Filter-Technics bvba
Adress Adrien Van Roeyenstraat 28 2070 Zwijndrecht, Belgium
Tel +32 32540567
Gsm +32 495577636
VAT BE 0448.510.578
Iban BE84 2200 9885 5059
Swift BIC GEBA BE BB
E-mail info@filter-technics.be
www www.filter-technics.be
Mixed Firing and Exclusive Firing
Generates electricity by burning :
⌳Hydrogen and other fuels
⌳or pure hydrogen
H Contributes to carbon recycling by synthesizing 2 "H ” with "CO " emitted from factories. Eventually 2 2 reusing CH as energy such as City Gas or reuse in 4 production processes such as plastic materials.
* Explaining concepts, not exact chemical reaction equations.
Compared to the Conventional Method (CO Reduction) by using not only coke but also H2 as a reductant H Achieves a better Fe O 2 2 3 reduction creating a drastic reduction in CO2 emmision
Today's transportation sector depends almost entirely on fossil fuels and creates more than 20 percent of all CO2 emissions. Hydrogenpowered vehicles, with their high performance and the convenience offered by fast refueling times, can complement battery electric vehicles to achieve a broad decarbonization of transport segments.
HYDROGEN FILTRATION & TREATEMENT SPECIALISTS
Modification/Refinement Biogas Production
Hydrogen produced from natural gas or methane reforming contain
· Carbon dioxide
· Carbon monoxide by-products
· Carbon Black Filtration systems designed for automatic operation due to the specialized construction of the filter media and the comprehensive design of the cleaning system are recommended thereby minimizing or eliminating maintenance costs.
Electrolysis
Hydrogen produced by electrolysis and renewables or as by-product include
· trace gasses
· water
· Particles in most cases we use Vertical or horizontal Coalescer filters with coalescer cartridges to separate the liquids.
To dry the Hydrogen we use Pressure swing adsorption. A PSA System works on the principle of preferential “adsorption” or adhesion of certain gas molecules onto a solid adsorbent material under pressure, and the reversible nature of the process to release the adsorbed molecules at low pressure.
Coalescer gas-liquid tailor made
Gas/liquid coalescing system, are designed to provide an adequate solution to the many problems of separation. The choice of coalescing filter type is a function of the presence of solids, liquids, and the efficiency of separation required.
Closures
Many types of quick opening closure, to facilitate the replacement of the filtering elements, can be applied to our coalescing filters :
▷ V opening type with single hand wheel/jaw
▷ Quick Opening compling with ASME standards.
▷ Bolded Closures
▷ In/out connections up to 24” (DN 600)
Cartridges coalescer filter
We provide different separation efficiency related to the installed cartridges:
Standard series
▷ Liquids 99.9% droplets≥0.3µm,
▷ residual liquids < 0.01 ppm
▷ Solids: 99.9% particles ≥ 0.3 µ
high efficiency series
▷ Liquids: 99.98% droplets ≥ 0.1 µm,
▷ residual liquid < 0.01 ppm
▷ Solids: 99.98% particles ≥ 0.1 µm
Design according to:
▷ ASME Sect. VIII Div. 1
▷ EN 13445
▷ VSR
Conform to
▷ 97/23/CE PED Directive
▷ 94/9/CE ATEX Directive
HYDROGEN FILTRATION & TREATEMENT SPECIALISTS H2
Suitable for filtration of both liquids and gas Gr.oup 1 and Group 2
- Design acc to: ASME Sect.VIII Div.1 EN 13445 VSR
- Conform to 97/23/CE PED Directive
- Conform to 94/9/CE ATEX Directive
- Available with U-Stamp certification
- Top cover closure:
ANSI or EN flanges
Swing bolts - eye bolts type
Swing bolts - Rathmann type
Quick opening closure yoke or band-lock
- In/out connections up to 24” (DN 600)
- Flow-rate up to 2400 m3/h
- Suitable for OD 68 mm filtering cartridges
- Suitable for cartridges DOE, cod. 3 8 & 9L
CONSTRUCTION Material Filter elements:
- 316L-SS, 310-SS
- Inconel 600, 625
- Hastelloy C276, C22, B, X
- Monel 400
- Titanium
- Other materials available
CONSTRUCTION MATERIALS BODY:
- Carbon steel
- 304 SS
- 316 SS
- Duplex SS
- Other materials available
GASKETS
- SPIRALWOUND
- KLINGERSIL
- SILICONE
- BUNA-N
- VITON
- PTFE
ACCESSORIES
- DIFFERENTIAL PRESSURE GAUGE
- DIFFERENTIAL PRESSURE SWITCH
- VENT VALVE
- DRAIN VALVE
- PRESSURE SAFETY VALVE
Hydrogen combustion boilers can tolerate a higher percentage of impurities than a vehicle using a fuel cell so Hydrogen gas comes in three different purity levels or grades
Pure gases are classified by grade.
