SlideShare uma empresa Scribd logo

Compact Heat Exchangers

Transferir como PPTX, PDF
A
adlinilda

Basic concepst in heat exchangers, uses, types and fouling

EducaçãoNegócios
1 de 36
Adlin Miranda Morales INTD 3355 Prof. Liz Pagan
Agenda  What is a compact heat exchanger?  Types  Advantages and limitations  Cost of heat exchangers  Fouling  Security and Environmental aspect  Design  Conclusion
Basic Definitions  Heat exchanger: apparatus that has two streams of fluid that exchange temperatures in order to heat or cool the system.  Fouling: type of contamination in the heat exchanger that can damage its purpose.
Description  Basically this presentation focuses on what are compact heat exchangers, the various types, costs, advantages and disadvantages and how fouling may affect.  The main option for research was internet and the library ( books, journals, thesis, etc.)
What is a Compact Heat Exchanger?  Area density greater than 700 m2/m3 for gas or greater than 300 m2/m3 when operating in liquid or two-phase streams.  Highly efficient  Reduce volume, weight and cost
Types of CHEs  Plate and frame heat exchangers: (PHE)
Plate and Frame Heat Exchanger  Most common type of PHE  Consists of plates and gaskets  Materials: stainless steel, titanium and non-metallic  Operation limits: - temperatures from -35°C to 220°C - pressures up to 25 bar - flow rate up to 5000 m3/h
Brazed Plate Heat Exchanger (PHE)
Brazed Plate Heat Exchanger  Operates at higher pressures than gasketed units  Materials: stainless steel, copper contained braze  Operating limits: - From -195°C to 200°C - Pressures up to 30 bar  It is impossible to clean. The only way is by applying chemicals.
Welded Plate Heat Exchanger (PHE)
Welded Plate Heat Exchanger  Plates welded together to increase pressure and temperature limits  Materials: stainless steal and nickel based alloys. Can be made with copper , titanium or graphite  Operation Limits: - temperature limits depend on the material - can tolerate pressures in excess of 60 bar
Spiral Heat Exchanger (SHE)
Spiral Heat Exchanger (SHE)  Two long strips of plate wrapped to form concentric spirals  Materials: carbon steel, stainless steel and titanium  Operation limits: - Temperatures up to 400°C (depends on gasketed materials) - Pressures up to 25 bar
Plate Fin Heat Exchanger (PFHE)
Plate Fin Heat Exchanger (PFHE)  High area density and handles several streams  Materials: aluminum, corrosion and heat resistant alloys, and stainless steel (available in titanium)  Operation limits: - Temperature limits depend on the material - cryogenic temperature up to 100°C (aluminum) - stainless steel up to 650°C - Pressures up to 100 bar for aluminum and 90 bar for stainless steel
Printed-circuit heat exchangers (PCHE)
Printed-circuit heat exchangers (PCHE)  Flexibility of design and high strength offered by techniques of construction  Materials: Stainless steel 316L, alloys, nickel and titanium.  Operating limits: - temperature ranges from -200°C to 900°C - pressures up to 400 bar
Compact Shell-and-Tube Heat Exchanger To increase surface area, this equipment has a large number of small diameter tubes
Other Types of CHE  Compact types retaining a shell  APV Paratube Heat Exchanger  Fluidized Bed Heat Exchanger  Twisted Tube Heat Exchanger
Advantages and Limitations  Improved energy efficiency - Closer approach temperatures allows greater energy transfer.  Smaller volume and weight  Higher efficiency  Lower cost  Multi-stream and multi-pass configurations  Tighter temperature control  Power savings  Improved safety
Limitations  Lack of industrial awareness Companies remain aware of technology of CHE  Limited choice Particularly for high-pressure  Conservatism in the user industries Process industries are reluctant to adopt what they may seen either as new technologies.  Susceptibility to fouling Perception that small passages are likely to foul.
Cost of compact heat exchangers  Compact heat exchanger tend to be cheaper especially when their total installed cost is considered.  In some cases the materials used to manufacture is expensive, but when we consider the cost of unit plus the installation, the cost is less than equivalent shell and tube.
Cost of compact heat exchangers
Fouling  Crystallization or precipitation Solutes in the fluid is precipitated and crystals are formed  Particulate fouling or silting Solid particles are deposited on the heat transfer surface  Biological fouling Deposition and growth of organism on surfaces  Corrosion fouling Carrying of corrosion products from other part of the system being left on the heat transfer area surface  Chemical reaction fouling Arises from reactions between constituents in the process fluids  Freezing or solidification fouling Occurs when the temperature of a fluid passing through a heat exchanger becomes too low
Security Aspects  Fouling: - Use of non-fouling fluids wherever possible is of course recommended, for example clean air or gases, light carbons and refrigerants. - In open systems, check the possible application of self-cleaning strainers, and the installation of systems to dose with biocides, scale inhibitors, etc., to control fouling. - Use self-cleaning filter if possible - Consider chemical cleaning. If this is undertaken, the system must be designed to allow the introduction and complete removal of cleaning fluids.
