Difference between revisions of "Level and Flow"

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- There is no way to drain the system. Valves to drain the system should be included to allow one to remove/replace equipment without causing a spill.
 
- There is no way to drain the system. Valves to drain the system should be included to allow one to remove/replace equipment without causing a spill.
 
- Some of the pipe segments are too short. If the pipe segments are too short then it makes it difficult, and in some cases impossible, to fix leaks using plumbers tape.
 
  
 
- The pumps are different. Technically you shouldn't put different sized pumps in parallel although the pumps may have similar charachteristics even though they have different physical sizes.  
 
- The pumps are different. Technically you shouldn't put different sized pumps in parallel although the pumps may have similar charachteristics even though they have different physical sizes.  
  
- The pumps cannot be blocked in. At the time this comment was added the small pump was broken and alot of the head delivered by thew big pump was dicipated by recirulating flow through the small pump. The ideal solution is using check valves although this may be unecesarily expensive. Hand valves to block out a pump in the event of failure should be included.
+
- The pumps cannot be blocked in. At the time this comment was added the small pump was broken and alot of the head delivered by the big pump was dicipated by recirulating flow through the small pump. The ideal solution is using check valves although this may be unecesarily expensive. Hand valves to block out a pump in the event of failure should be included.

Revision as of 14:46, 2 September 2009

Introduction

This is the introduction to the level and flow rig wiki page.

Previous Projects

This section describes some of the previous projects that was done on the level and flow rig to give you an idea of what has been done and where you can find the results obtained. Most important data contained in this section is information about what models were used/developed (if you want to reuse models) and what control strategies were employed (if you want to compare your results to something specific).

Francois Pieterse, 2009

Control Strategy: Model Predictive Control making use of ranged control algorithm to minimise MV move effort and optimiser to determine economic operating point.

Model Identification: Manual step testing. Identified models with Honeywell Profit Design Studio.

Models: Linear. Transfer function Matrix. Low Quality.


Rig Problems

As with any design, there are a couple of fundamental problems with the design of the level and flow rig. This section is used to document these problems that, should the need to ever rebuild the rig arise, the persons responsible can have a complete list of all the pitfalls of the previous design so that they can attempt to correct them.

- There is no way to drain the system. Valves to drain the system should be included to allow one to remove/replace equipment without causing a spill.

- The pumps are different. Technically you shouldn't put different sized pumps in parallel although the pumps may have similar charachteristics even though they have different physical sizes.

- The pumps cannot be blocked in. At the time this comment was added the small pump was broken and alot of the head delivered by the big pump was dicipated by recirulating flow through the small pump. The ideal solution is using check valves although this may be unecesarily expensive. Hand valves to block out a pump in the event of failure should be included.