TiCl4
Chemical
- May 1, 2019
- 631
We have a new application that requires gross pH control (6.0-9.0 pH on product specification). We will be installing a 17,500 gal processing tank (Derakane 411) that will receiving waste acrylic polymer (<2% solids) and recovering it via ultrafiltration.
The waste stream is collected from wash-downs in the plant from all areas, and sometimes goes high in pH due to caustic spills/leaks or other issues (yes, I'm working to mitigate the effect from this). pH can also naturally be high from the amount of aqueous ammonia used in production or from the naturally higher (9-10) pH of some of our products.
I've chosen sulfuric acid for neutralization based on mostly on its relatively low cost. Based on data from a previous pilot run, small flows will be intermittently needed (1-2 gpm) for short periods of time. Additionally, the installation is expected to move in the next year due to a building relocation. My plan is as follows:
I plan to buy 50% sulfuric in IBCs and use those IBCs as the storage "tank" for the pH control. This is chosen to avoid having personnel handle the transfer of sulfuric from drums/IBCs to another storage tank. The sulfuric will be stored in a semi-climate controlled area - expect ambient temperatures to go from 40 F to 100 F. I plan to draw from the top of the IBC using an all plastic, air-driven diaphragm pump with air supply regulated to 20 psig. The pump will be mounted at a height greater than the IBC height. The air-exhaust will be fitted with a shroud that will, in the event of diaphragm failure, collect spraying acid. This shroud will be gravity returned to the IBC to avoid spills. The discharge piping material will be 1" Hastelloy C276, schd 80, with C276 stub-ends and CS 150# lap-joint flanges. The suction piping will be the same, but tubing will be used to draw the material from the tote (the pump is 1/4" inlet/outlet). I had planned to use PTFE tubing, but I think I remember from past experience that it doesn't have very good bite with ferrule connections. Any suggestions there? I had planned to use the flexible tubing to avoid having to break/remove piping every time an IBC is changed out.
I have also looked at various plastic pipes for chemical resistance (PVC-U, i.e. Trovidur), but my experience with this site is that plastic pipe will get broken or will leak at some point. C276 appears to be adequate based on the information provided by Haynes (link below), and I prefer the mechanical strength advantage, especially in pulsating service with a diaphragm pump.
Any thoughts/feedback on that plan? Any and all suggestions will be most welcome!
The waste stream is collected from wash-downs in the plant from all areas, and sometimes goes high in pH due to caustic spills/leaks or other issues (yes, I'm working to mitigate the effect from this). pH can also naturally be high from the amount of aqueous ammonia used in production or from the naturally higher (9-10) pH of some of our products.
I've chosen sulfuric acid for neutralization based on mostly on its relatively low cost. Based on data from a previous pilot run, small flows will be intermittently needed (1-2 gpm) for short periods of time. Additionally, the installation is expected to move in the next year due to a building relocation. My plan is as follows:
I plan to buy 50% sulfuric in IBCs and use those IBCs as the storage "tank" for the pH control. This is chosen to avoid having personnel handle the transfer of sulfuric from drums/IBCs to another storage tank. The sulfuric will be stored in a semi-climate controlled area - expect ambient temperatures to go from 40 F to 100 F. I plan to draw from the top of the IBC using an all plastic, air-driven diaphragm pump with air supply regulated to 20 psig. The pump will be mounted at a height greater than the IBC height. The air-exhaust will be fitted with a shroud that will, in the event of diaphragm failure, collect spraying acid. This shroud will be gravity returned to the IBC to avoid spills. The discharge piping material will be 1" Hastelloy C276, schd 80, with C276 stub-ends and CS 150# lap-joint flanges. The suction piping will be the same, but tubing will be used to draw the material from the tote (the pump is 1/4" inlet/outlet). I had planned to use PTFE tubing, but I think I remember from past experience that it doesn't have very good bite with ferrule connections. Any suggestions there? I had planned to use the flexible tubing to avoid having to break/remove piping every time an IBC is changed out.
I have also looked at various plastic pipes for chemical resistance (PVC-U, i.e. Trovidur), but my experience with this site is that plastic pipe will get broken or will leak at some point. C276 appears to be adequate based on the information provided by Haynes (link below), and I prefer the mechanical strength advantage, especially in pulsating service with a diaphragm pump.
Any thoughts/feedback on that plan? Any and all suggestions will be most welcome!
