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OPTIMIZATION PROBLEMS OF PHOTOGRAMMETRIC METHOD OF HYPERBOLIC COOLING TOWER MEASUREMENTS 
Jézef WoZniak 
Technical University of Wroclaw, 
Institute of Geotechnics and Hydrotechnics Wroclaw, Plac Grunwaldzki 9, Poland 
ABSTRACT : 
In dependence on possibilities of signalling and on univocal identification of observed and control points 
on external surface of reinforced concrete cooling tower, there are shown advantages and disadvantages of 
monophotogrammetric method in comparison with stereophotogrammetric method. 
There are shown some examples of graphic results presentation by means of own and commonly accessible packages 
of computer programs. 
KEY WORDS: Cooling towers, Deformation measurement, Photogrammetry. 
1. INTRODUCTION 
Reinforced concrete cooling towers which belong to 
the biggest engineering thin-walled structures, 
because of their geometric shape (mainly because of 
relation between shell thickness to its diameter) 
need constant macroscopic ‘inspection and shell 
deformation investigation, because of industrial 
aggressive atmosphere influence and also constant 
surface wetting (Chauvel at all 1990, Golczyk 1989, 
Owczarzy 1989, Owczarzy 1991). 
Detailed investigations about reasons of almost ten 
collapses of reinforced concrete hyperboloid cooling 
towers, which took place since 1965 in Great Britain, 
France and Poland, did not several one immediate 
cause of disaster. 
In reasons! analyses of not only collapses of cooling 
towers but also minor impairments, there are 
emphasized, apart from external factors, mainly very 
strong wind pressure with variable velocity, the 
realization imperfections and exploitation mistakes 
(Golczyk 1989, Owczarzy 1989). Effects of these 
incorrectnesses are phenomena: 
- concrete degradation because of lack of maintenance 
and preservation repairs; 
- residual and dynamic deformations of the shell. 
Evaluation of shell's stability and strength is 
carried out to determine the cooling towers' state of 
safety and exploitation reliability, taking into 
consideration the investigations' results of above 
mentioned phenomena. Mostly applied is the method of 
finite element with taking into account the 
geometrical and physical shell's imperfection. A net 
of finite elements is generated on shell's surface 
which theoretical shape is one sheet axially 
symmetric hyperboloid. Values of geometrical and 
physical imperfections are assigned to node lines, 
but inside the net, these values are linearly 
approximated. The geometrical imperfection values in 
the finite element net taken from geodetic or 
photogrammetric measurements results. 
After cooling tower collapses, mainly in Great 
Britain and France, there was determined the range of 
cyclic geodetic and photogrammetric measurements of 
all remaining cooling towers. At the first stage, 
there are carried out the measurements of real shape 
of shell outer surface with simultaneous record of 
all injuries and defects in shell using photographic, 
photogrammetric and thermovisional technics. During 
subsequent inspection measurements carried out in the 
aim to record the injuries’ and defects’ alterations, 
there are used the same measurement method, with 
particular consideration of photogrammetric method. 
Besides photogrammetric methods, there are also used 
for cooling tower shape investigations some special 
geodetic system e.g.: measuring system Wild Leitz 
ATMS - automatic theodolite measuring system, which 
329 
permits to determine, with a great accuracy, an 
unlimited quantity of unsignalled points on cooling 
tower surface without application of reflectors 
(Katowski, 1990). 
2. PHOTOGRAMMETRIC METHODS TO DETERMINE 
GEOMETRIC IMPERFECTIONS 
Collapse of a cooling tower at power station in 
Turoszów, Poland, 1987, caused greater interest in 
technic state of all remaining towers in Poland. 
Determination necessity of real shape of cooling 
towers external surface contributed to elaboration of 
new methods or taking advantage of existing ones, 
which permit to get the data for evaluation of 
investigated objects stability. These methods can be 
divided in two groups: monophotogrammetry and 
sterephotogrammetry. Each of these methods has its 
advantages and disadvantages, which may be essential 
according to the measurement purpose, art of 
geometric imperfections or possibilities of check-up 
points’ signalling on cooling tower surface. 
2.1 Monophotogrammetry method 
Monophotogrammetry method used to investigation of 
rotation surface shapes, is based on conic sections 
method which, in classical solutions, is used to 
determine the approximation parameters of a 
hyperboloid and inclination of geometric axis. 
when applicating monophotogrammetry, the conic 
sections method (surrounding tangents’ method) is 
used to the shape investigation on planes which 
contains the tangency points of radii connecting 
projection center which cooling tower surface 
(Wozniak, 1988). 
At the first stage of investigations, there is to be 
determined the real and theoretical shape of cooling 
tower external surface on ground of photogrammetric 
pictures, taken from camera stands surrounding the 
tower. Theoretic shape of rotational hyperboloid 
surface at the plane containing tangency points of 
observation radii from a given stand differs 
according to coordinates of projection center 
S(Xy5 ¥ys 2) and to hyperboloid semi-axes a and b. 
General equations of the tangent lines, determining 
the geometrical intersection point of vectors 
perpendicular to the tangent direction and vectors 
tangent to the direction from a given camera stand 
has the following form: 
  
  
2 2 
2 2 pi Deyn (1) 
z 
2 2 
a^ Zg a^ Ze £o 
Assuming for each camera stand a local coordinate 
system SCO, V > 2) » equation (1) in projection on 
plane YZ shows a straight line with an inclination 
angle e of the vertical (Fig. 1.).