Corrosion:  In some CHEs, the wall thicknesses are less than in a shell-and-tube heat exchanger, so corrosion rates and allowances need to be accessed carefully  Although CHEs are often made from more corrosion- resistant materials than the shell-and-tube units, other corrosion mechanisms such as cracking may occur, and the compatibility of the material with the fluids in the CHE should be checked.
Design  Analysis based on ε and Ntu method  Convection and friction coefficients have been determined by Kays and London.  Some data of design can be supplied by manufacturers.  Results for heat transfer and friction factors for circular tube- circular fin and for circular tubes – continuous fin.
  VA fr m m G V max A ff A ff A fr A ff área mínima flujo libre A fr área frontal 2 /3 jH St Pr St h /Gc p G V max Re GD h /
2 /3 jH St Pr   VA fr m m G V max A ff A ff A fr St h /Gc p A ff área mínima flujo libre G V max A fr área frontal Re GD h /
Environmental Aspects  Energy conservation and environmental considerations are the driving forces behind changes aimed at reducing both chemical and thermal waste.  More efficient use of energy and raw materials  Recovery of heats of reaction  High intensity mixing, enhancing process selectivity  Minimum risk of runaway reactions  Smaller and cheaper plant  Ability to handle high-pressure reactions
Conclusion  Compact heat exchangers are available in a wide variety of configurations to suit most processes heat transfer requirements.  The advantages of CHEs, and associated heat transfer enhancement techniques, extend far beyond energy efficiency.  Lower capital cost, reduced plant size, and increased safety are typical of the benefits arising from the use of CHEs.  Compact heat exchangers can replace some normal size heat exchangers bringing advantages and performance.
Conclusion  This research took a lot of time, since the specific details of a theme like this take time to search.  Even though it took time, I really enjoyed making this presentation.
References  ADVANCES IN COMPACT HEAT EXCHANGERS. (n.d.). Retrieved March 5, 2009, from http://www.rtedwards.com/books/164/index.html  Al-Qahtani, Abdullah Mushabbab Zuhair, M.S., 2008, Design and operate a fouling monitoring device to study fouling at twisted tube. King Fahd University of Petroleum and Minerals (Saudi Arabia), 171 pages; AAT 1456206.  An Assessment of the Performance and Requirements for quot;Adiabaticquot; Engines. (1988, May 27). Science Magazine, 240, 1157-1162. Retrieved March 5, 2009, from http://library.uprm.edu:2132/cgi/content/abstract/sci;240/4856/1157?maxtoshow=&HITS =10&hits=10&RESULTFORMAT=&fulltext=heat+exchangers&searchid=1&FIRSTINDEX=1 0&resourcetype=HWCIT  Bell, L. E. (2008, September 12). Cooling, Heating, Generating Power, and Recovering Waste Heat with Thermoelectric Systems . Science Magazine, 321, 1457-1461. Retrieved March 5, 2009, from http://library.uprm.edu:2132/cgi/content/abstract/sci;321/5895/1457?maxtoshow=&HITS =10&hits=10&RESULTFORMAT=&fulltext=heat+exchangers&searchid=1&FIRSTINDEX=0 &resourcetype=HWCIT
References  Compact Heat Exchangers. (n.d.). Retrieved March 5, 2009, from http://www.eca.gov.uk/etl/find/_85.htm  Designing Shell and Tube Heat Exchangers. (n.d.). Retrieved March 5, 2009, from http://www.cheresources.com/designexzz.shtml  Energy Savers: Heat Exchangers for Solar Water Heating Systems. (n.d.). Retrieved March 5, 2009, from http://www.energysavers.gov/your_home/water_heating/index.cfm/m ytopic=12930  Enhanced, Compact and Ultra-Compact Heat Exchangers: Science, Engineering and Technology. (n.d.). Retrieved March 5, 2009, from http://services.bepress.com/eci/heatexchangerfall2005/
References  Hawkins, G. A. (1954, December 10). Heat Transmission. Science Magazine, 532.  Heat Exchangers - Shell & Tube, Plate, Air-Cooled : API Heat Transfer. (n.d.). Retrieved March 5, 2009, from http://www.apiheattransfer.com/  Heat Exchangers for the HVAC Industry. (n.d.). Retrieved March 5, 2009, from http://www.heatexchangersonline.com/  Heat Exchangers. (n.d.). Retrieved March 5, 2009, from http://www.flatplate.com/?gclid=CNbbnaC1pZoCFRKIxwodJDnU8w  Heat Transfer Engineering. (1979, January 8). Heat Transfer Engineering, 1, pp. 2.  JM Heat Exchangers - Heat Transfer Specialists. Shell & Tube Exchangers, Fin Coils, Calorifiers, Plate Heat Exchangers, Charge Air Coolers, Fin Fan Exchangers. (n.d.). Retrieved March 5, 2009, from http://www.jmheatexchangers.com/
References  Macro Power from Micro Machinery. (1997, May 23). Science Magazine, 276, 1211. Retrieved March 5, 2009, from http://library.uprm.edu:2132/cgi/content/summary/sci;276/5316/1211?maxtoshow=&HITS =10&hits=10&RESULTFORMAT=&fulltext=heat+exchangers&searchid=1&FIRSTINDEX=0 &resourcetype=HWCIT  Veronica, Daniel Alexander, Ph.D., 2008, Detecting heat exchanger fouling automatically with an embedded data-driven agent using expert signature maps. University of Colorado at Boulder, 245 pages; AAT 3303899  (2004). Compact Multifunctional Heat Exchangers: A Pathway to Process Intensification. Grenoble, France: CEA-Grenoble.  (2001). Handbook of Heating, Ventilation, and Air Conditioning. Boca Raton: CRC Press LLC.  (2003). Heat Transfer in Single and Multiphase Systems. Boca Raton: CRC Press LLC.  (2000). The CRC Handbook of Thermal Engineering. Boca Raton: CRC Press LLC.

