SlideShare a Scribd company logo

Boiling & condensation

ziad zohdy
ziad zohdy
TechnologyBusiness
1 of 44
PRESENTED BY : Ziad Zohdy SUBMITTED TO : Dr. Mohamed abo el-azm BOILING & CONDENSATION
• what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
What is meant by Boiling • the transition of a liquid into vapor . • Boiling begins when the liquid is heated to the point at which the pressure of the saturated vapor above its surface becomes equal to the external pressure
 To keep a liquid boiling , the heat that is expended in the formation of bubbles must be supplied. Thus, boiling is inseparably associated with heat transfer, which results in the transmission of heat from the heating surface to the liquid. The heat exchange during boiling is one of the forms of convective heat transfer.
Different boiling regimes in pool boiling Nucleate boiling Transition boiling Film boiling
• what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
Types of boiling Pool boiling Flow boiling
Pool boiling  The fluid isn’t forced to flow by a mover like a pump  Any motion of the fluid is due to natural convection  The surface Temperature is greater than the saturation temperature so the boiling will occur
Flow boiling  Liquid is forced to move by an external source like a pump  Liquid is forced through the tube with temperature Ts  Heat is added through the wall of the tube ( hot liquid passes outside or electrical heater)
• what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
Boiling curve
Natural convection  A super heated liquid rising to the surface and evaporation takes place from the free surface  The fluid motion in this mode of boiling is governed by natural convection and the heat transfer from the heated surface to the fluid also by natural convection.
Nucleate Boiling  From A-B : isolated bubbles are formed on the heated surface, but these bubbles are dissipated in the liquid shortly after they separate from the surface.  From B-C : the heater temperature is increased, so we get large number of nucleation sites and large
 These bubbles move up to the free surface where they break up and release their vapor content.  Nucleate boiling is the most desirable boiling regime in practice because high heat transfer rates can be achieved in this regime
Nucleate boiling
Transition Boiling  The temperature difference is increased at point C, the heat flux decreases.  This is because a large fraction of the heater surface is covered by a vapor film, which acts as an insulation due to the low thermal conductivity of the vapor
Transition boiling Nucleate boiling
Film Boiling  In this region the heater surface is completely covered by a continuous stable vapor film.  Point D, where the heat flux reaches a minimum, is called the Leidenfrost point.
Film boiling Nucleate boiling Transition boiling
• what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
Heat transfer correlations HEAT TRANSFER CORRELATIONS Nucleate boiling MAX heat flux MIN heat flux Film boiling
Nucleate boiling The rate of heat transfer depends on :  the number of active nucleation sites on the surface.  the rate of bubble formation at each site  It is observed that irregularities on the heating surface, including roughness and dirt, serve as additional nucleation sites during boiling
MAX heat flux  maximum heat flux found at point C Ccr is a constant whose value depends on the heater geometry.
MIN heat flux  The minimum heat flux found at D
Film boiling  Cfilm= 0.62 for horizontal cylinders  Cfilm= 0.67 for spheres
• what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
CONDENSATION
Condensation  Condensation occurs when the temperature of a vapor is reduced below its saturation temperature.  Ts > Tw Vapor is going to condense on the surface
Types of condensation Drop wise condensat ion High rate of heat transfer Film condensat ion Low rate of heat transfer U0 = 1/(Ao*((1/(h0 * Ao)) + Rw + (1/(hi * Ai))) – Uo = Overall heat transfer coefficient – hi= Tube side heat transfer coefficient – ho = Condensation heat transfer coefficient –Rw = Wall resistance If the area of condensation decreases, coefficient will increase, therefore drop wise condensation have more condensation than film wise condensation
• what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
The rate of heat transfer  for the same temperature difference, drop condensation get high heat flux more than the film condensation.  Drop condensation is desirable but it difficult to maintain.
• what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
Film condensation on horizontal tubes  A saturated vapor at temperature ( Ts ) condensing on the outside of a horizontal tube maintained at ( Tw )  Liquid film has go down along the circumference & finally falls off at the bottom of the tube.
The average heat transfer coefficient given by :  λ : The latent heat  ρ : Density  K : Thermal conductivity  μ: Kinematic viscosity  D : Diameter
The film reynolds number at the bottom of the tube
• what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube • problem as an example Out lines
Problem on film condensation on horizontal tubes :  Saurated R-22 vapor at 262 K condenses as a film on a horizontal tube ( 22 mm OD ) whose outer wall is at a temperature of 258 K  Calculate :- 1- The average heat transfer coefficient. “ h “ 2-The film Reynolds number at the bottom of the tube “Re “
We had to calculate the mean temprature first to get the propertise of R-22 from the table at the mean temperature  MEAN FILM TEMP = ( Ts + Tw)/2  Mean Temp = (262 + 258 ) / 2 = 260 K
 m/L : condensation rate per meter length
References  http://dspace.mit.edu/bitstream/handle/1721.1/61 501/HTL_TR_1962_019.pdf?sequence=1  http://www.thermopedia.com/content/990/  Heat Transfer by Cengel 2nd Ed
Ziad zohdy THANK YOU 

