Download - Project -1 Ppt(Cooling Tower)
PROJECT WORKON
COLLING TOWER
GUIDED BY: PREPARED BY:MR. H.K.PATEL (L.M.E) NAME
ENROLL.NOMR. M.M.PATEL(L.M.E) CHINMAY S PATEL 106550319132 HARSHIL.V SHAH
106550319122 BRIJESH.P.PATEL
106550319069 KAUSHAL A. TANDEL
106550319080
DETAILED DESCRIPTION OF PROBLEM
Energy losses :-
Regardless of the type of system , be it open or closed, if it meets with any of the above problems, either the cooling tower nozzles are blocked resulting in reduced Delta “T” and/or the deposits/scales are formed on the heat transfer surfaces.
Drift loss:-
Now –a-days most of the end user specification calls for 0.02% drift loss.
Cooling Tower FansThe purpose of a cooling tower fan is to move a specified
quantity of air through the system, overcoming the system resistance which is defined as the pressure loss
EXPECTED OUTCOME OF INDUSTRY DEFINED PROBLEM (IDP) Feet soft water plant inlet of a cooling tower. Use of Fibre reinforced plastic blade for Energy
losses. Replacement of aluminum blades with light-weight
FRP blades reduces the load on cooling tower fan motors & brings down energy consumption
Change blade angle for drip loss. Use eliminator for drip loss Correct excessive and/or uneven fan blade tip
clearance and poor fan balance. On old counter-flow cooling towers, replace old
spray type nozzles with new square spray ABS practically non-clogging nozzles.
Balance flow to cooling tower hot water basins.
INTRODUCTION Cooling towers are a very important part of many
chemical plants. The primary task of a cooling tower is to reject heat into the atmosphere. They represent a relatively inexpensive and dependable means of removing low-grade heat from cooling water. The make-up water source is used to replenish water lost to evaporation. Hot water from heat exchangers is sent to the cooling tower. The water exits the cooling tower and is sent back to the exchangers or to other units for further codling. Typical closed loop cooling tower system is shown in Figure
CLASSIFICATION OF COOLING TOWER
ADVANTAGES AND DISADVANTAGES
Range :- This is the difference between the cooling tower water inlet and outlet temperature.
Approach:- This is the difference between the cooling tower outlet coldwater temperature and ambient wet bulb temperature.
FORMULAE CAN BE USED L(T1 – T2) = G(h2 – h1) L/G = (h2 – h1) / (T1 – T2)
Where: L/G = liquid to gas mass flow ratio (kg/kg) T1 = hot water temperature (0oC) T2 = cold-water temperature (0oC) h2 = enthalpy of air-water vapor mixture at
exhaust wet-bulb temperature (same units as above)
h1 = enthalpy of air-water vapor mixture at inlet wet-bulb temperature (same units as above)
COMPONENTS OF A COOLING TOWER Frame and casing: Support exterior
enclosures Fill: Facilitate heat transfer by maximizing
water / air contact Cold water basin: Receives water at bottom
of tower Drift eliminators: Capture droplets in air
stream Air inlet: Entry point of air Louvers: Equalize air flow into the fill and
retain water within tower Nozzles: Spray water to wet the fill Fans: Deliver air flow in the tower
FISHBONE DIAGRAM
5-S STRATEGY
7-S STRATEGY
OBJECTIVE OF THE MODEL (To analyze how well an organization is positioned to achieve its intended objective
Usage Improve the performance of a company Examine the likely effects of future changes
within a company Align departments and processes during a
merger or acquisition Determine how best to implement a
proposed strategy
BIBLIOGRAPHY
www.spxcooling.com www.retscreen.net www.wikipedia.com/cooling tower REFERENCES BOOK ASHRAE Handbook NPC Case Studies Bureau of Energy Efficiency