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<br />G~HJ:..l~ <br /> <br />RSS Concepts and Methodology <br /> <br />10. Now Node 6 can solve its mass balance equation to determine the value 01 <br />its inflow based on the outflow sent from Node 7. It is therefore placed on the <br />object activation queue. Node 6 solves its mass balance operations to deter- <br />trine its inflow.The inflow from node 6 is placed in the appropriate diversion <br />slot of Node 4. II is then removed from the queue. <br /> <br />,wUJ?olve 'i <br />r." I.(;/f' U IJ) ft"..,-t' <br />~ \'11.1,0 <br /> <br />Node~ <br />II <br />/Node 6 <br /> <br />Node? <br /> <br />11. Node 5. having its outflow from Node 7. is placed on the object activation <br />queue. It solves the mass balance equation and sends its inflow to the out- <br />flow slot 01 Node 4. Node 5 is then removed from the object activation queue. <br /> <br />/ _..~ cW" <br />SOOt'> flU" '> (.' , <br />'ef\ . blt. ) <br />I)-~;#' ..r~ ~ <br />vJb?rM' <br /> <br />Node 4 <br /> <br />ut <br /> <br />Node~ <br />Node 7 <br /> <br />ul C,D\J- <br />~ ctJf'M 3 <br />.b" i1'tlvulf1~ <br /> <br />12. Node 4 is placed on the top of the queue. and hence performs its mass bal- <br />ance for its inflow value using its outflow from Node 5 and diversions from <br />Node 6. This value is sent to the respective outflow data slots of Node 3. <br />Node 3 ~n now solve its mass balance equation and is therefore placed on <br />the object activation queue. Node 4 is now removed from the queue. <br /> <br />~~ .1d\ <br />J;:) ,pi\' ef'J ' S <br /> <br />Node 3 <br /> <br />~ <br />jNode" <br />Node 5 Node 6 <br /> <br />13_ Since Node 3 is on the top of the queue. it performs its mass balance lor <br />ending storage. The calculated ending storage is compared to the live <br />capacity. If the ending storage is less than the Uve capadty of Node 3. the <br />simulation for this time step can terminate. Node 3 is removed from the <br /> <br />RSS Concepts and Methodology <br /> <br />17 <br />