Recomendados

presentation on heat exchanger
presentation on heat exchangerpresentation on heat exchanger
presentation on heat exchangerAyush Upadhyay
 
Design of condenser
Design of condenserDesign of condenser
Design of condenserSohail Ahmad Malik
 
Design method for shell tube heat exchanger
Design method for shell tube heat exchangerDesign method for shell tube heat exchanger
Design method for shell tube heat exchangerKarnav Rana
 
Double pipe heat exchanger
Double pipe heat exchangerDouble pipe heat exchanger
Double pipe heat exchangerwisdomvalley
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangersRijumoni Boro
 
Heat Exchangers
Heat ExchangersHeat Exchangers
Heat ExchangersNAVEEN KUMAR
 
condensation
condensationcondensation
condensationMahaswari Jogia
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangersChirag Savasadiya
 

Recomendados

presentation on heat exchanger
presentation on heat exchangerpresentation on heat exchanger
presentation on heat exchangerAyush Upadhyay
 
Design of condenser
Design of condenserDesign of condenser
Design of condenserSohail Ahmad Malik
 
Design method for shell tube heat exchanger
Design method for shell tube heat exchangerDesign method for shell tube heat exchanger
Design method for shell tube heat exchangerKarnav Rana
 
Double pipe heat exchanger
Double pipe heat exchangerDouble pipe heat exchanger
Double pipe heat exchangerwisdomvalley
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangersRijumoni Boro
 
Heat Exchangers
Heat ExchangersHeat Exchangers
Heat ExchangersNAVEEN KUMAR
 
condensation
condensationcondensation
condensationMahaswari Jogia
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangersChirag Savasadiya
 
Heat exchangers and types
Heat exchangers and typesHeat exchangers and types
Heat exchangers and typesGopesh Chilveri
 
Heat exchanger
Heat exchangerHeat exchanger
Heat exchangermuhammad abdullah irshad
 
Heat transfer applications in oil and gas industry
Heat transfer applications in oil and gas industry Heat transfer applications in oil and gas industry
Heat transfer applications in oil and gas industry abdulsamad alhamawande
 
cooling towers
cooling towerscooling towers
cooling towersKhalid Nawaz
 
Heat and Mass Transfer Basics
Heat and Mass Transfer BasicsHeat and Mass Transfer Basics
Heat and Mass Transfer BasicsMayavan T
 
Heat exchanger design.
Heat exchanger design.Heat exchanger design.
Heat exchanger design.Brhane Amha Tesfahunegn
 
Nanofluid Heat Pipes 2015 Symposium.pptx
Nanofluid Heat Pipes 2015 Symposium.pptxNanofluid Heat Pipes 2015 Symposium.pptx
Nanofluid Heat Pipes 2015 Symposium.pptxSyukrirashiduhakim Subandi
 
Cooling towers
Cooling towersCooling towers
Cooling towersctlin5
 
vapour compression refrigeration system
vapour compression refrigeration systemvapour compression refrigeration system
vapour compression refrigeration systemAbhishek Choksi
 
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
 
Selection and Design of Condensers
Selection and Design of CondensersSelection and Design of Condensers
Selection and Design of CondensersGerard B. Hawkins
 
Se prod thermo_chapter_5_refrigeration
Se prod thermo_chapter_5_refrigerationSe prod thermo_chapter_5_refrigeration
Se prod thermo_chapter_5_refrigerationVJTI Production
 
cooling towers system .pdf
cooling towers system .pdfcooling towers system .pdf
cooling towers system .pdfKarnav Rana
 
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
 
Compact heat exchangers
Compact heat exchangersCompact heat exchangers
Compact heat exchangersHarshad Kangane
 
Plate type heat exchanger
Plate type heat exchangerPlate type heat exchanger
Plate type heat exchangerPankaj Nishant
 
Boiling & condensation
Boiling & condensationBoiling & condensation
Boiling & condensationziad zohdy
 
Fans and blower
Fans and blowerFans and blower
Fans and blowerAbhishek Mendhe
 
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 exchanger
Heat exchangerHeat exchanger
Heat exchangerAshutosh
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangersAmmar Ashraf
 
Heat Exchangers
Heat ExchangersHeat Exchangers
Heat ExchangersSABIC
 

Mais conteúdo relacionado

Mais procurados

Heat exchangers and types
Heat exchangers and typesHeat exchangers and types
Heat exchangers and typesGopesh Chilveri
 
Heat transfer applications in oil and gas industry
Heat transfer applications in oil and gas industry Heat transfer applications in oil and gas industry
Heat transfer applications in oil and gas industry abdulsamad alhamawande
 
Heat and Mass Transfer Basics
Heat and Mass Transfer BasicsHeat and Mass Transfer Basics
Heat and Mass Transfer BasicsMayavan T
 
Cooling towers
Cooling towersCooling towers
Cooling towersctlin5
 
vapour compression refrigeration system
vapour compression refrigeration systemvapour compression refrigeration system
vapour compression refrigeration systemAbhishek Choksi
 
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
 
Selection and Design of Condensers
Selection and Design of CondensersSelection and Design of Condensers
Selection and Design of CondensersGerard B. Hawkins
 
Se prod thermo_chapter_5_refrigeration
Se prod thermo_chapter_5_refrigerationSe prod thermo_chapter_5_refrigeration
Se prod thermo_chapter_5_refrigerationVJTI Production
 
cooling towers system .pdf
cooling towers system .pdfcooling towers system .pdf
cooling towers system .pdfKarnav Rana
 
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
 
Plate type heat exchanger
Plate type heat exchangerPlate type heat exchanger
Plate type heat exchangerPankaj Nishant
 
Boiling & condensation
Boiling & condensationBoiling & condensation
Boiling & condensationziad zohdy
 
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 exchanger
Heat exchangerHeat exchanger
Heat exchangerAshutosh
 

Mais procurados (20)

Heat exchangers and types
Heat exchangers and typesHeat exchangers and types
Heat exchangers and types
 
Heat exchanger
Heat exchangerHeat exchanger
Heat exchanger
 
Heat transfer applications in oil and gas industry
Heat transfer applications in oil and gas industry Heat transfer applications in oil and gas industry
Heat transfer applications in oil and gas industry
 
cooling towers
cooling towerscooling towers
cooling towers
 
Heat and Mass Transfer Basics
Heat and Mass Transfer BasicsHeat and Mass Transfer Basics
Heat and Mass Transfer Basics
 
Heat exchanger design.
Heat exchanger design.Heat exchanger design.
Heat exchanger design.
 
