 |
|
Need Help? or Have something for sale? Use this:
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Enter a product number or part of its description below...
Finally, you may filter the results based on capacity below
| 1 Items Returned | Go To Page: | 1 |
|
| | | Stock Number | Product | Sub Group | Capacity | Description |
|
|
| 705865 | PLANT | NITROGEN | | 200 Nm3/hr Nitrogen plant, capacity based on dry gas @ 15 deg C and atmosheric pressure, discharge pressure 12 barg (eff), dewpoint -50 deg C after expansion to atmosherical pressure, steam capacity 640 kg/hr based on a boiler supply water temp of 100 deg C, discharge pressure 12 barg (nitrogen), 14 barg (steam), temperature approx 12 deg C (nitrogen) above water inlet temperature, approx 190 deg C (steam),
Supply data:
44 cu.m/hr of natural gas, inlet pressure 120 mbar @ ambient, approx 380 cu.m/hr ambient air, 10 cu.m/hr of cooling water, 640 kg/hr of boiler water supply,
Main items include;
1 x 1000 kg/hr Danstoker boiler, gas fired, type DHA, serial # 108109, 657 kw, 2400 ltr, 16.3 bar, ultramizing combustion burner, type GST200-12FGCS, serial # 088054,
2 x 390 ltr, c/steel recievers, manufactured by Flensburg, type Sabair 400-KS, max pressure 16 bar @ 60 deg C, serial # 6836 and # 6837, 400mm diameter x 3.1m straight side, mounted on c/steel frame with filters and valves,
1 x c/steel reciever, manufactured by Kemp Pijnacker R.V, model AFBL-24, 600mm x 2.4m straight side, design pressure 0.0 bar @ 50 deg C,
1 x hot water tank.
General working principle:
inert gas is produced by Stoichiometric combustion of fuel gas with air, the fuel is a hydrocarbon and the air a mixture of mainly 79% nitrogen and 21% of oxygen,
the combustion is a chemical reaction between the hydrocarbon and oxygen, giving mainly nitrogen, carbon-dioxide and water, some little rest quantities of oxygen, carbon-monoxide and hydrogen also remain, the notrogen leaves the generator unchanged,
the water is drained for the main part by condensation, so the inert gas produced mainly consists of 85% nitrogen and 15% carbon-dioxide,
in the combustion chamber the combustion gases dissipate their heat to the chamber walls, the chamber walls radiate and conduct their heat to the generator body which contains a water jacket,
the main cooling of the gases occurs thereafter in the main cooler where the gas is indirectly cooled by cooling water, as the combustion air is supplied by a fan it will cause a slight overpressure before the compressor,
in the main cooler the gas temperature drops to a few degrees above the cooling water inlet temp, the condensate is separated in the cooler and in the knock-out drum,
the required end pressure of the plant is achieved by a piston compressor, situated downstream the combustion chamber,
after compression, the gas is cooled by an after-cooler, the bulk of water present in the gas is now condensated and drained,
final drying takes place in a desiccant dryer by absorption and at the same time the carbon dioxide is removed from the inert gas so pure nitrogen is obtained,
the dryer is of the two-chamber system and is regenerated in a heatless way. |
|
|
|
|
|
|
|