Recommended

Boiling and condensation
Boiling and condensationBoiling and condensation
Boiling and condensationVijay G
 
Log mean temperature difference
Log mean temperature differenceLog mean temperature difference
Log mean temperature differenceRupesh Datir
 
Heat exchangers and types
Heat exchangers and typesHeat exchangers and types
Heat exchangers and typesGopesh Chilveri
 
Refrigeration and air conditioning notes for gate
Refrigeration and air conditioning notes for gateRefrigeration and air conditioning notes for gate
Refrigeration and air conditioning notes for gateSoumith V
 
Boiling Heat Transfer
Boiling Heat TransferBoiling Heat Transfer
Boiling Heat TransferYashasvi Sharma
 
Presentation on Filmwise and Dropwise Condensation
Presentation on Filmwise and Dropwise CondensationPresentation on Filmwise and Dropwise Condensation
Presentation on Filmwise and Dropwise CondensationKrishna Khandelwal
 
heat transfer through fins
heat transfer through finsheat transfer through fins
heat transfer through finsprasantjangir
 
Heat exchanger and its type,ntu method
Heat exchanger and its type,ntu methodHeat exchanger and its type,ntu method
Heat exchanger and its type,ntu methodTensaeAdisu
 

Recommended

Boiling and condensation
Boiling and condensationBoiling and condensation
Boiling and condensationVijay G
 
Log mean temperature difference
Log mean temperature differenceLog mean temperature difference
Log mean temperature differenceRupesh Datir
 
Heat exchangers and types
Heat exchangers and typesHeat exchangers and types
Heat exchangers and typesGopesh Chilveri
 
Refrigeration and air conditioning notes for gate
Refrigeration and air conditioning notes for gateRefrigeration and air conditioning notes for gate
Refrigeration and air conditioning notes for gateSoumith V
 
Boiling Heat Transfer
Boiling Heat TransferBoiling Heat Transfer
Boiling Heat TransferYashasvi Sharma
 
Presentation on Filmwise and Dropwise Condensation
Presentation on Filmwise and Dropwise CondensationPresentation on Filmwise and Dropwise Condensation
Presentation on Filmwise and Dropwise CondensationKrishna Khandelwal
 
heat transfer through fins
heat transfer through finsheat transfer through fins
heat transfer through finsprasantjangir
 
Heat exchanger and its type,ntu method
Heat exchanger and its type,ntu methodHeat exchanger and its type,ntu method
Heat exchanger and its type,ntu methodTensaeAdisu
 
Heat Exchanger
Heat ExchangerHeat Exchanger
Heat ExchangerMahmudul Hasan
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangersSANT LONGOWAL INSTITUTE OF ENGINEERING AND TECHNOLOGY
 
Dimensionless number
Dimensionless numberDimensionless number
Dimensionless numberanwesakar
 
types of heat exchanger
types of heat exchangertypes of heat exchanger
types of heat exchangerAbhijit Panchmatiya
 
Heat and Mass Transfer Basics
Heat and Mass Transfer BasicsHeat and Mass Transfer Basics
Heat and Mass Transfer BasicsMayavan T
 
Shell and Tube Heat Exchanger in heat Transfer
Shell and Tube Heat Exchanger in heat TransferShell and Tube Heat Exchanger in heat Transfer
Shell and Tube Heat Exchanger in heat TransferUsman Shah
 
Heat exchanger types and application
Heat exchanger types and applicationHeat exchanger types and application
Heat exchanger types and applicationKanchan Ramteke
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangersAmmar Ashraf
 
