West Valley Nuclear Services Company, Inc., will construct and operate facilities to vitrify two tanks of liquid radioactive waste stored at West Valley, New York. A statistical quality control program for the analytical laboratory and a characterization test of the actual sampling system is recommended. On the basis of the statistical data analysis, it was found that (1) a homogeneous slurry is produced in the melter feed tank, (2) the liquid-sampling system provides slurry samples that are statistically different from the slurry in the tank, and (3) analytical measurements are the major source of variability. To investigate the mixing properties of the melter feed preparation system at West Valley, a statistically designed experiment was conducted using synthetic melter feed slurry more » over a range of concentrations. Maintaining the quality of the glass product and proficient melter operation depends on the ability of the melter feed system to produce and maintain a homogeneous mixture of waste and glass-former materials. The vitrification process involves mixing the high-level wastes with glass-forming chemicals and feeding the resulting slurry to a liquid-fed ceramic melter. The present plan for disposal of high-level wastes at West Valley is to vitrify the wastes for disposal in deep geologic repository. The program is flexible enough, however, to simulate any slurry-fed ceramic melter system. MASBAL was developed specifically to simulate the operation of the West Valley Component Test system, a commercial-scale ceramic melter system that will process high-level nuclear wastes currently stored in underground tanks at the site of the Western New York Nuclear Services Center (near West Valley, New York). These three capabilities are important to nuclear waste glass producers because there are constraints on the range of compositions that can be processed in a ceramic melter and on the range of compositions that will be acceptable for disposal in a geologic repository. MASBAL's objectives are to predict the composition of nuclear waste glass produced by a slurry-fed ceramic melter based on a knowledge of process conditions to generate simulated data that can be used to estimate the uncertainty in the predicted glass composition as a function of process uncertainties and to generate simulated data that can be used to provide a measure of the inherent variability in the glass composition as a function of the inherent variability in the feed composition.
Now let’s enter this path into our MSG Instruction.This report is a user's manual for the MASBAL computer program. Each of the green arrows represent a step in building the path to the target processor. The path will be “1, 3, 2, 192.168.0.6, 1, 0” Go through those steps a few more times until you are comfortable and understand how we got this path. To enter the processor from the backplane (Step “B”), specify “0” for the processor slot #.Now that we are on the ENBT module, back on Step “A”, specify “1” to get to the backplane.Back on Step “B”, we will be going into the ENBT on the target chassis, so specify the IP of the target module, “192.168.0.6”.We are on the ENBT module now, and back on Step “A”, so we specify “2” to come out the front port.We specify “3” because that is the Slot # of our ENBT module. Now that we are on the backplane, look at Step “B”.We must specify “1” to get to the backplane. From the Initiating L71 processor, look at Step “A”.When we build the path, we MUST go from Step A to Step B, then repeat the process until we are at the target. FactoryTalk View SE Trends and Data Log.Beginning a FactoryTalk View SE Project.Derivative Settings for ControlLogix PID Enhanced.Integral Settings for ControlLogix PID Enhanced.Proportional Settings for ControlLogix PID Enhanced (PIDE).Proportional, Integral, Derivative (PID).