Xeno,
You are correct in that most, if not all, manufactureres are "economical" regarding the information of pipe conditions. I used to be in the Clamp on ultrasonic industry and that is one which is totally contingent upon the pipe conditions. Regarding the insertion mass vortex, there is simply no "easy" way to simulate customers pipe conditions. It is a point velocity device, in which the vortex sensor measures the fluid velocity in feet per second. The electronics will multiply this Feet Per Second by the square foot area of the pipe ID. (Pipe ID is entered by the user, the meter calcuates the area), resulting in cubic feet per second.
The meter actively measures real time temperature and pressure at the same point the velocity is measured and uses equations to calculate the density of the fluid. In the case of steam, it is not a simple steam table look up, but an true calculation, using the same equations that the steam table uses, but here it has real time data rather than assumed table values.
I read your earlier post, mentioning staked transmitters and flow computers. This is an accepted procedure, however depending on the actual applicaiton, can be very expensive, resulting in double the equipment to make a measurement.
The single biggest issue that the insertion mass vortex meter faces today is the pipe sizes are typically larger than necessary, in order to reduce as much pressure loss as possible. This results in somewhat lower velocities during steam usage cycles.
In the intial post, a 36" saturated steam line, assuming 125 PSIG steam will allow an insertion mass vortex meter a measurable range of 65,000 to 2.1 Million pounds per hour. Should the pressure be 200 PSIG, the range becomes 80,000 to 3.28 Million pounds per hour.
These are wide turndown ranges, but if the actual application is only running at 1 Million pounds per hour, then your are subject to the max application flow compared to the minimum meter measurable flow....
This unit allows the user to read, disply and transmitt compensated steam flow, temperature, & pressure simultaneously. Additionally, it will totalize the flow and transmitt a pulse for a remote counter as well...
I know by now, this post seems extremely biased, but there simply is no other product on the market that accomplishes all these feats. In order to get all this flow information, as you have mentioned, will require 4 devices, flow, temp, pressure and the flow computer to calcualte the compensated flow rate...you must account for the inaccuracy of each of these devices when looking at overall steam flow accuracy as well.
Insertion Annubars are fine, but they plug up.
V-Cones are an excellent choice when straight run is limited, however, this is still a DP measurement and subject to the turndown of that technology, not to mention it's still a volumetric measurement and requires additonal instrumentation for T & P conpenstation.
Calibrated meter runs / orifice runs are also an excellent device, but they are also limited to turndown and as was mentioned here, the technology has been overdone...you said it yourself, "Last years text books are already out of date. Those of ten years ago are simply no longer relevent"
The downside of vortex is the low flow issues, since the fluid must be traveling at a velocity sufficient enough to generate vortices....
Regards