STEAM NOZZLES
STEAM NOZZLESSTEAM NOZZLES
STEAM NOZZLESVanita Thakkar
 
Actual vapour compression cycle
Actual vapour compression cycleActual vapour compression cycle
Actual vapour compression cyclevipul kumar sharma
 
Reversed carnot cycle
Reversed carnot cycle Reversed carnot cycle
Reversed carnot cycle Ihsan Wassan
 
Vapor compression refrigeration cycle
Vapor compression refrigeration cycleVapor compression refrigeration cycle
Vapor compression refrigeration cyclepradosh a c
 
Classification of heat exchanger
Classification of heat exchangerClassification of heat exchanger
Classification of heat exchangerSonu Gupta
 
Forced convection
Forced convectionForced convection
Forced convectionmsg15
 
Phase change heat transfer
Phase change heat transferPhase change heat transfer
Phase change heat transferGaurav Dave
 
Forced convection
Forced convectionForced convection
Forced convectionvishnu5211931
 
Ht 5 pool boiling curve
Ht 5 pool boiling curveHt 5 pool boiling curve
Ht 5 pool boiling curveKatharotiya jay
 
Design of heat exchanger
Design of heat exchangerDesign of heat exchanger
Design of heat exchangerRana Abdul Rauf
 
Fundamentals of Convection
Fundamentals of ConvectionFundamentals of Convection
Fundamentals of ConvectionRuchikaZalpouri
 
Double pipe heat exchanger
Double pipe heat exchangerDouble pipe heat exchanger
Double pipe heat exchangerwisdomvalley
 
CONVECTION & boiling condensation.pptx
CONVECTION & boiling condensation.pptxCONVECTION & boiling condensation.pptx
CONVECTION & boiling condensation.pptxSkSharma749863
 
CEDB201 REBOILER DESIGN_2022.pptx
CEDB201 REBOILER DESIGN_2022.pptxCEDB201 REBOILER DESIGN_2022.pptx
CEDB201 REBOILER DESIGN_2022.pptxSydneyJaydeanKhanyil
 

More Related Content

What's hot

Dimensionless number
Dimensionless numberDimensionless number
Dimensionless numberanwesakar
 
Heat and Mass Transfer Basics
Heat and Mass Transfer BasicsHeat and Mass Transfer Basics
Heat and Mass Transfer BasicsMayavan T
 
Shell and Tube Heat Exchanger in heat Transfer
Shell and Tube Heat Exchanger in heat TransferShell and Tube Heat Exchanger in heat Transfer
Shell and Tube Heat Exchanger in heat TransferUsman Shah
 
Heat exchanger types and application
Heat exchanger types and applicationHeat exchanger types and application
Heat exchanger types and applicationKanchan Ramteke
 
Actual vapour compression cycle
Actual vapour compression cycleActual vapour compression cycle
Actual vapour compression cyclevipul kumar sharma
 
Reversed carnot cycle
Reversed carnot cycle Reversed carnot cycle
Reversed carnot cycle Ihsan Wassan
 
Vapor compression refrigeration cycle
Vapor compression refrigeration cycleVapor compression refrigeration cycle
Vapor compression refrigeration cyclepradosh a c
 
Classification of heat exchanger
Classification of heat exchangerClassification of heat exchanger
Classification of heat exchangerSonu Gupta
 
Forced convection
Forced convectionForced convection
Forced convectionmsg15
 
Phase change heat transfer
Phase change heat transferPhase change heat transfer
Phase change heat transferGaurav Dave
 
Design of heat exchanger
Design of heat exchangerDesign of heat exchanger
Design of heat exchangerRana Abdul Rauf
 
Fundamentals of Convection
Fundamentals of ConvectionFundamentals of Convection
Fundamentals of ConvectionRuchikaZalpouri
 
Double pipe heat exchanger
Double pipe heat exchangerDouble pipe heat exchanger
Double pipe heat exchangerwisdomvalley
 

What's hot (20)

Heat Exchanger
Heat ExchangerHeat Exchanger
Heat Exchanger
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangers
 
Dimensionless number
Dimensionless numberDimensionless number
Dimensionless number
 
types of heat exchanger
types of heat exchangertypes of heat exchanger
types of heat exchanger
 
