New natural convection heat transfer correlations in enclosures for building performance simulation

Rincón-Casado, A.; Flor, Francisco José Sánchez de la; Vera, Eliseo Chacón; Ramos, José Sánchez

doi:10.1080/19942060.2017.1300107

Cited by 26 publications

(23 citation statements)

References 46 publications

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“…This is due to the fact that the velocity at the boundaries is higher than velocity at the center of the cavity in Figure 3(l). [25,[35][36][37]. For low Ra (= 10 3 ) and as AR increases from 0.5 to 2, it is observed the presence of isotherms which are almost vertical as displayed in Figures 4(a, b, c).…”

Section: Resultsmentioning

confidence: 72%

“…The AR effects with 1 ≤ AR ≤ 2 for 10 6 ≤ Ra ≤ 10 8 in the 3D differentially heated cubical cavity was investigated by Ravnik et al [24] using the boundary element method. According to results reported by Rincon Casado et al [25] for AR= 1 threedimensional effects are less pronounced with a reduction of 2-4% compared to a 2D model for Ra ≤ 10 12 . This is due to the fact that the 3D effect of the boundary layer is not significant in the average Nusselt number with high Ra.…”

Section: Introductionmentioning

confidence: 73%

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Analysis of Aspect Ratio Effects of Left Heated 2D Cavity Using Energy Streamlines and Field Synergy Principle

Rani¹,

Narayana²,

Rameshwar³

2019

MMEP

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In the present study natural convective flow of air in a two dimensional cavity with three different aspect ratios (AR) are analyzed using direct numerical simulation. Established open source CFD package OpenFOAM, has been utilized to run the simulation. In this problem, the vertical walls are assumed to be maintained at an isothermal temperature with left vertical wall has high temperature than the right wall and the other walls are assumed to be thermally insulated. The governing equations of this problem are expressed in dimensionless form and are solved by using the finite volume method. For spatial derivatives, the second order upwind linearization technique was used. The CGS method was employed as an effective acceleration means. The divergent and Laplacian terms in the governing equations are discretized by the QUICK and Gauss linear schemes, respectively. The computations are conducted for Rayleigh number until 10 6. An attempt has been made to gather the visualization techniques such as streamlines, isotherms, energy streamlines and field synergy principle to analyse the flow behavior. When Ra is small, vertical energy streamlines appeared, as Ra further increases, free energy streamlines at the boundary are observed whereas trapped energy streamlines at the centre appeared in the horizontal direction. For a fixed Ra, as AR increases, average synergy angle () increases. This result implies that synergy between temperature field and velocity gets worse, which leads to the mild growth rate of ̅̅̅̅. The field synergy principle shows that the improving synergy between the temperature gradient and velocity vector, the heat transfer can be enhanced with less increased flow resistance.

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Section: Resultsmentioning

confidence: 72%

Section: Introductionmentioning

confidence: 73%

Analysis of Aspect Ratio Effects of Left Heated 2D Cavity Using Energy Streamlines and Field Synergy Principle

Rani¹,

Narayana²,

Rameshwar³

2019

MMEP

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“…In Table 4, all the necessary variables for the calculation of the GCI for the 12 temperature sensors are shown. The table shows the values of the GCI 12 , the GCI 23 indexes and the temperature sensor measurement bias error (0.5 error sensor, divided by measurement temperature sensor in percent). The small values for GCI confirm that the solution is grid independent.…”

Section: Figure 10mentioning

confidence: 99%

“…Recently correlations have been developed to implement them in thermal simulation programmes of buildings [12]. These correlations are used for convective heat transfer calculations.…”

Section: Introductionmentioning

confidence: 99%

Calibration Methodology for CFD Models of Rooms and Buildings with Mechanical Ventilation from Experimental Results

Rincón-Casado¹,

Hajdukiewicz²,

Flor³

et al. 2020

Computational Fluid Dynamics Simulations

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This chapter describes a methodology for the development and calibration of computational fluid dynamics (CFD) models of three-dimensional enclosures for buildings with combined forced and natural convection from experimental result. The models were validated with physical test measurements of room air temperature. The developed CFD models included a model of an internal wall-mounted air conditioning (HVAC) split unit. The methodology proposed here aims at selecting the correct grid size and the appropriate boundary conditions from experimental data. The experimental campaign took place in an empty office room within an educational building. A set of experiments was performed with varying boundary conditions of two main variables, the fan speed of the HVAC unit and the surface wall temperature of the opposite wall to the HVAC unit. The developed CFD models used the standard k-ε turbulence model and the SIMPLE algorithm. The variable of interest was the room air temperature and its distribution within the internal environment. The application of the methodology has shown satisfactory results, finding a maximum error of 9% between the CFD model and the experimental result. This methodology can be used by other researchers to calibrate CFD models in existing rooms and then carry out detailed studies of temperature distribution, comfort and energy demand analysis.

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“…Wind promotes a controlled pressure distribution over the building envelope [1] (conditioning indoor air change through ventilation openings). Convective phenomena is generated by static pressure due to air density and temperature gradient [2]. In this process, indoor air is mixed with outdoor air supplied through the envelope due to various phenomena (openings, infiltrations, ducts, etc.)…”

Section: Introductionmentioning

confidence: 99%

Proposal for a Simplified CFD Procedure for Obtaining Patterns of the Age of Air in Outdoor Spaces for the Natural Ventilation of Buildings

Padilla-Marcos¹,

Meiss²,

Feijó-Muñoz³

2017

Energies

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Built urban environments modify the air quality of the natural ventilation processes in buildings. The experimental assessment of outdoor air change (OACH) processes is complex due to the air volumes involved. The quality of the OACH can be analysed through the ventilation efficiency concept, which has been extensively studied in order to characterize the ventilation of indoor spaces. Ventilation efficiency through the age-of-the-air concept assesses the air-change capacity of a certain space. A procedure formulation for obtaining an adequate control domain (CD) to evaluate outdoor air change efficiency (OACE) is proposed. A methodology in two phases is presented: first, an evaluation stage, in which the outdoor air behaviour patterns are studied; then, a second phase where an ideal control domain (ICD) is obtained in order to comparatively assess several cases in similar urban environments. The outcomes determine a proposed ICD for evaluating the design of efficiently ventilated buildings in open urban built environments. The methodology of validation proposed simplifies the assessment of the building shape and its impact on the quality of the OACH by the OACE. The suggested ICD has dimensions of L = 5H; D = 3H; and T = 2H. ICD enables the representation of the air behaviour and fulfils the imposed requirements to evaluate efficiency with a mean accuracy lower than 0.6%.

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New natural convection heat transfer correlations in enclosures for building performance simulation

Cited by 26 publications

References 46 publications

Analysis of Aspect Ratio Effects of Left Heated 2D Cavity Using Energy Streamlines and Field Synergy Principle

Analysis of Aspect Ratio Effects of Left Heated 2D Cavity Using Energy Streamlines and Field Synergy Principle

Calibration Methodology for CFD Models of Rooms and Buildings with Mechanical Ventilation from Experimental Results

Proposal for a Simplified CFD Procedure for Obtaining Patterns of the Age of Air in Outdoor Spaces for the Natural Ventilation of Buildings

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