===============================================================================
                                 T H E    N E W 
           D E N V E R    I N T E R N A T I O N A L    A I R P O R T
===============================================================================
     Information following is for users of ATP/ATPUTIL/SCENEDIT who would 
   like to update their ATP scenery for the Rocky Mountain world as it will 
     be in March 1994 or April 1994 or May 1994 -- or whenever the Denver 
             International Airport actually becomes operational.
===============================================================================
-------------
R U N W A Y S
-------------
There are a total of five new runways, three north/south, two east/west. 
They're all the same size: 12,000' long, 150' wide.  Using Simon Hradecky's 
SCENEDIT program, you can establish these runways in ATP scenery containing 
the Denver area.  Runway elements are:

  Runway     Mag.Dir.    Latitude    Longitude    Elev.*
--------------------------------------------------------
  7 - 25   080^ - 260^  39^ 50.3'N  104^ 41.9'W   5350'
  8 - 26   080^ - 260^  39^ 52.5'N  104^ 38.1'W   5321'
 16 - 34   170^ - 350^  39^ 52.7'N  104^ 40.9'W   5340'
17R - 35L  170^ - 350^  39^ 50.5'N  104^ 39.3'W   5402'
17L - 35R  170^ - 350^  39^ 50.8'N  104^ 38.1'W   5346'

* Average of elevation at each end of runway.

----------------------------------------------------------
R U N W A Y    L I G H T I N G    A N D    M A R K I N G S
----------------------------------------------------------
 RWY                  VISUAL AIDS
----------------------------------------------------
 07    HIRL    CL    MALSR      TDZ    PAPI-L (3.0^)
 25    HIRL    CL    MALSR             PAPI-L (3.0^)
 08    HIRL    CL    MALSR             PAPI-L (3.0^)
 26    HIRL    CL    MALSR      TDZ    PAPI-L (3.0^)
 16    HIRL    CL    MALSR      TDZ    PAPI-L (3.0^)
 34    HIRL    CL    ALSF-II    TDZ    PAPI-L (3.0^)
 17L   HIRL    CL    MALSR             PAPI-L (3.0^)
 35R   HIRL    CL    ALSF-II    TDZ    PAPI-L (3.0^)
 17R   HIRL    CL    MALSR      TDZ    PAPI-L (3.0^)
 35L   HIRL    CL    ALSF-II    TDZ    PAPI-L (3.0^)

-------
I L S s
-------
There are two ILSs for each of the five runways, one in each direction, 10 in 
all.  All 10 provide DME information.  Glide slope is 3^ for all ILSs.  
Elements are:

                     --Distances-- --Altitude--
Runway  ID   Freq.   IM   MM   OM      at OM      Remarks
----------------------------------------------------------
 35L   IAQD  108.50  0.2  0.5  4.5     7000'     CAT II/III
 17R   IACX  108.50  None 0.6  5.1     7100'
  8    IFUI  108.90  None 0.6  5.4     7200'
 26    IJOY  108.90  None 0.6  6.2     7400'
 35R   IDPP  110.15  0.2  0.5  4.7     7000'     CAT II/III
 17L   IBXP  110.15  None 0.6  4.8     7000'
 34    IOUF  111.10  0.2  0.6  4.9     7000'     CAT II/III
 16    ILTT  111.10  None 0.6  4.6     7000' 
  7    IDZG  111.55  None 0.6  4.8     7000'
 25    IERP  111.55  None 0.6  4.8     7000'

-------
V O R s
-------
Airport will have three VORs: Denver (DEN), Mile High (DVV), and Falcon (FQF).  
They're oriented in a roughly north-south line.  Two (DVV and DEN) are within 
airport boundaries.  FQF is 11 miles SSE of the new ARP (airport reference 
point).  They will be used to sequence traffic into parallel and simultaneous 
tracks for simultaneous landings on parallel runways.  

For arrivals, there are four Gates (NE, SE, SW, NW).  Each Gate has two STARs.  
Each STAR has at least two transitions. Simultaneous approaches are authorized 
for runways in four groups: 
    
    (1) 34, 35R, and 35L 
    (2) 7 and 8 
    (3) 16, 17R, and 17L 
    (4) 25 and 26.

Summary:  Three simultaneous approaches are authorized for north or south 
landings.  Landing east or west, two simultaneous approaches can be made.  

SIDs are grouped in four sectors also: N, E, S, W plus a radar vectors SID.  
Each sector has at least two SIDs, each SID has at least two transitions, etc.

VORs are:
                                                        North
ID     Name      Freq.       Lat.      Long.     Alt. Deviation
---------------------------------------------------------------
DEN  Denver    117.9 mhz  39^48.8'N  104^39.6'W  5225  20.5329
DVV  Mile High 114.7 mhz  39^53.7'N  104^37.5'W  5280  20.5329
FQF  Falcon    116.3 mhz  39^41.4'N  104^37.3'W  5293  20.5329

All are high altitude VORs.

That's about it.  You can make the changes outlined above but you'll have to 
decide how to handle the new DEN VOR.  It's the only ID which duplicates a 
current ID.  The current DEN, 117.0, at Stapleton, will be replaced by the new 
DEN, 117.9, at the new airport.  There is no frequency conflict, just an ID 
conflict.  One way to handle it is to set up the new airport including ILSs, 
DVV and FQF.  USA West contains DVV and FQF; ATP Default does not.  Both 
contain DEN but at the current location, of course.  When you obtain copies 
of new enroute and approach charts, change the location of DEN, use ATPUTIL 
to change affected nodes and airways.  Nothing to prevent you using the new
facilities for practice until that time.

The other problem is "Where are the procedures?"  The above information came 
from Jeppeson charts and plates.  Contact the supplier of your current set of 
procedures and enroute charts.  They're all aware of these changes and must 
either publish them or consider another line of work.

If you're familiar with SCENEDIT/ATPUTIL, you can stop here, make the above
changes to scenery files and you've built an airport in a couple of hours which 
required about three years and several billion of $ in real life -- one of the 
advantages of simulation.  

If you're not quite sure about how SCENEDIT/ATPUTIL work individually and 
collectively, go to the file DENNEW.TXT.  It contains step-by-step suggestions 
for setting up the new runways, lighting, markings, ILSs, VORs.


                                   JP Pool
                                   73016,1574
                                   January 3, 1994 


   





