DAMS ARE AN IMPORTANT PART OF THIS NATION’S INFRASTRUCTURE. WHEN POPULATIONS AT RISK ARE LOCATED CLOSE TO A DAM, ITIS IMPORTANT TO ACCURATELY PREDICT THE BREACH OUTFLOW HYDROGRAPH AND ITS TIMING RELATIVE TO EVENTS IN THE FAILUREPROCESS THAT COULD TRIGGER THE START OF EVACUATION EFFORTS. SURGE WAVES RESULTING FROM DAM BREAKS HAVE BEENRESPONSIBLE FOR NUMEROUS LOSSES OF LIFE. SUDDEN RESERVOIR DRAWDOWN CAUSED BY PARTIAL BREACH OF A DAM CAN CREATEA SURGE WITHIN THE RESERVOIR. POSITIVE AND NEGATIVE SURGES ARE GENERALLY OBSERVED IN OPEN CHANNELS. POSITIVE SURGESTHAT OCCUR DUE TO TIDAL ORIGINS ARE REFERRED TO AS TIDAL BORES. A POSITIVE SURGE OCCURS WHEN A SUDDEN CHANGE IN FLOWLEADS TO AN INCREASE OF THE WATER DEPTH, WHILE A NEGATIVE SURGE OCCURS DUE TO A SUDDEN DECREASE IN WATER DEPTH. ANEGATIVE SURGE IS AN UNSTEADY FLOW CHARACTERISED BY A DECREASE IN WATER DEPTH. NEGATIVE SURGES CAN OCCURDOWNSTREAM OF A CONTROL STRUCTURE WHEN THE DISCHARGE IS REDUCED. THEY ALSO OCCUR UPSTREAM OF A CONTROL STRUCTURETHAT IS OPENED RAPIDLY OR THE FAILURE TIME IS VERY LOW. FOR A STATIONARY OBSERVER THE NEGATIVE SURGE APPEARS TO BE AGENTLE LOWERING OF THE FREE SURFACE. THE HEC-RAS MODEL BASED ON THE LINEARIZED IMPLICIT FINITE-DIFFERENCE MODELWHICH BASED ON THE DE ST. VENANT EQUATIONS. WHEN THE SURGE OCCURS, THE DE ST. VENANT DIFFERENTIAL EQUATIONSARE NOT VALID IN THE NEIGHBORHOOD OF THE SURGE. IN GENERAL, A NUMERICAL ANALYSIS OF UNSTEADY FLOW IN A RESERVOIR HASTO BE ABLE TO DEAL EITHER WITH ZONES OF SUPERCRITICAL AND SUBCRITICAL FLOW SEPARATED BY A DISCONTINUITY OR WITH FLOWSTHAT ARE ENTIRELY SUBCRITICAL. IN MOST CASES THE PARTIAL DIFFERENTIAL EQUATIONS CANNOT BE SOLVED BY ANALYTICALMETHODS, BUT THEY MAY BE SOLVED TO OBTAIN APPROXIMATE SOLUTIONS BY NUMERICAL METHODS. SO A MATHEMATICALMODEL WITH SPECIAL SURGE EQUATIONS IS INCORPORATED IN THE METHOD OF CHARACTERISTICS MODELS. THUS, THE MODELS CANDESCRIBE CLOSELY THE WAVE FORMATIONS IN THE RESERVOIR. THEY CAN ESTABLISH THE TIME AND PLACE OF SURGE GENERATION, AND THEY CAN TRACK THE SURGE WHETHER IT IS PROPAGATING UNDER SUBCRITICAL, SUPERCRITICAL, OR MIXED FLOW CONDITIONS. ITIS VERY IMPORTANT TO UNDERSTAND WAVE PROPAGATION IN A RESERVOIR CAUSED BY A DAM-BREAK. WHEN THE FAILURE TIME ISVERY LOW, SO A STEEP NEGATIVE WAVE MAY BE FORMED. IN THIS CASE WAS USED SOFTWARE FORTRAN 90 TO SOLVEAPPROXIMATE SOLUTIONS.ACCORDING TO THIS PAPER PROVIDES THE MATHEMATICAL AND ANALYTICAL METHODS AND NUMERICALMODEL USING HEC-RAS TO SIMULATE DAM BREAK FURTHERMORE IT USED TO PREDICT BREACH OUTFLOW HYDROGRAPHS.UNSTEADYFLOW MODELING IS OFTEN USED IN DAM BREACH ANALYSIS DUE TO THE NEED TO OBTAIN MORE DETAILED OR ACCURATE RESULTS.BREACH CHARACTERISTICS CAN BE ESTIMATED IN SEVERAL WAYS WHICH IS DESCRIBE THE PHYSICAL CHARACTERISTICS OF A DAMBREACH, USE OF THOSE PARAMETERS WITHIN THE UNSTEADY FLOW ROUTING MODEL HEC-RAS, AND THE COMPUTATION BREACHOUT FLOW HYDROGRAPH. THE BREACH PARAMETERS WILL DIRECTLY AND SUBSTANTIALLY AFFECT THE ESTIMATE OF THE FLOWS. DUETO THIS ILLUSTRATE THE FAILURE TIME IS VERY LOW, SO THE NEGATIVE SURGE OCCURS, HOWEVER DE ST. VENANT DIFFERENTIALEQUATIONS ARE NOT VALID IN THE NEIGHBORHOOD OF THE SURGE. IN ORDER TO EVALUATE THE EFFECTIVE OF NEGATIVE WAVE ONTHE OUTFLOW HYDROGRAPH. ACCORDING TO THIS, THE OUTFLOW COMPUTED BY THE SIMPLIFIED MODEL WITH APPROXIMATESOLUTIONS BASED ON EXPLICIT NUMERICAL METHOD. THE RESULTS OF THE HEC-RAS SIMULATION, PRESENT THAT IT WASRELATIVELY CLOSELY TO ESTIMATE PEAK BREACH DISCHARGES WITH APPROXIMATE SOLUTIONS.