Nanofluid Heat Pipes 2015 Symposium.pptx
Nanofluid Heat Pipes 2015 Symposium.pptxNanofluid Heat Pipes 2015 Symposium.pptx
Nanofluid Heat Pipes 2015 Symposium.pptx
 
Cooling towers
Cooling towersCooling towers
Cooling towers
 
vapour compression refrigeration system
vapour compression refrigeration systemvapour compression refrigeration system
vapour compression refrigeration system
 
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
 
Selection and Design of Condensers
Selection and Design of CondensersSelection and Design of Condensers
Selection and Design of Condensers
 
Se prod thermo_chapter_5_refrigeration
Se prod thermo_chapter_5_refrigerationSe prod thermo_chapter_5_refrigeration
Se prod thermo_chapter_5_refrigeration
 
cooling towers system .pdf
cooling towers system .pdfcooling towers system .pdf
cooling towers system .pdf
 
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
 
Compact heat exchangers
Compact heat exchangersCompact heat exchangers
Compact heat exchangers
 
Plate type heat exchanger
Plate type heat exchangerPlate type heat exchanger
Plate type heat exchanger
 
Boiling & condensation
Boiling & condensationBoiling & condensation
Boiling & condensation
 
Fans and blower
Fans and blowerFans and blower
Fans and blower
 
Presentation on Filmwise and Dropwise Condensation
Presentation on Filmwise and Dropwise CondensationPresentation on Filmwise and Dropwise Condensation
Presentation on Filmwise and Dropwise Condensation
 
Heat exchanger
Heat exchangerHeat exchanger
Heat exchanger
 

Destaque

Heat Exchangers
Heat ExchangersHeat Exchangers
Heat ExchangersSABIC
 
Heat Exchangers
Heat ExchangersHeat Exchangers
Heat Exchangersmohkab1
 
Heat exchanger design handbook
Heat exchanger design handbookHeat exchanger design handbook
Heat exchanger design handbookvijayabhaskar83
 
Classification Of Heat Exchanger
Classification Of Heat ExchangerClassification Of Heat Exchanger
Classification Of Heat ExchangerKJ Savaliya
 
heat exchangers of bioprocess industries
heat exchangers of bioprocess industriesheat exchangers of bioprocess industries
heat exchangers of bioprocess industriesshalinikaushik
 
New shell & tube heat exchanger
New shell & tube heat exchangerNew shell & tube heat exchanger
New shell & tube heat exchangervatsalpateln
 
Shell and tube heat exchanger design
Shell and tube heat exchanger designShell and tube heat exchanger design
Shell and tube heat exchanger designhossie
 
Heat exchanger
Heat exchangerHeat exchanger
Heat exchangerFertiglobe
 
Selection of Heat Exchanger Types
Selection of Heat Exchanger TypesSelection of Heat Exchanger Types
Selection of Heat Exchanger TypesGerard B. Hawkins
 
Fundamentals of heat exchanger design
Fundamentals of heat exchanger designFundamentals of heat exchanger design
Fundamentals of heat exchanger designJuan Guillermo
 
AIR COOLED HEAT EXCHANGER
AIR COOLED HEAT EXCHANGERAIR COOLED HEAT EXCHANGER
AIR COOLED HEAT EXCHANGERAhsan Shakil
 

Destaque (20)

Heat exchangers
Heat exchangersHeat exchangers
Heat exchangers
 
Heat Exchangers
Heat ExchangersHeat Exchangers
Heat Exchangers
 
Heat Exchangers
Heat ExchangersHeat Exchangers
Heat Exchangers
 
HEAT EXCHANGERS
HEAT EXCHANGERSHEAT EXCHANGERS
HEAT EXCHANGERS
 
Heat exchanger design handbook
Heat exchanger design handbookHeat exchanger design handbook
Heat exchanger design handbook
 
Classification Of Heat Exchanger
Classification Of Heat ExchangerClassification Of Heat Exchanger
Classification Of Heat Exchanger
 
heat exchangers of bioprocess industries
heat exchangers of bioprocess industriesheat exchangers of bioprocess industries
heat exchangers of bioprocess industries
 
New shell & tube heat exchanger
New shell & tube heat exchangerNew shell & tube heat exchanger
New shell & tube heat exchanger
 
Shell and tube heat exchanger design
Shell and tube heat exchanger designShell and tube heat exchanger design
Shell and tube heat exchanger design
 
types of heat exchanger
types of heat exchangertypes of heat exchanger
types of heat exchanger
 
Heat exchanger
Heat exchangerHeat exchanger
Heat exchanger
 
Heat Exchanger
Heat ExchangerHeat Exchanger
Heat Exchanger
 
Heat exchanger
Heat exchangerHeat exchanger
Heat exchanger
 
Selection of Heat Exchanger Types
Selection of Heat Exchanger TypesSelection of Heat Exchanger Types
Selection of Heat Exchanger Types
 
Heat exchangers
Heat exchangersHeat exchangers
Heat exchangers
 
Heat exchanger
Heat exchanger Heat exchanger
Heat exchanger
 
Fundamentals of heat exchanger design
Fundamentals of heat exchanger designFundamentals of heat exchanger design
Fundamentals of heat exchanger design
 
Heatexchangers
Heatexchangers Heatexchangers
Heatexchangers
 
Summary of lmtd and e ntu
Summary of lmtd and e ntuSummary of lmtd and e ntu
Summary of lmtd and e ntu
 
AIR COOLED HEAT EXCHANGER
AIR COOLED HEAT EXCHANGERAIR COOLED HEAT EXCHANGER
AIR COOLED HEAT EXCHANGER
 

Semelhante a Compact Heat Exchangers

cfakepathcompactheatexchangersintd-090513122457-phpapp02
cfakepathcompactheatexchangersintd-090513122457-phpapp02cfakepathcompactheatexchangersintd-090513122457-phpapp02
cfakepathcompactheatexchangersintd-090513122457-phpapp02MOHAMED ADLY
 
