ghamsa,
Optimum tower performance is time dependent as energy and feedstock costs as well as product revenues move as a function of supply and demand. Most distillation columns built into the mid 80's were based on "ROT" (rule of thumb) -- Cheap energy drove most designs, while steel was viewed as expensive. Widespread use of computer programs allowed designers to move toward more "cost effective" designs with less design error allowances. Smaller diameters = less cost.
SO, increased throughput depends on a couple of factors.
1. Date of design of column.
2. Product purity. Can the targets be relaxed so a reduction in boilup/feed can be achieved.
3. Tower pressure. Does the relative volitility of the key components increase with decreasing pressure? If so, careful reduction in tower pressure can achieve higher throughputs. This is dependent on overhead condenser capacity and the rate at which pressure is lowered. Reflux rates must be cut concurrently or tower flooding can result. See Shinsky for a discussion on tower operating envelopes.
4. Optimization of feed temperature and quality can debottleneck a rectifying or stripping section. Rarely are both balanced.
5. How good is your control system?
6. Can the feedrate to the tower be reduced? Don't be myopic in debottlenecking. Lean oil systems and saturated gas plants can develop nasty external recycle rates.
7. Check out your pressure drop instrumentaion installation. Do the taps come off the tower directly or a overhead or reboiler outlet vapor line? Are the taps self draining?
Enough to keep you busy for a couple of weeks.
Good luck, If you want to discuss 713-374-7974.
Steve
