hydrogen is released into the air. Phoenix membranes can be implemented to the chimney and hold the released hydrogen.
Export focused companies and industries will be effected with the starting of Carbon Border Adjustment Mechanism in 2026. This mechanism is set to increase competitiveness of products produced with low carbon emission against high carbon emission.
Phoenix membranes with its low investment costs and low operating expenses can be a game
changer for export focused companies. Especially companies in aluminium and chemical production can enjoy the benefit of using scrap aluminium as the input and water purification chemicals as the output. During this chemical reaction high amount of hydrogen is released intothe air and can be
collected by Phoenix membranes. This collected hydrogen is then used in burners of aluminium producers.
PHOENIX EV CHARGER
EV Charger Solutions by Using Hydrogen
Phoenix Aler electrolysis are the most efficient way of feeding EV charging stations. It is possible both from and off the grid.
From the grid option; Phoenix Aler electrolysis are fed by the electricity purchased from the grid especially if possible in the low price time intervals. Then the purchased electricity added with water and KOH are used to produce hydrogen. This produced hydrogen stored daily and used to feed hydrogen engines to generate electricity. Also, during the operation of Phoenix Aler, the heated water is passed through optional steam turbine for generating more electricity.
Off the grid option; Phoneix Aler electrolysis are supplied with electricity produced from renewable power plants. Instead of using low life time batteries, using Phoenix Aler is a better option for turning electricity into hydrogen and then converting back to electricity when the prices are higher during the day.
Free and Green EV Charger Whereever You Are
Offering upto 1.98MW electricity output per 1MW electricity input* *other inputs are water and potassium
The project is a compact containerized system to produce ammonia which can be integrated to Phoenix Cogen to continuously feed nitrogen and ydrogen to the Phoenix NH3GEN ™. The by product of the NH3GEN process is water and this will be used as the feedstock for Phoenix Cogen process to roduce hydrogen back which will make the whole process sustainable.
The project is a compact containerized system to produce methanol which can be integrated to Phoenix Cogen to continuously feed CO2 and hydrogen to the Phoenix METGEN ™. The by product of the METGEN process is water and this will be used as the feedstock for Phoenix Cogen process to produce hydrogen back which will make the whole process sustainable.
AWARDS OF PHOENIX & FOUNDER
Winner of the World Cities Congress
Winner of OIB Technology Award
One of Forbes 30 Under 30 List Winner
Winner of the Great Entreprenaur Games
Winner of the UK Technology Award
One of Fortune 40 Under 40 List
Finalist of Mercedes Benz Start-Up Program
Plaque at the Business World Magazine
Winner of Techxtile Start-Up Program
Featured in TRT Documentary