SMIPL Management system is certified with ISO 9001-2015 ,ISO 14001-2015 ,OHSAS 18001–2007,CE MARKING,PED 2014/68/EU SEP Article 4 Para 3,NSIC,D&D MSME,Approved
I am designing condensate pot for vertical thermosyphon reboiler. Steam is coming to reboiler at 3.6 kg/cm2g & condensing inside the reboiler. In reboiler, I am ensuring that outlet nozzle will always be liquid flood so that steam will not come out & I utilized it fully. To control the reboiler duty, I have control valve downstream of condensate pot. I calculate the volume of condensat pot based on turndown steam flowrate as this is the case when my condensate pot will be used mainly for buildup level in reboiler & will fill with condensat. My main concern is relative elevation of condensate pot with reboiler. I calculated this elevation difference between reboiler & pot by calculating pressure drop appyling bernouli's equation. I calculated the pressure drop as sum of that can occur at outlet nozzle of reboiler and pipe from nozzle to condensate pot nozzle at condensate flowrate corresponding to design flowrate of steam. I have done this design based on attached paper "Reboilers & Condensers operating
Technical Specification
Specification
Material Of Construction | Pipe Size & Schedule | Thread Size & Connection |
SS 304 | 2’’ SCH 40 | 1/2’’ NPT |
SS 316 | 2’’ SCH 80 | 1/2’’ BSP |
SS 316L | 2’’ SCH 160 | SOCKET WELD |
CARBON STEEL | 3’’ SCH 40 | |
3’’ SCH 80 | ||
3’’ SCH 160 | ||
4’’ SCH 40 | ||
4’’ SCH 80 | ||
4’’ SCH 160 | ||
6’’ SCH 40 | ||
6’’ SCH 80 | ||
6’’ SCH 160 |