DESIGN AND FABRICATION OF HELICAL TUBE IN COIL TYPE HEAT EXCHANGER
DESIGN AND FABRICATION OF HELICAL TUBE IN COIL TYPE HEAT EXCHANGERDESIGN AND FABRICATION OF HELICAL TUBE IN COIL TYPE HEAT EXCHANGER
DESIGN AND FABRICATION OF HELICAL TUBE IN COIL TYPE HEAT EXCHANGERhemantnehete
 
IRJET- A Review on Basics of Heat Exchanger
IRJET- A Review on Basics of Heat ExchangerIRJET- A Review on Basics of Heat Exchanger
IRJET- A Review on Basics of Heat ExchangerIRJET Journal
 
heat exchanger
heat exchangerheat exchanger
heat exchangerShanu Jp
 
design and experimenta study on nanofluid heat pipes
design and experimenta study on nanofluid heat pipesdesign and experimenta study on nanofluid heat pipes
design and experimenta study on nanofluid heat pipeskishor baldaniya
 
Ijri te-03-012 design and optimization of water cool condenser for central ai...
Ijri te-03-012 design and optimization of water cool condenser for central ai...Ijri te-03-012 design and optimization of water cool condenser for central ai...
Ijri te-03-012 design and optimization of water cool condenser for central ai...Ijripublishers Ijri
 
ammonia water (NH3-H2o) diffusion vapor absorption refrigeration system
ammonia water (NH3-H2o) diffusion vapor absorption refrigeration systemammonia water (NH3-H2o) diffusion vapor absorption refrigeration system
ammonia water (NH3-H2o) diffusion vapor absorption refrigeration systemJagannath1234
 
IRJET- Double Pipe Heat Exchanger with Spiral Flow
IRJET- Double Pipe Heat Exchanger with Spiral FlowIRJET- Double Pipe Heat Exchanger with Spiral Flow
IRJET- Double Pipe Heat Exchanger with Spiral FlowIRJET Journal
 
Kalepa Tech Engineering V09
Kalepa Tech Engineering V09Kalepa Tech Engineering V09
Kalepa Tech Engineering V09kceridon
 
Heat transfer enhancement
Heat transfer enhancementHeat transfer enhancement
Heat transfer enhancementsmilingshekhar
 
Heat exchanger series part-1
Heat exchanger series part-1Heat exchanger series part-1
Heat exchanger series part-1pmdeshpande4
 
Heat exchanger series Part-1
Heat exchanger series Part-1Heat exchanger series Part-1
Heat exchanger series Part-1pmdeshpande4
 
Enhancement of heat transfer in tube in-tube heat exchangers using twisted in...
Enhancement of heat transfer in tube in-tube heat exchangers using twisted in...Enhancement of heat transfer in tube in-tube heat exchangers using twisted in...
Enhancement of heat transfer in tube in-tube heat exchangers using twisted in...Ijrdt Journal
 
Ijri te-03-011 performance testing of vortex tubes with variable parameters
Ijri te-03-011 performance testing of vortex tubes with variable parametersIjri te-03-011 performance testing of vortex tubes with variable parameters
Ijri te-03-011 performance testing of vortex tubes with variable parametersIjripublishers Ijri
 
Analysis of Double Pipe Heat Exchanger With Helical Fins
Analysis of Double Pipe Heat Exchanger With Helical FinsAnalysis of Double Pipe Heat Exchanger With Helical Fins
Analysis of Double Pipe Heat Exchanger With Helical FinsIRJET Journal
 
Heat exchanger design
Heat exchanger designHeat exchanger design
Heat exchanger designadnanali309
 
Design and Analysis of Heat Exchanger for Maximum Heat Transfer Rate (Multi M...
Design and Analysis of Heat Exchanger for Maximum Heat Transfer Rate (Multi M...Design and Analysis of Heat Exchanger for Maximum Heat Transfer Rate (Multi M...
Design and Analysis of Heat Exchanger for Maximum Heat Transfer Rate (Multi M...IRJET Journal
 
Heat transfer enhancement in super heater tube using
Heat transfer enhancement in super heater tube usingHeat transfer enhancement in super heater tube using
Heat transfer enhancement in super heater tube usingeSAT Publishing House
 

Semelhante a Compact Heat Exchangers (20)

cfakepathcompactheatexchangersintd-090513122457-phpapp02
cfakepathcompactheatexchangersintd-090513122457-phpapp02cfakepathcompactheatexchangersintd-090513122457-phpapp02
cfakepathcompactheatexchangersintd-090513122457-phpapp02
 
DESIGN AND FABRICATION OF HELICAL TUBE IN COIL TYPE HEAT EXCHANGER
DESIGN AND FABRICATION OF HELICAL TUBE IN COIL TYPE HEAT EXCHANGERDESIGN AND FABRICATION OF HELICAL TUBE IN COIL TYPE HEAT EXCHANGER
DESIGN AND FABRICATION OF HELICAL TUBE IN COIL TYPE HEAT EXCHANGER
 
IRJET- A Review on Basics of Heat Exchanger
IRJET- A Review on Basics of Heat ExchangerIRJET- A Review on Basics of Heat Exchanger
IRJET- A Review on Basics of Heat Exchanger
 
heat exchanger
heat exchangerheat exchanger
heat exchanger
 
design and experimenta study on nanofluid heat pipes
design and experimenta study on nanofluid heat pipesdesign and experimenta study on nanofluid heat pipes
design and experimenta study on nanofluid heat pipes
 
Ijri te-03-012 design and optimization of water cool condenser for central ai...
Ijri te-03-012 design and optimization of water cool condenser for central ai...Ijri te-03-012 design and optimization of water cool condenser for central ai...
Ijri te-03-012 design and optimization of water cool condenser for central ai...
 
ammonia water (NH3-H2o) diffusion vapor absorption refrigeration system
ammonia water (NH3-H2o) diffusion vapor absorption refrigeration systemammonia water (NH3-H2o) diffusion vapor absorption refrigeration system
ammonia water (NH3-H2o) diffusion vapor absorption refrigeration system
 
