ROYAL SU SOGUTMA KULESI ROYAL SU SOGUTMA KULESI1

TECHNICAL SPECIFICATIONS OF WATER COOLING TOWER

Water cooling towers used in water cooling and air conditioning systemscool the water as a result of air contact.Water cooling towers used in water cooling and air conditioning systemscool the water as a result of air contact.Towers with 10 different models are produced between 170.000 kcal/h and 1.081.250 kcal/h capacity. Depending on the desired capacity, two separate models are combined for higher capacities and manufactured as twin towers.The produced water cooling towers consist of two sections. The first section consists of filler, water distribution system and drop holder. The bottom section consists of water pool, filter, floater, overflow and discharge sections.The double-suction, dense winged, radial fan electric motor and the belt pulley fittings are located outside the tower.

Cooling Tower: The strength of the side walls and the base of the tower is increased by bending the sheets specially designed with 2 mm galvanized sheets. Two layers of epoxy primer and one layer of epoxy paint on the final layer have been used to ensure long life. The joints of the tower sidewalls and the bottom joints are combined with special gasket and bolt, and modularly manufactured, and special liquid gasket is used for sealing at the joints.Cooling Tower: The strength of the side walls and the base of the tower is increased by bending the sheets specially designed with 2 mm galvanized sheets. Two layers of epoxy primer and one layer of epoxy paint on the final layer have been used to ensure long life. The joints of the tower sidewalls and the bottom joints are combined with special gasket and bolt, and modularly manufactured, and special liquid gasket is used for sealing at the joints.

Tower Carrier Foot: Chassis is made from the NPU profile for the strength, transportation and installation of the device at the place where it operates.

Tower Pool: There are floater, filter, transport, discharge, suction pipes.

Tower Filler: PVC plaster filler is used to provide water and air contact in the maximum range.

Tower Water Distribution System: The water is divided into smaller droplets and distributed through pipes over the filler.

Tower Drop Holder: It is made of specially drawn PVC material.

Tower Fan and motor Double suction, radial fan, forward inclined, dense bladed fans are used. There is a conical squeezing belt pulley assembly mounted on the electric motor fan and the electric motoris shielded against external impacts.

Tower Filter: The filter is manufactured from perforated sheet made of galvanized sheet, and mounted in the suction port of the pool to ensure that the foreign substances within the water going to the suction pump are kept and that the water feeding the system does not cause any blockage.

Tower Intervention Gate: It is used to clean the pool of the water cooling tower and the pool filter, and to make the adjustment of the float.

TOWER SELECTION

According to the wet-bulb temperature, the type of tower is determined according to the waterflowrate according to table 3, by taking into account the "K" correction coefficient selected from the table [table 2).

Finding "K" Correction Coefficient

Kule Giriş Sıcaklığı
Kule Giriş Sıcaklığı
Dış Ortam Yaş Term. Sıc.
Kule Kapasitesi
Kule Debisi

: Tg0C
: Tg0C
: Tyt0C
: Q kcall/h
: Vm3/h

Kule Debisi
İndirim
Yaklaşım

: Q/(1000x(Tg-Tç))
: Tg - Tç
: Tç - Tyt

Calculation of Tower pump

When calculating the tower pump, in addition to the system pressure used, the height of the tower C1,5 - 3 mmSS) and the flow pressure of the water, which is 3 mss, should be added.

EXAMPLE

Kule Giriş Sıcaklığı
Kule Giriş Sıcaklığı
Dış Ortam Yaş Term. Sıc.
Kule Kapasitesi

: 360C
: 300C
: 240C
: 500.000 kcall/h

Kule Debisi
İndirim
Yaklaşım

:500.000/(1000x(36-30))=83,33 m3/h
:36-30=6 0C
:30-24=6 0C

For 24 °C wet-bulb temperature, correction factor, K, is found 0.84 from table 2.For 24 °C wet-bulb temperature, correction factor, K, is found 0.84 from table 2.The tower type KRK - 14 is selected from the table 3for К = 0.85 [rounded] at 83.33 m3/h water flow.Note: The К values taken from Table 2 are rounded to higher values according to the coefficients in table 3.