Heat and Mass Transfer Basics
Heat and Mass Transfer BasicsHeat and Mass Transfer Basics
Heat and Mass Transfer Basics
 
Shell and Tube Heat Exchanger in heat Transfer
Shell and Tube Heat Exchanger in heat TransferShell and Tube Heat Exchanger in heat Transfer
Shell and Tube Heat Exchanger in heat Transfer
 
Heat exchanger types and application
Heat exchanger types and applicationHeat exchanger types and application
Heat exchanger types and application
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangers
 
STEAM NOZZLES
STEAM NOZZLESSTEAM NOZZLES
STEAM NOZZLES
 
Actual vapour compression cycle
Actual vapour compression cycleActual vapour compression cycle
Actual vapour compression cycle
 
Reversed carnot cycle
Reversed carnot cycle Reversed carnot cycle
Reversed carnot cycle
 
Vapor compression refrigeration cycle
Vapor compression refrigeration cycleVapor compression refrigeration cycle
Vapor compression refrigeration cycle
 
Classification of heat exchanger
Classification of heat exchangerClassification of heat exchanger
Classification of heat exchanger
 
Forced convection
Forced convectionForced convection
Forced convection
 
Phase change heat transfer
Phase change heat transferPhase change heat transfer
Phase change heat transfer
 
Forced convection
Forced convectionForced convection
Forced convection
 
Ht 5 pool boiling curve
Ht 5 pool boiling curveHt 5 pool boiling curve
Ht 5 pool boiling curve
 
Design of heat exchanger
Design of heat exchangerDesign of heat exchanger
Design of heat exchanger
 
Fundamentals of Convection
Fundamentals of ConvectionFundamentals of Convection
Fundamentals of Convection
 
Double pipe heat exchanger
Double pipe heat exchangerDouble pipe heat exchanger
Double pipe heat exchanger
 

Similar to Boiling & condensation

CONVECTION & boiling condensation.pptx
CONVECTION & boiling condensation.pptxCONVECTION & boiling condensation.pptx
CONVECTION & boiling condensation.pptxSkSharma749863
 
Basics of heat trasfer and heat exchanger
Basics of heat trasfer and heat exchangerBasics of heat trasfer and heat exchanger
Basics of heat trasfer and heat exchangermohamed saad
 
Cryogenic Chilldown of Liquid Nitrigen.pptx
Cryogenic Chilldown of Liquid Nitrigen.pptxCryogenic Chilldown of Liquid Nitrigen.pptx
Cryogenic Chilldown of Liquid Nitrigen.pptxgeotsam1
 
Chapter11-Heat Transfer with Phase Change.pptx
Chapter11-Heat Transfer with Phase Change.pptxChapter11-Heat Transfer with Phase Change.pptx
Chapter11-Heat Transfer with Phase Change.pptxsherazahmad646566
 
ANALYSIS OF BOILING CURVE AND FORCED CONVECTION BOILING
ANALYSIS OF BOILING CURVE AND FORCED CONVECTION BOILINGANALYSIS OF BOILING CURVE AND FORCED CONVECTION BOILING
ANALYSIS OF BOILING CURVE AND FORCED CONVECTION BOILINGArun Sarasan
 
convection heat transfer convection heat
convection heat transfer convection heatconvection heat transfer convection heat
convection heat transfer convection heatLalerz
 
Boiling heat transfer
Boiling heat transfer Boiling heat transfer
Boiling heat transfer wisdomvalley
 
ROCKET ENGINE COOLING AND CDF ANALYSIS WITH HYDRO CARBON FUEL
ROCKET ENGINE COOLING AND CDF ANALYSIS WITH HYDRO CARBON FUELROCKET ENGINE COOLING AND CDF ANALYSIS WITH HYDRO CARBON FUEL
ROCKET ENGINE COOLING AND CDF ANALYSIS WITH HYDRO CARBON FUELPraveen S Duth
 
Presentation on Heat Transfer.
Presentation on Heat Transfer.Presentation on Heat Transfer.
Presentation on Heat Transfer.pratikgorde
 

Similar to Boiling & condensation (20)

CONVECTION & boiling condensation.pptx
CONVECTION & boiling condensation.pptxCONVECTION & boiling condensation.pptx
CONVECTION & boiling condensation.pptx
 
