Design Service Life: | More Than 10 Year | Production Turndown Ratio: | 50% To 110% |
---|---|---|---|
Delivery: | Pre-fabricated Skid/modules | On-site Service: | Senior Engineers Available To Site; Field Supervision; Planned Drop By; Remote Video/email Support |
High Light: | industrial hydrogen generator,hydrogen generation plant |
Durable Hydrogen Production Plant, SMR Hydrogen Plant Easy Maintenance
Steam methane reforming (SMR) associated with the PSA purification technology is the most economical and environmental and robust process for the hydrogen generation worldwide. It dominates the hydrogen demand in worldwide.
The feedstock, kindly sort of light hydrocarbons, such as natural gas or LPG or naphtha, is desulphurized and mixed with steam and converted into the syngas in the presence of Ni-based [nickel] catalyst. Then, a heat recovery system [section] is used to recover high-quality heat from the syngas and generate the process steam. Subsequently, the cooled syngas is fed to a CO-shift converter where the CO reacts with the steam and is converted into the CO2 and extra hydrogen. The resulting gas is further cooled down to the ambient temperature, and then a PSA unit is used to purify the hydrogen to a desirable purity.
Please refer to the following diagram as the typical block schematic for SMR.
Features of SMR Plant
• Design for a long lifetime.
• High reliability.
• High quality and safety standard
• High operation automation
• Prefabrication in skid or modules [less than 1,000 Nm3/h]
• Easy maintenance and accessibility
Additional Features of SMR Plant
Extra burn system could be offered while outsource steam is unavailable.
Steam could be exported if required.
The scope of supply is flexible.
International standards and certificates could be applicable if required.
Performance of SMR Plant
S/N |
Name |
Index |
1 |
Feedstock |
Natural gas, LPG, naphtha, kind of light hydrocarbons |
2 |
Hydrogen Capacity |
50 to 50,000 Nm3/h |
3 |
Hydrogen Pressure |
7 to 30 bar |
4 |
Hydrogen Purity |
Typically 99.99 vol.%; up to 99.9999 vol.% |
Application of SMR plant
• On-site hydrogen supply
• Pharmaceuticals
• Chemicals
• Floating glass
• Milling
• Steel
• Polysilicon
• Hydrogen filling station
• Fuel cell integration