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The shortcut design of distillation intermediate heat exchangersPerreault, George Charles 12 1900 (has links)
No description available.
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Strategies for optimization in heat exchanger network design / by (Frank) Xin X. Zhu.Zhu, Xin X. (Xin Xiong) January 1994 (has links)
Bibliography: leaves 273-287. / xviii, 289 leaves : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / The aim of this thesis is to develop a new method for the conceptual design of heat exchanger networks. The initial designs can be optimized using conventional non-linear optimization techniques in the subset of the problem's initial dimensionality. / Thesis (Ph.D.)--University of Adelaide, Dept. of Chemical Engineering, 1994
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A recursive design method for heat exchanger networks / by Yikai Ren.Ren, Yikai January 2000 (has links)
Last leaf includes a list of publications co-authored by the author during the preparation of this thesis. / Includes bibliographical references (leaves 179-187). / xiv, 188 leaves : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / A novel and reliable method for heat exchanger network synthesis is proposed.The prime objective has been the elimination or reduction of drawbacks inherent in both evolutionary methods and mathematical programming methods while retaining the adevantages of both methods. / Thesis (Ph.D.)--Adelaide University, Dept. of Chemical Engineering, 2001
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Evaluate the use of elliptical finned tubes in heat exchanger design and performance : 'the structural characteristics of finned tubes'Sizani, Xolile L. 04 1900 (has links)
Thesis (MEng)--University of Stellenbosch, 2000. / ENGLISH ABSTRACT: This report describes the Experimental and Numerical Investigations conducted, during
the determination of the structural mechanics of elliptical tubes, viz. the F- and the Atubes.
This report is requested in an endeavour to assist Sasol, who is currently busy
developing and updating specifications on Air Cooled Heat Exchangers.
The objectives of this report therefore are to : (1) determine the strength and the
effectiveness of the tube-to-tube-sheet joints. (2) determine the allowable pressure
limits on the tubes and (3) investigate the effects of thermal load and vibration on the
tube bundle. A series of experiments were conducted to meet these objectives. From a
Shear Load experiment it was found that the maximum allowable axial load on the Fand
the A-tube is 14.55 kN and 20. 86 kN respectively. Fin Plates were found to have
little effect on the bending strength of the tube, w~ilst they have significant effect on the
resistance to volumetric expansion of the tube. In fact the more fins per unit length the
greater the resistance to volumetric expansion of the tube. These conclusions were
drawn from Bending and Pressure Load experiments respectively and supported by
FEM analysis of the tube using NASTRAN.
When the design pressure limit given by the manufacturer (GEA Air Cooled Systems),
were tested using FEM analysis, it was found that they cause no significant deformation
and failure of the tubes. Thermal stresses on the tube bundle greatly affect the first tube
in the first row (row closest to the flanges) of the tube bundle and it is recommended
that provision for thermal expansion be made to reduce these stresses. To reduce
vibrations induced by the fan, it is recommended that the natural frequency of the tube
bundle must not equal the number of blades (N) times the angular frequency (co) of the
fan, or multiples thereof, of each mode of vibration. / AFRIKAANSE OPSOMMING: Hierdie tesis beskrywe die Numeriese en Eksperimentele ondersoeke na die sterkte van
elliptiese verkoelingsbuise, naamlik die F- en A- tipes. Hierdie werk sal Sasol, wat huidiglik
besig is met die opgradering, van spesifikasies vir lugverkoelde hitteuitruilers van nut
wees.
Die doelwitte van hierdie tesis is om: (1) die sterkte en effektiwiteit van die buis laste was
die buis and die buisplaat verdind, te ondersoek, (2) die toelaatbare druklimiete, sowel as
(3) die effek wat hitte en vibrasie op 'n buisbundel het, te ondersoek. 'n Reeks
eksperimente is uitgevoer om hierdie doelwitte te bevredig. 'n Skuifbelastingseksperiment
het aangedui dat die toelaatbare krag wat op 'n F- en A-buis respektiewelik aangewend
kan word 14.55 kN en 20.86 kN is. Die ondersoek het aangetoon dat vinne geen
noemenswaardige effek op die buigsterkte van die buise gehad het nie, maar dat dit 'n
aansienlike verstywingseffek teen volumetriese verandering as gevolg van interne druk,
gehad het. Hierdie gevolgtrekkings is bereik deur die Druk- en Buigtoetse wat numeries
bevestig is met die NASTRAN eindige element analise (EEA) pakket.
EEA het aangetoon dat die druklimiete voorgeskryf deur die buisvervaardiger (GEA Air
Cooled Systems) nie noemenswaardige vervorming van die buise tot gevolg gehad het
nie. Termiese belastings het 'n groot invloed op die eerste buise (die rye naaste aan die
flense) van 'n buisbundel. Die invoeging van uitsettingslaste word aanbeveel om die
spannings hier te verminder. Om vibrasie van die buisbundel te verhoed word aanbeveel
dat die resonansfrekwensie van die buisbundel nie gelyk is aan die aantal lemme (N)
vermenigvuldig met die rotasie frekwensie (co)van die waaier vir elke vibrasiemode.