CEDB201 REBOILER DESIGN_2022.pptx
CEDB201 REBOILER DESIGN_2022.pptxCEDB201 REBOILER DESIGN_2022.pptx
CEDB201 REBOILER DESIGN_2022.pptx
 
Presentation1.pptx
Presentation1.pptxPresentation1.pptx
Presentation1.pptx
 
Boilers
BoilersBoilers
Boilers
 
Heat 4e chap10_lecture
Heat 4e chap10_lectureHeat 4e chap10_lecture
Heat 4e chap10_lecture
 
Basics of heat trasfer and heat exchanger
Basics of heat trasfer and heat exchangerBasics of heat trasfer and heat exchanger
Basics of heat trasfer and heat exchanger
 
condensation
condensationcondensation
condensation
 
Cryogenic Chilldown of Liquid Nitrigen.pptx
Cryogenic Chilldown of Liquid Nitrigen.pptxCryogenic Chilldown of Liquid Nitrigen.pptx
Cryogenic Chilldown of Liquid Nitrigen.pptx
 
Chapter11-Heat Transfer with Phase Change.pptx
Chapter11-Heat Transfer with Phase Change.pptxChapter11-Heat Transfer with Phase Change.pptx
Chapter11-Heat Transfer with Phase Change.pptx
 
ANALYSIS OF BOILING CURVE AND FORCED CONVECTION BOILING
ANALYSIS OF BOILING CURVE AND FORCED CONVECTION BOILINGANALYSIS OF BOILING CURVE AND FORCED CONVECTION BOILING
ANALYSIS OF BOILING CURVE AND FORCED CONVECTION BOILING
 
Condensation and its type.pdf
Condensation and its type.pdfCondensation and its type.pdf
Condensation and its type.pdf
 
convection heat transfer convection heat
convection heat transfer convection heatconvection heat transfer convection heat
convection heat transfer convection heat
 
Boiling and its various Modes.pdf
Boiling and its various Modes.pdfBoiling and its various Modes.pdf
Boiling and its various Modes.pdf
 
Boiling heat transfer
Boiling heat transfer Boiling heat transfer
Boiling heat transfer
 
mcl141-18.ppt
mcl141-18.pptmcl141-18.ppt
mcl141-18.ppt
 
nucleate boiling
nucleate boilingnucleate boiling
nucleate boiling
 
ROCKET ENGINE COOLING AND CDF ANALYSIS WITH HYDRO CARBON FUEL
ROCKET ENGINE COOLING AND CDF ANALYSIS WITH HYDRO CARBON FUELROCKET ENGINE COOLING AND CDF ANALYSIS WITH HYDRO CARBON FUEL
ROCKET ENGINE COOLING AND CDF ANALYSIS WITH HYDRO CARBON FUEL
 
HT seminar m1.ppt
HT seminar m1.pptHT seminar m1.ppt
HT seminar m1.ppt
 
Presentation on Heat Transfer.
Presentation on Heat Transfer.Presentation on Heat Transfer.
Presentation on Heat Transfer.
 
Haleem 04 hmt assignment 2
Haleem 04 hmt assignment 2Haleem 04 hmt assignment 2
Haleem 04 hmt assignment 2
 

Recently uploaded

presentation ICT roal in 21st century education
presentation ICT roal in 21st century educationpresentation ICT roal in 21st century education
presentation ICT roal in 21st century educationjfdjdjcjdnsjd
 
TrustArc Webinar - Unlock the Power of AI-Driven Data Discovery
TrustArc Webinar - Unlock the Power of AI-Driven Data DiscoveryTrustArc Webinar - Unlock the Power of AI-Driven Data Discovery
TrustArc Webinar - Unlock the Power of AI-Driven Data DiscoveryTrustArc
 
Apidays New York 2024 - APIs in 2030: The Risk of Technological Sleepwalk by ...
Apidays New York 2024 - APIs in 2030: The Risk of Technological Sleepwalk by ...Apidays New York 2024 - APIs in 2030: The Risk of Technological Sleepwalk by ...
Apidays New York 2024 - APIs in 2030: The Risk of Technological Sleepwalk by ...apidays
 
Architecting Cloud Native Applications
Architecting Cloud Native ApplicationsArchitecting Cloud Native Applications
Architecting Cloud Native ApplicationsWSO2
 
