We provide a reliable hydrogen recovery solution that delivers long term value. We achieve this through exceptional product design, and our system can be operated at low temperature and normal pressure, which is unmatched in our industry.
Toplus Energy develop a system to purify polluted hydrogen and recovery it, reducing waste of hydrogen and increasing its cycle life. It’s designed primarily for hydrogen carrier gas use, applied to metal heat treatment, gas chromatography (GC), analytical instrument carrier gas, GaN epitaxy, III/V and II/VI MOCVD.
It offers a safe, reliable and convenient solution for those using hydrogen for carrier gas, producing the high purity of hydrogen by utilizing a Proton Exchange Membrane (PEM) to create the hydrogen gas, as well as Pressure Swing Absorption (PSA).
Output
Input
Gas Requirement
NH3 < 0.5 ppm
CO < 1 ppm
H2S < 1 ppb
Pressure of H2 > 30%
Power
3 Phase 5 wire , 380V (60Hz) &
1 Phase 2 wire, 220V (60Hz)
55A [Max. 85A] (60 Hz) &
5A [Max. 15A] (60 Hz)
Approx.
Weight
Dimensions
(L X W X H)
Pure H2
Output Pressure[Absolute]
/Connection
1.4 Mpa / 1/2" VCR
Exhaust Pressure[Absolute]
1 Mpa / 2" flange
Mix gas
Input Pressure[Absolute]
0.100 Mpa / 2" flange
N2
Drain
Water
R.O.
Pressure [Gauge]
Supply: Max. 0.4 MPa;
Differential Press. : Min. 0.15 MPa
PCW
Lower cost than Palladium membrane and PSA method.
99.9995% purity for hydrogen, every impurity is removed and only hydrogen ions pass through to the pure side.
Lifetime is more than 40,000 hours.
Different modules according to customer.
Water-cooled fuel cell is more suitable for application, short and easy start-up and shutdown procedures.
PEM technology to generate hydrogen safely and reliably. Toplus Energy R&D team design, manufacture and cooperate with domestic components.
Passed many patent applications on a national and international.
We designed, produced and manufactured the stacks, and can be customized according to customer requirements.
The whole process of normal pressure operation, no need to consider the problem of high pressure operation.