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Natural and mixed convection in a horizontal cylindrical annulus with and without fins on inner cylinderBegum, Latifa. January 2007 (has links)
Determination of the heat transfer coefficients for natural and mixed convection in horizontal annuli is important for designing double pipe heat exchangers and for energy storage systems. In part one and two of this study, the 2D numerical solution of the laminar natural convection of water in six internally finned horizontal annuli has been obtained. The fins are attached to the external surface of the inner cylinder. Only the symmetrical half of the horizontal annulus with three equally spaced longitudinal divergent solid and porous fins are considered. The parameters of the problem are Rayleigh number, fin height, permeability and porosity of the porous fin, etc. The above parameters are suitably varied to ascertain their effects on fluid flow and heat transfer. The results show that traditional solid fins provide much higher heat transfer rates compared to the porous fins. Part three of this work deals with mixed convective heat transfer (laminar natural and forced convections) of water in a vented annulus. The forced flow conditions are imposed by providing an inlet at the top and an outlet at the bottom. For various parameters of the problem, the average and local Nusselt numbers along the inner cylinder are calculated for water for both aiding and opposing flows. The fourth part of this study deals with numerical modeling of natural convection of nanofluids in a horizontal cylindrical annulus. Simulations are carried out for Cu-water nanofluids. The results, in general, show that nanoparticles systematically decrease the natural convective heat transfer coefficient on the inner cylinder. Practical and useful correlations are provided for calculating average heat transfer rates from the inner cylinder in the form of average equivalent thermal conductivity and average Nusselt number for all of the four cases discussed above. These correlations are new and will be helpful in designing heat exchangers.
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Natural and mixed convection in a horizontal cylindrical annulus with and without fins on inner cylinderBegum, Latifa January 2007 (has links)
No description available.
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Complete thermal design and modeling for the pressure vessel of an ocean turbine -: a numerical simulation and optimization approachUnknown Date (has links)
This thesis is an approach of numerical optimization of thermal design of the ocean turbine developed by the Centre of Ocean Energy and Technology (COET). The technique used here is the integrated method of finite element analysis (FEA) of heat transfer, artificial neural network (ANN) and genetic algorithm (GA) for optimization purposes. / by Khaled Kaiser. / Thesis (M.S.C.S.)--Florida Atlantic University, 2009. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2009. Mode of access: World Wide Web.
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Study of high temperature PEM fuel cell (HT-PEMFC) waste heat recovery through ejector based refrigerationUnknown Date (has links)
The incorporation of an ejector refrigeration cycle with a high temperature PEM fuel cell (HT-PEMFC) presents a novel approach to combined heat and power (CHP) applications. An ejector refrigeration system (ERS) can enhance the flexibility of a CHP system by providing an additional means of utilizing the fuel cell waste heat besides domestic hot water (DHW) heating. This study looks into the performance gains that can be attained by incorporating ejector refrigeration with HT-PEMFC micro-CHP (mCHP) systems (1 to 5kWe). The effectiveness of the ERS in utilizing fuel cell waste heat is studied as is the relulting enhancement to overall system efficiency. A test rig specially constructed to evaluate an ERS under simulated HT-PEMFC conditions is used to test the concept and verify modeling predictions. In addition, two separate analytical models were constructed to simulate the ERS test rig and a HT-PEMFC/ERS mCHP system. The ERS test rig was simulated using a Matlab based model, while two residential sized HT-PEMFC/ERS mCHP systems were simulated using a Simulink model. Using U.S. Energy Information Administration (EIA) air conditioning and DHW load profiles, as well as data collected from a large residential monitoring study in Florida, the Simulink model provides the results in system efficiency gain associated with supporting residential space cooling and water heating loads. It was found that incorporation of an ERS increased the efficiency of a HT-PEMFC mCHP system by 8 t0 10 percentage points over just using the fuel cell waste heat for DHW. In addition, results from the Matlab ERS test rig model were shown to match well with experimental results. / by Michel Fuchs. / Thesis (Ph.D.)--Florida Atlantic University, 2012. / Includes bibliography. / Mode of access: World Wide Web. / System requirements: Adobe Reader.
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Computational Study of the Heat Transfer and Fluid Structure of a Shell and Tube Heat ExchangerUnknown Date (has links)
A common technique to improve the performance of shell and tube heat
exchangers (STHE) is by redirecting the flow in the shell side with a series of baffles. A
key aspect in this technique is to understand the interaction of the fluid dynamics and
heat transfer. Computational fluid dynamics simulations and experiments were performed
to analysis the 3-dimensional flow and heat transfer on the shell side of an STHE with
and without baffles. Although, it was found that there was a small difference in the
average exit temperature between the two cases, the heat transfer coefficient was locally
enhanced in the baffled case due to flow structures. The flow in the unbaffled case was
highly streamed, while for the baffled case the flow was a highly complex flow with
vortex structures formed by the tip of the baffles, the tubes, and the interaction of flow
with the shell wall. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2016. / FAU Electronic Theses and Dissertations Collection
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Waste heat recovery from exhaust gases of a Diesel engine generator and its effects on emissionsMaina, Aggrey Katiechi. January 2010 (has links)
M. Tech. Engineering Technology . / Demonstrates through design and experiments the heat transfer effectiveness of energy recovery from waste gases by using a heat exchanger. To use the heat exchanger to intercept the waste gases before they leave the process, extract some of the heat in the gases and use the same for preheating/heating the process water. The experiment is also intended to demonstrate whether or not waste heat unit has an effect on the emissions released to the environment. Diesel engines have been widely used in heavy-duty vehicles for their better fuel efficiency and higher power output than gasoline engines. However, the emissions of gas (CO, HC and NOx) and particulate matter (PM) pollutants from the diesel engine receive much concern from the general public and environmental researchers because of the epidemiological and toxicological investigations suggesting a relationship between exhaust pollutants exposure and adverse health effects.
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