Platformless Horizons for Digital Adaptability
Platformless Horizons for Digital AdaptabilityPlatformless Horizons for Digital Adaptability
Platformless Horizons for Digital AdaptabilityWSO2
 
CNIC Information System with Pakdata Cf In Pakistan
CNIC Information System with Pakdata Cf In PakistanCNIC Information System with Pakdata Cf In Pakistan
CNIC Information System with Pakdata Cf In Pakistandanishmna97
 
How to Troubleshoot Apps for the Modern Connected Worker
How to Troubleshoot Apps for the Modern Connected WorkerHow to Troubleshoot Apps for the Modern Connected Worker
How to Troubleshoot Apps for the Modern Connected WorkerThousandEyes
 
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, AdobeApidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobeapidays
 
ICT role in 21st century education and its challenges
ICT role in 21st century education and its challengesICT role in 21st century education and its challenges
ICT role in 21st century education and its challengesrafiqahmad00786416
 
Why Teams call analytics are critical to your entire business
Why Teams call analytics are critical to your entire businessWhy Teams call analytics are critical to your entire business
Why Teams call analytics are critical to your entire businesspanagenda
 
Mcleodganj Call Girls 🥰 8617370543 Service Offer VIP Hot Model
Mcleodganj Call Girls 🥰 8617370543 Service Offer VIP Hot ModelMcleodganj Call Girls 🥰 8617370543 Service Offer VIP Hot Model
Mcleodganj Call Girls 🥰 8617370543 Service Offer VIP Hot ModelDeepika Singh
 
Corporate and higher education May webinar.pptx
Corporate and higher education May webinar.pptxCorporate and higher education May webinar.pptx
Corporate and higher education May webinar.pptxRustici Software
 
[BuildWithAI] Introduction to Gemini.pdf
[BuildWithAI] Introduction to Gemini.pdf[BuildWithAI] Introduction to Gemini.pdf
[BuildWithAI] Introduction to Gemini.pdfSandro Moreira
 
Rising Above_ Dubai Floods and the Fortitude of Dubai International Airport.pdf
Rising Above_ Dubai Floods and the Fortitude of Dubai International Airport.pdfRising Above_ Dubai Floods and the Fortitude of Dubai International Airport.pdf
Rising Above_ Dubai Floods and the Fortitude of Dubai International Airport.pdfOrbitshub
 
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FMECloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FMESafe Software
 
FWD Group - Insurer Innovation Award 2024
FWD Group - Insurer Innovation Award 2024FWD Group - Insurer Innovation Award 2024
FWD Group - Insurer Innovation Award 2024The Digital Insurer
 
Elevate Developer Efficiency & build GenAI Application with Amazon Q​
Elevate Developer Efficiency & build GenAI Application with Amazon Q​Elevate Developer Efficiency & build GenAI Application with Amazon Q​
Elevate Developer Efficiency & build GenAI Application with Amazon Q​Bhuvaneswari Subramani
 
Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...
Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...
Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...apidays
 
Polkadot JAM Slides - Token2049 - By Dr. Gavin Wood
Polkadot JAM Slides - Token2049 - By Dr. Gavin WoodPolkadot JAM Slides - Token2049 - By Dr. Gavin Wood
Polkadot JAM Slides - Token2049 - By Dr. Gavin WoodJuan lago vázquez
 
Strategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
Strategize a Smooth Tenant-to-tenant Migration and Copilot TakeoffStrategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
Strategize a Smooth Tenant-to-tenant Migration and Copilot Takeoffsammart93
 

Recently uploaded (20)

presentation ICT roal in 21st century education
presentation ICT roal in 21st century educationpresentation ICT roal in 21st century education
presentation ICT roal in 21st century education
 
TrustArc Webinar - Unlock the Power of AI-Driven Data Discovery
TrustArc Webinar - Unlock the Power of AI-Driven Data DiscoveryTrustArc Webinar - Unlock the Power of AI-Driven Data Discovery
TrustArc Webinar - Unlock the Power of AI-Driven Data Discovery
 
Apidays New York 2024 - APIs in 2030: The Risk of Technological Sleepwalk by ...
Apidays New York 2024 - APIs in 2030: The Risk of Technological Sleepwalk by ...Apidays New York 2024 - APIs in 2030: The Risk of Technological Sleepwalk by ...
Apidays New York 2024 - APIs in 2030: The Risk of Technological Sleepwalk by ...
 