IRJET- Double Pipe Heat Exchanger with Spiral Flow
IRJET- Double Pipe Heat Exchanger with Spiral FlowIRJET- Double Pipe Heat Exchanger with Spiral Flow
IRJET- Double Pipe Heat Exchanger with Spiral Flow
 
Kalepa Tech Engineering V09
Kalepa Tech Engineering V09Kalepa Tech Engineering V09
Kalepa Tech Engineering V09
 
Heat transfer enhancement
Heat transfer enhancementHeat transfer enhancement
Heat transfer enhancement
 
Heat exchanger series part-1
Heat exchanger series part-1Heat exchanger series part-1
Heat exchanger series part-1
 
Heat exchanger series Part-1
Heat exchanger series Part-1Heat exchanger series Part-1
Heat exchanger series Part-1
 
Enhancement of heat transfer in tube in-tube heat exchangers using twisted in...
Enhancement of heat transfer in tube in-tube heat exchangers using twisted in...Enhancement of heat transfer in tube in-tube heat exchangers using twisted in...
Enhancement of heat transfer in tube in-tube heat exchangers using twisted in...
 
[IJET V2I4P7] Authors: Pravin S.Nikam, Prof. R. Y. Patil, Prof. D.A. Patil, P...
[IJET V2I4P7] Authors: Pravin S.Nikam, Prof. R. Y. Patil, Prof. D.A. Patil, P...[IJET V2I4P7] Authors: Pravin S.Nikam, Prof. R. Y. Patil, Prof. D.A. Patil, P...
[IJET V2I4P7] Authors: Pravin S.Nikam, Prof. R. Y. Patil, Prof. D.A. Patil, P...
 
Ijri te-03-011 performance testing of vortex tubes with variable parameters
Ijri te-03-011 performance testing of vortex tubes with variable parametersIjri te-03-011 performance testing of vortex tubes with variable parameters
Ijri te-03-011 performance testing of vortex tubes with variable parameters
 
Analysis of Double Pipe Heat Exchanger With Helical Fins
Analysis of Double Pipe Heat Exchanger With Helical FinsAnalysis of Double Pipe Heat Exchanger With Helical Fins
Analysis of Double Pipe Heat Exchanger With Helical Fins
 
Plasma Torch Technology
Plasma Torch TechnologyPlasma Torch Technology
Plasma Torch Technology
 
Heat exchanger design
Heat exchanger designHeat exchanger design
Heat exchanger design
 
Design and Analysis of Heat Exchanger for Maximum Heat Transfer Rate (Multi M...
Design and Analysis of Heat Exchanger for Maximum Heat Transfer Rate (Multi M...Design and Analysis of Heat Exchanger for Maximum Heat Transfer Rate (Multi M...
Design and Analysis of Heat Exchanger for Maximum Heat Transfer Rate (Multi M...
 
Heat transfer enhancement in super heater tube using
Heat transfer enhancement in super heater tube usingHeat transfer enhancement in super heater tube using
Heat transfer enhancement in super heater tube using
 

Último

social pharmacy d-pharm 1st year by Pragati K. Mahajan
social pharmacy d-pharm 1st year by Pragati K. Mahajansocial pharmacy d-pharm 1st year by Pragati K. Mahajan
social pharmacy d-pharm 1st year by Pragati K. Mahajanpragatimahajan3
 
Interactive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communicationInteractive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communicationnomboosow
 
Grant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingGrant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingTechSoup
 
Arihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfArihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfchloefrazer622
 
Web & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfWeb & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfJayanti Pande
 
The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13Steve Thomason
 
APM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across SectorsAPM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across SectorsAssociation for Project Management
 
Organic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptxOrganic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptxVS Mahajan Coaching Centre
 
microwave assisted reaction. General introduction
microwave assisted reaction. General introductionmicrowave assisted reaction. General introduction
microwave assisted reaction. General introductionMaksud Ahmed
 
Sanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdfSanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdfsanyamsingh5019
 
mini mental status format.docx
mini mental status format.docxmini mental status format.docx
mini mental status format.docxPoojaSen20
 
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptxPOINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptxSayali Powar
 
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...Pooja Nehwal
 
9548086042 for call girls in Indira Nagar with room service
9548086042 for call girls in Indira Nagar with room service9548086042 for call girls in Indira Nagar with room service
9548086042 for call girls in Indira Nagar with room servicediscovermytutordmt
 
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...EduSkills OECD
 
Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)eniolaolutunde
 
Beyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global ImpactBeyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global ImpactPECB
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxheathfieldcps1
 
Kisan Call Centre - To harness potential of ICT in Agriculture by answer farm...
Kisan Call Centre - To harness potential of ICT in Agriculture by answer farm...Kisan Call Centre - To harness potential of ICT in Agriculture by answer farm...
Kisan Call Centre - To harness potential of ICT in Agriculture by answer farm...Krashi Coaching
 
Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104misteraugie
 

Último (20)

social pharmacy d-pharm 1st year by Pragati K. Mahajan
social pharmacy d-pharm 1st year by Pragati K. Mahajansocial pharmacy d-pharm 1st year by Pragati K. Mahajan
social pharmacy d-pharm 1st year by Pragati K. Mahajan
 
Interactive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communicationInteractive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communication
 
Grant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingGrant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy Consulting
 
Arihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfArihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdf
 
Web & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfWeb & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdf
 
The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13
 
APM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across SectorsAPM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across Sectors
 
Organic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptxOrganic Name Reactions for the students and aspirants of Chemistry12th.pptx
Organic Name Reactions for the students and aspirants of Chemistry12th.pptx
 
microwave assisted reaction. General introduction
microwave assisted reaction. General introductionmicrowave assisted reaction. General introduction
microwave assisted reaction. General introduction
 
Sanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdfSanyam Choudhary Chemistry practical.pdf
Sanyam Choudhary Chemistry practical.pdf
 
mini mental status format.docx
mini mental status format.docxmini mental status format.docx
mini mental status format.docx
 
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptxPOINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
POINT- BIOCHEMISTRY SEM 2 ENZYMES UNIT 5.pptx
 
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
 
9548086042 for call girls in Indira Nagar with room service
9548086042 for call girls in Indira Nagar with room service9548086042 for call girls in Indira Nagar with room service
9548086042 for call girls in Indira Nagar with room service
 
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
 
Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)
 
Beyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global ImpactBeyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global Impact
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptx
 
Kisan Call Centre - To harness potential of ICT in Agriculture by answer farm...
Kisan Call Centre - To harness potential of ICT in Agriculture by answer farm...Kisan Call Centre - To harness potential of ICT in Agriculture by answer farm...
Kisan Call Centre - To harness potential of ICT in Agriculture by answer farm...
 
Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104
 

Compact Heat Exchangers

  • 1. Adlin Miranda Morales INTD 3355 Prof. Liz Pagan
  • 2. Agenda  What is a compact heat exchanger?  Types  Advantages and limitations  Cost of heat exchangers  Fouling  Security and Environmental aspect  Design  Conclusion
  • 3. Basic Definitions  Heat exchanger: apparatus that has two streams of fluid that exchange temperatures in order to heat or cool the system.  Fouling: type of contamination in the heat exchanger that can damage its purpose.
  • 4. Description  Basically this presentation focuses on what are compact heat exchangers, the various types, costs, advantages and disadvantages and how fouling may affect.  The main option for research was internet and the library ( books, journals, thesis, etc.)
  • 5. What is a Compact Heat Exchanger?  Area density greater than 700 m2/m3 for gas or greater than 300 m2/m3 when operating in liquid or two-phase streams.  Highly efficient  Reduce volume, weight and cost
  • 6. Types of CHEs  Plate and frame heat exchangers: (PHE)
  • 7. Plate and Frame Heat Exchanger  Most common type of PHE  Consists of plates and gaskets  Materials: stainless steel, titanium and non-metallic  Operation limits: - temperatures from -35°C to 220°C - pressures up to 25 bar - flow rate up to 5000 m3/h
  • 8. Brazed Plate Heat Exchanger (PHE)
  • 9. Brazed Plate Heat Exchanger  Operates at higher pressures than gasketed units  Materials: stainless steel, copper contained braze  Operating limits: - From -195°C to 200°C - Pressures up to 30 bar  It is impossible to clean. The only way is by applying chemicals.
  • 10. Welded Plate Heat Exchanger (PHE)
  • 11. Welded Plate Heat Exchanger  Plates welded together to increase pressure and temperature limits  Materials: stainless steal and nickel based alloys. Can be made with copper , titanium or graphite  Operation Limits: - temperature limits depend on the material - can tolerate pressures in excess of 60 bar
  • 13. Spiral Heat Exchanger (SHE)  Two long strips of plate wrapped to form concentric spirals  Materials: carbon steel, stainless steel and titanium  Operation limits: - Temperatures up to 400°C (depends on gasketed materials) - Pressures up to 25 bar
  • 14. Plate Fin Heat Exchanger (PFHE)
  • 15. Plate Fin Heat Exchanger (PFHE)  High area density and handles several streams  Materials: aluminum, corrosion and heat resistant alloys, and stainless steel (available in titanium)  Operation limits: - Temperature limits depend on the material - cryogenic temperature up to 100°C (aluminum) - stainless steel up to 650°C - Pressures up to 100 bar for aluminum and 90 bar for stainless steel
  • 17. Printed-circuit heat exchangers (PCHE)  Flexibility of design and high strength offered by techniques of construction  Materials: Stainless steel 316L, alloys, nickel and titanium.  Operating limits: - temperature ranges from -200°C to 900°C - pressures up to 400 bar
  • 18. Compact Shell-and-Tube Heat Exchanger To increase surface area, this equipment has a large number of small diameter tubes
  • 19. Other Types of CHE  Compact types retaining a shell  APV Paratube Heat Exchanger  Fluidized Bed Heat Exchanger  Twisted Tube Heat Exchanger
  • 20. Advantages and Limitations  Improved energy efficiency - Closer approach temperatures allows greater energy transfer.  Smaller volume and weight  Higher efficiency  Lower cost  Multi-stream and multi-pass configurations  Tighter temperature control  Power savings  Improved safety
  • 21. Limitations  Lack of industrial awareness Companies remain aware of technology of CHE  Limited choice Particularly for high-pressure  Conservatism in the user industries Process industries are reluctant to adopt what they may seen either as new technologies.  Susceptibility to fouling Perception that small passages are likely to foul.
  • 22. Cost of compact heat exchangers  Compact heat exchanger tend to be cheaper especially when their total installed cost is considered.  In some cases the materials used to manufacture is expensive, but when we consider the cost of unit plus the installation, the cost is less than equivalent shell and tube.
  • 23. Cost of compact heat exchangers
  • 24. Fouling  Crystallization or precipitation Solutes in the fluid is precipitated and crystals are formed  Particulate fouling or silting Solid particles are deposited on the heat transfer surface  Biological fouling Deposition and growth of organism on surfaces  Corrosion fouling Carrying of corrosion products from other part of the system being left on the heat transfer area surface  Chemical reaction fouling Arises from reactions between constituents in the process fluids  Freezing or solidification fouling Occurs when the temperature of a fluid passing through a heat exchanger becomes too low
  • 25. Security Aspects  Fouling: - Use of non-fouling fluids wherever possible is of course recommended, for example clean air or gases, light carbons and refrigerants. - In open systems, check the possible application of self-cleaning strainers, and the installation of systems to dose with biocides, scale inhibitors, etc., to control fouling. - Use self-cleaning filter if possible - Consider chemical cleaning. If this is undertaken, the system must be designed to allow the introduction and complete removal of cleaning fluids.
