PART III: WAVES 



27. This section presents summaries of the wave data. A discussion of 

 individual major storms is given in Part IX and contains additional wave data 

 for times when wave heights exceeded 2 m at the seaward end of the FRF pier. 

 Appendixes B through E provide more extensive data summaries for each gage, 

 including height and period distributions, wave direction distributions, 

 persistence tables, and spectra during storms. 



28. Wave directions (similar to wind directions) at the FRF are season- 

 ally distributed. Waves approach most frequently from north of the pier in 

 the fall and winter and south of the pier in the summer, with the exception of 

 storm waves that approach twice as frequently from north of the pier. 

 Annually, waves are approximately evenly distributed between north and south 

 (resultant wave direction being almost shore-normal) . 



Measurement Instruments 



29. The wave gages included two wave staff (Gages 645 and 625), one 

 buoy (Gage 630) , and one pressure (Gage 111) gage as shown in Figure 2 and 

 located as follows: 



Gage Type/Number 



Continuous wire (645) 

 Continuous wire (625) 

 Accelerometer buoy (630) 

 Pressure gage (111 ) 



Distance Offshore 



Wat 



er Depth 



Operational 



from Baseline 





m 



Period 



238 m 





3.5 



11/84-12/90 



567 m 





8 



11/78-12/90 



6 km 





18 



11/78-12/90 



1 km 





9 



09/86-12/90 



Staff gages 



30. Two Baylor Company (Houston, TX) parallel cable inductance wave 

 gages (Gage 645 at sta 7+80 and Gage 625 at sta 19+00 (Figure 2)) were mounted 

 on the FRF pier. Rugged and reliable, these gages require little maintenance 

 except to keep tension on the cables and to remove any material that may cause 

 an electrical short between them. They were calibrated prior to installation 

 by creating an electrical short between the two cables at known distances 

 along the cable and recording the voltage output. Electronic signal 

 conditioning amplifiers are used to ensure that the output signals from the 

 gages are within a 0- to 5-V range. Manufacturer-stated gage accuracy is 

 about 1.0 percent, with a 0.1-percent full-scale resolution; full scale is 

 14 m for Gage 625 and 8.2m for Gage 645. These gages are susceptible to 



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