Architecting Cloud Native Applications
Architecting Cloud Native ApplicationsArchitecting Cloud Native Applications
Architecting Cloud Native Applications
 
Platformless Horizons for Digital Adaptability
Platformless Horizons for Digital AdaptabilityPlatformless Horizons for Digital Adaptability
Platformless Horizons for Digital Adaptability
 
CNIC Information System with Pakdata Cf In Pakistan
CNIC Information System with Pakdata Cf In PakistanCNIC Information System with Pakdata Cf In Pakistan
CNIC Information System with Pakdata Cf In Pakistan
 
How to Troubleshoot Apps for the Modern Connected Worker
How to Troubleshoot Apps for the Modern Connected WorkerHow to Troubleshoot Apps for the Modern Connected Worker
How to Troubleshoot Apps for the Modern Connected Worker
 
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, AdobeApidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
 
ICT role in 21st century education and its challenges
ICT role in 21st century education and its challengesICT role in 21st century education and its challenges
ICT role in 21st century education and its challenges
 
Why Teams call analytics are critical to your entire business
Why Teams call analytics are critical to your entire businessWhy Teams call analytics are critical to your entire business
Why Teams call analytics are critical to your entire business
 
Mcleodganj Call Girls 🥰 8617370543 Service Offer VIP Hot Model
Mcleodganj Call Girls 🥰 8617370543 Service Offer VIP Hot ModelMcleodganj Call Girls 🥰 8617370543 Service Offer VIP Hot Model
Mcleodganj Call Girls 🥰 8617370543 Service Offer VIP Hot Model
 
Corporate and higher education May webinar.pptx
Corporate and higher education May webinar.pptxCorporate and higher education May webinar.pptx
Corporate and higher education May webinar.pptx
 
[BuildWithAI] Introduction to Gemini.pdf
[BuildWithAI] Introduction to Gemini.pdf[BuildWithAI] Introduction to Gemini.pdf
[BuildWithAI] Introduction to Gemini.pdf
 
Rising Above_ Dubai Floods and the Fortitude of Dubai International Airport.pdf
Rising Above_ Dubai Floods and the Fortitude of Dubai International Airport.pdfRising Above_ Dubai Floods and the Fortitude of Dubai International Airport.pdf
Rising Above_ Dubai Floods and the Fortitude of Dubai International Airport.pdf
 
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FMECloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
 
FWD Group - Insurer Innovation Award 2024
FWD Group - Insurer Innovation Award 2024FWD Group - Insurer Innovation Award 2024
FWD Group - Insurer Innovation Award 2024
 
Elevate Developer Efficiency & build GenAI Application with Amazon Q​
Elevate Developer Efficiency & build GenAI Application with Amazon Q​Elevate Developer Efficiency & build GenAI Application with Amazon Q​
Elevate Developer Efficiency & build GenAI Application with Amazon Q​
 
Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...
Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...
Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...
 
Polkadot JAM Slides - Token2049 - By Dr. Gavin Wood
Polkadot JAM Slides - Token2049 - By Dr. Gavin WoodPolkadot JAM Slides - Token2049 - By Dr. Gavin Wood
Polkadot JAM Slides - Token2049 - By Dr. Gavin Wood
 
Strategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
Strategize a Smooth Tenant-to-tenant Migration and Copilot TakeoffStrategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
Strategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
 