  • 26. Corrosion:  In some CHEs, the wall thicknesses are less than in a shell-and-tube heat exchanger, so corrosion rates and allowances need to be accessed carefully  Although CHEs are often made from more corrosion- resistant materials than the shell-and-tube units, other corrosion mechanisms such as cracking may occur, and the compatibility of the material with the fluids in the CHE should be checked.
  • 27. Design  Analysis based on ε and Ntu method  Convection and friction coefficients have been determined by Kays and London.  Some data of design can be supplied by manufacturers.  Results for heat transfer and friction factors for circular tube- circular fin and for circular tubes – continuous fin.
  • 28.  VA fr m m G V max A ff A ff A fr A ff área mínima flujo libre A fr área frontal 2 /3 jH St Pr St h /Gc p G V max Re GD h /
  • 29. 2 /3 jH St Pr   VA fr m m G V max A ff A ff A fr St h /Gc p A ff área mínima flujo libre G V max A fr área frontal Re GD h /
  • 30. Environmental Aspects  Energy conservation and environmental considerations are the driving forces behind changes aimed at reducing both chemical and thermal waste.  More efficient use of energy and raw materials  Recovery of heats of reaction  High intensity mixing, enhancing process selectivity  Minimum risk of runaway reactions  Smaller and cheaper plant  Ability to handle high-pressure reactions
  • 31. Conclusion  Compact heat exchangers are available in a wide variety of configurations to suit most processes heat transfer requirements.  The advantages of CHEs, and associated heat transfer enhancement techniques, extend far beyond energy efficiency.  Lower capital cost, reduced plant size, and increased safety are typical of the benefits arising from the use of CHEs.  Compact heat exchangers can replace some normal size heat exchangers bringing advantages and performance.
  • 32. Conclusion  This research took a lot of time, since the specific details of a theme like this take time to search.  Even though it took time, I really enjoyed making this presentation.
  • 33. References  ADVANCES IN COMPACT HEAT EXCHANGERS. (n.d.). Retrieved March 5, 2009, from http://www.rtedwards.com/books/164/index.html  Al-Qahtani, Abdullah Mushabbab Zuhair, M.S., 2008, Design and operate a fouling monitoring device to study fouling at twisted tube. King Fahd University of Petroleum and Minerals (Saudi Arabia), 171 pages; AAT 1456206.  An Assessment of the Performance and Requirements for quot;Adiabaticquot; Engines. (1988, May 27). Science Magazine, 240, 1157-1162. Retrieved March 5, 2009, from http://library.uprm.edu:2132/cgi/content/abstract/sci;240/4856/1157?maxtoshow=&HITS =10&hits=10&RESULTFORMAT=&fulltext=heat+exchangers&searchid=1&FIRSTINDEX=1 0&resourcetype=HWCIT  Bell, L. E. (2008, September 12). Cooling, Heating, Generating Power, and Recovering Waste Heat with Thermoelectric Systems . Science Magazine, 321, 1457-1461. Retrieved March 5, 2009, from http://library.uprm.edu:2132/cgi/content/abstract/sci;321/5895/1457?maxtoshow=&HITS =10&hits=10&RESULTFORMAT=&fulltext=heat+exchangers&searchid=1&FIRSTINDEX=0 &resourcetype=HWCIT
  • 34. References  Compact Heat Exchangers. (n.d.). Retrieved March 5, 2009, from http://www.eca.gov.uk/etl/find/_85.htm  Designing Shell and Tube Heat Exchangers. (n.d.). Retrieved March 5, 2009, from http://www.cheresources.com/designexzz.shtml  Energy Savers: Heat Exchangers for Solar Water Heating Systems. (n.d.). Retrieved March 5, 2009, from http://www.energysavers.gov/your_home/water_heating/index.cfm/m ytopic=12930  Enhanced, Compact and Ultra-Compact Heat Exchangers: Science, Engineering and Technology. (n.d.). Retrieved March 5, 2009, from http://services.bepress.com/eci/heatexchangerfall2005/
  • 35. References  Hawkins, G. A. (1954, December 10). Heat Transmission. Science Magazine, 532.  Heat Exchangers - Shell & Tube, Plate, Air-Cooled : API Heat Transfer. (n.d.). Retrieved March 5, 2009, from http://www.apiheattransfer.com/  Heat Exchangers for the HVAC Industry. (n.d.). Retrieved March 5, 2009, from http://www.heatexchangersonline.com/  Heat Exchangers. (n.d.). Retrieved March 5, 2009, from http://www.flatplate.com/?gclid=CNbbnaC1pZoCFRKIxwodJDnU8w  Heat Transfer Engineering. (1979, January 8). Heat Transfer Engineering, 1, pp. 2.  JM Heat Exchangers - Heat Transfer Specialists. Shell & Tube Exchangers, Fin Coils, Calorifiers, Plate Heat Exchangers, Charge Air Coolers, Fin Fan Exchangers. (n.d.). Retrieved March 5, 2009, from http://www.jmheatexchangers.com/
  • 36. References  Macro Power from Micro Machinery. (1997, May 23). Science Magazine, 276, 1211. Retrieved March 5, 2009, from http://library.uprm.edu:2132/cgi/content/summary/sci;276/5316/1211?maxtoshow=&HITS =10&hits=10&RESULTFORMAT=&fulltext=heat+exchangers&searchid=1&FIRSTINDEX=0 &resourcetype=HWCIT  Veronica, Daniel Alexander, Ph.D., 2008, Detecting heat exchanger fouling automatically with an embedded data-driven agent using expert signature maps. University of Colorado at Boulder, 245 pages; AAT 3303899  (2004). Compact Multifunctional Heat Exchangers: A Pathway to Process Intensification. Grenoble, France: CEA-Grenoble.  (2001). Handbook of Heating, Ventilation, and Air Conditioning. Boca Raton: CRC Press LLC.  (2003). Heat Transfer in Single and Multiphase Systems. Boca Raton: CRC Press LLC.  (2000). The CRC Handbook of Thermal Engineering. Boca Raton: CRC Press LLC.