Grade Min. purity Total impurities
N2.0 99% 1%
N3.0 99.9% 1000ppm
N4.0 99.99% 100vpm pure hydrogen
N5.0 99.999% 10vpm high pure hydrogen
N6.0 99.9999 1vpm ultrapure hydrogen with a purity
N7.0 99.99999% 100vpb
Applicable for all ISO 14687 fuel grades:
Grade A - for internal combustion engines,
Grade B - industrial fuel for power generation and heat generation
Grade C - aircraft and space-vehicle ground support systems
Grade D a,b - PEM fuel cell applications, for mobile and stationary appliances
Grade E 1,2,& 3 - hydrogen based fuels
Concentration conversion table
Percent Parts per million Parts per billion
1% 10,000ppm -
0.1% 1000ppm -
0.01% 100ppm -
0.001% 10ppm 10,000ppb
0.0001% 1 1000ppb - 0.1ppm 100ppb - 0.01ppm 10ppb
H 99,97% 2
Hydrogen is commonly transported and delivered as a liquid when high-volume transport is needed in the absence of pipelines. Gaseous hydrogen is liquefied by cooling it to below −253°C (−423°F). Once hydrogen is liquefied it can be stored at the liquefaction plant in large, insulated tanks. Combined with controlled storage inherently liquefaction produces ultrapure hydrogen, since the conversion of hydrogen gas to liquid hydrogen freezes out the impurities and they will be left behind.
Ultrapure hydrogen is critical to the operations of fuel cell vehicles and the next generation of hydrogen aircraft.
Nitrogen generators are indispensable assets in the hydrogen industry, contributing to various applications with precision and efficiency. Specifically designed for hydrogen environments, these generators produce high-purity nitrogen gas to meet the stringent requirements of diverse processes. Explore our selection of hydrogen-compatible nitrogen generators tailored for applications such as hydrogen production, storage, and purification. These generators play a vital role in creating an inert atmosphere, preventing unwanted reactions and ensuring the integrity of hydrogen-related processes.
Membrane Purification Systems
This technology is based on palladium-alloy membranes that are only selective to hydrogen that guarantees 99.97 % purity levels that can be fed to a fuel cell for mobility applications or electric power generation.
Ammonia Cracking System
Ammonia for example, leads to the creation of moles of different elements, hydrogen and nitrogen in this case. The ammonia to hydrogen and nitrogen reaction is then in equilibria. Integrating membranes within the reactor enables the selective separation of hydrogen moles, creating a shift in the equilibrium that push the conversion of the feedstock towards 100 %, thereby maximizing hydrogen recovery.
Amine-based carbon capture
One method of CO2 capture or removal is through absorption with solvent based solutions (for example, amines. Amine-based carbon capture is placed before the pressure swing adsorption stage in SMR or ATR as, during this stage, the adsorption material is irreversibly poisoned by hydrogen sulphide. After the sour gases are absorbed the “rich” amine is then regenerated through a desorber which strips the CO2 before the “lean” amine is looped back to the absorber. The stripped CO2 is compressed before storage.
We offers automatic bubbling backwashing system called “BBW system” by using sintered metal filter element which can be durable against high pressure for bubbling wash.
1. Very effective against sticky/gummy dirt
2. Applicable to finer filtration up to 2 μm
3. Compact/Simple economic design
Filter-Technics bvba Adrien. Van Roeyenstraat 28 2070 Zwijndrecht, Belgium info@filter-technics.be www.filter-technics.be
Tel +32 3 254 05 67
Fax +32 3 254 04 95 Gsm +32 495 577 636
Headquarters
Filter-Technik Slovakia s.r.o.
Peter Demian, Manager SK-010 08 Zilina, Slovakia
Tel +421 415650278 Mob +421 915048.757 info@filtertechnik.sk www.filtertechnik.sk
Filter-Technics CZ s.r.o. Ing. Vladimir Kurz, Manager Jihlava, Ceská republika
Tel +420 567 215 426 Gsm +420 720 551 996 info@filter-technics.cz www.filter-technics.cz
Filter-Technics Russia
Kirill Korostilenko, Manager Saint-petersburg, Russia Tel +7 812 363 2959 Mob1 +7 911 921 0235 kkorostilenko@filtechcom.ru www.filtechcom.ru
Filter-Technics Romania s.r.o.
Blondiaux Christophe, Manager Constansa, Romania Mob +40 724 734 842 info@filter-technics.ro www.filter-technics.ro
Filter-Technics Poland
Adnan MASOOD, Manager Wybickiego 36 16-300 Augustow Poland
Mob. BE +32 484 918 219
Mob.PL +48 579 074 617 Mob. LT +370 630 54 113 adnan@filter-technics.be www.filter-technics.be