radyal3

SU SOĞUTMA KULESİ ÖLÇÜLERİ VE SEÇİM TABLOSU
TİP ÖLÇÜLER ELEK. MOT.
1450 d/d

BES
LEME
1

DRE
NAJ
2
TAŞ
MA
3
ÇI
KIŞ
4

RİŞ
5
ÇAL
IŞMA 
ALANI
m2
BOŞ

KG
DOLU

KG
KAPASİTE
Kcal/24 0C
YT-34/29 0C
A
mm
B
mm
C
mm
D
mm
E
mm
ALSY 020 1080 1160 760 1920 2290 3 1/4 1/4 1/2 3" 2 X 2" 0,95 410 856 170.000
ALSY 030 1760 1160 760 1920 2290 5,5 1/4 1/4 1/2 3" 2 X 2" 1,85 505 1.196 285.000
ALSY 040 2160 1160 760 1920 2290 7,5 1/4 1/4 1/2 4" 3 X 3" 2,75 615 1.580 354.000
ALSY 050 2865 1160 760 1920 2290 3 + 5,5 1/4 1/4 1/2 5" 3 X 3" 2,98 735 1.925 465.000
ALSY 060 3250 1160 760 1920 2290 4 + 7,5 1/4 1/4 1/2 5" 3 X 3" 3,48 850 2.315 537.000
ALSY 070 3940 1160 760 1920 2290 2 X 7,5 1/4 1/4 1/2 5" 3 X 3" 4,15 1.060 2.765 648.000
ALSY 080 4340 1160 760 1920 2290 2 X 10 1/4 1/4 1/2 5" 3 X 3" 4,64 1.135 3.085 722.000
ALSY 090 5025 1160 760 1920 2290 4 + 2 X 7,5 1/4 1/4 1/2 6" 3 X 3" 5,36 1.270 3.485 830.000
ALSY 100 5425 1160 760 1920 2290 5,5 + 2 X 10 1/4 1/4 1/2 6" 3 X 3" 5,85 1.485 3.940 902.000
ALSY 110 6510 1160 760 1920 2290 3 X 10 1/4 1/4 1/2 6" 3 X 3" 6,95 1.840 4.785 1.081.250

 

BAZI İLLERİN YAŞ TERMOMETRE SICAKLIKLARI
ADANA 26 0C ÇANAKKALE 25 0C İSTANBUL 24 0C NİĞDE 20 0C
ADAPAZARI 25 0C ÇANKIRI 23 0C İZMİR 24 0C RİZE 26 0C
AYYON 21 0C ÇORUM 22 0C KARS 20 0C SAMSUN 25 0C
ANKARA 20 0C DENİZLİ 24 0C KASTAMONU 22 0C SİİRT 23 0C
ANTAKYA 28 0C DİYARBAKIR 23 0C KAYSERİ 22 0C SİNOP 25 0C
ANTALYA 28 0C EDİRNE 25 0C KOCAELİ 25 0C SİVAS 20 0C
AYDIN 26 0C ELAZIĞ 21 0C KONYA 21 0C TEKİRDAĞ 25 0C
BALIKESİR 25 0C ERZİNCAN 22 0C KÜTAHYA 21 0C TRABZON 25 0C
BANDIRMA 25 0C ERZURUM 19 0C MALATYA 21 0C ŞANLIURFA 24 0C
BİLECİK 23 0C ESKİŞEHİR 22 0C MANİSA 25 0C UŞAK 22 0C
BOLU 23 0C GAZİANTEP 23 0C MARDİN 23 0C VAN 20 0C
BURDUR 21 0C GİRESUN 25 0C MERSİN 29 0C YOZGAT 20 0C
BURSA 25 0C ISPARTA 21 0C MUĞLA 22 0C ZONGULDAK 26 0C
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