Boiling & condensation

  • 1. PRESENTED BY : Ziad Zohdy SUBMITTED TO : Dr. Mohamed abo el-azm BOILING & CONDENSATION
  • 2. • what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
  • 3. What is meant by Boiling • the transition of a liquid into vapor . • Boiling begins when the liquid is heated to the point at which the pressure of the saturated vapor above its surface becomes equal to the external pressure
  • 4.  To keep a liquid boiling , the heat that is expended in the formation of bubbles must be supplied. Thus, boiling is inseparably associated with heat transfer, which results in the transmission of heat from the heating surface to the liquid. The heat exchange during boiling is one of the forms of convective heat transfer.
  • 5. Different boiling regimes in pool boiling Nucleate boiling Transition boiling Film boiling
  • 6. • what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
  • 7. Types of boiling Pool boiling Flow boiling
  • 8. Pool boiling  The fluid isn’t forced to flow by a mover like a pump  Any motion of the fluid is due to natural convection  The surface Temperature is greater than the saturation temperature so the boiling will occur
  • 9. Flow boiling  Liquid is forced to move by an external source like a pump  Liquid is forced through the tube with temperature Ts  Heat is added through the wall of the tube ( hot liquid passes outside or electrical heater)
  • 10. • what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
  • 12. Natural convection  A super heated liquid rising to the surface and evaporation takes place from the free surface  The fluid motion in this mode of boiling is governed by natural convection and the heat transfer from the heated surface to the fluid also by natural convection.
  • 13. Nucleate Boiling  From A-B : isolated bubbles are formed on the heated surface, but these bubbles are dissipated in the liquid shortly after they separate from the surface.  From B-C : the heater temperature is increased, so we get large number of nucleation sites and large
  • 14.  These bubbles move up to the free surface where they break up and release their vapor content.  Nucleate boiling is the most desirable boiling regime in practice because high heat transfer rates can be achieved in this regime
  • 16. Transition Boiling  The temperature difference is increased at point C, the heat flux decreases.  This is because a large fraction of the heater surface is covered by a vapor film, which acts as an insulation due to the low thermal conductivity of the vapor
  • 18. Film Boiling  In this region the heater surface is completely covered by a continuous stable vapor film.  Point D, where the heat flux reaches a minimum, is called the Leidenfrost point.
  • 19. Film boiling Nucleate boiling Transition boiling
  • 20. • what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
  • 22. Nucleate boiling The rate of heat transfer depends on :  the number of active nucleation sites on the surface.  the rate of bubble formation at each site  It is observed that irregularities on the heating surface, including roughness and dirt, serve as additional nucleation sites during boiling
  • 23.
  • 24. MAX heat flux  maximum heat flux found at point C Ccr is a constant whose value depends on the heater geometry.
  • 25. MIN heat flux  The minimum heat flux found at D
  • 26. Film boiling  Cfilm= 0.62 for horizontal cylinders  Cfilm= 0.67 for spheres
  • 27. • what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
  • 29. Condensation  Condensation occurs when the temperature of a vapor is reduced below its saturation temperature.  Ts > Tw Vapor is going to condense on the surface
  • 30. Types of condensation Drop wise condensat ion High rate of heat transfer Film condensat ion Low rate of heat transfer U0 = 1/(Ao*((1/(h0 * Ao)) + Rw + (1/(hi * Ai))) – Uo = Overall heat transfer coefficient – hi= Tube side heat transfer coefficient – ho = Condensation heat transfer coefficient –Rw = Wall resistance If the area of condensation decreases, coefficient will increase, therefore drop wise condensation have more condensation than film wise condensation
  • 31. • what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
  • 32. The rate of heat transfer  for the same temperature difference, drop condensation get high heat flux more than the film condensation.  Drop condensation is desirable but it difficult to maintain.
  • 33. • what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube Out lines
  • 34. Film condensation on horizontal tubes  A saturated vapor at temperature ( Ts ) condensing on the outside of a horizontal tube maintained at ( Tw )  Liquid film has go down along the circumference & finally falls off at the bottom of the tube.
  • 35. The average heat transfer coefficient given by :  λ : The latent heat  ρ : Density  K : Thermal conductivity  μ: Kinematic viscosity  D : Diameter
  • 36. The film reynolds number at the bottom of the tube
  • 37. • what is meant by Boiling • Types of boiling • Boiling curve • Heat transfer correlations • Condensation • Types of condensation • Rate of heat transfer • Film condensation on horizontal tube • problem as an example Out lines
  • 38. Problem on film condensation on horizontal tubes :  Saurated R-22 vapor at 262 K condenses as a film on a horizontal tube ( 22 mm OD ) whose outer wall is at a temperature of 258 K  Calculate :- 1- The average heat transfer coefficient. “ h “ 2-The film Reynolds number at the bottom of the tube “Re “
  • 39. We had to calculate the mean temprature first to get the propertise of R-22 from the table at the mean temperature  MEAN FILM TEMP = ( Ts + Tw)/2  Mean Temp = (262 + 258 ) / 2 = 260 K
  • 40.
  • 41.  m/L : condensation rate per meter length
  • 42.