Daniel Onofre de Almeida Cruz
Instituição:
Universidade Federal do Rio de Janeiro
Centro:
Centro de Tecnologia
Unidade:
Escola Politécnica
Departamento:
Departamento de Engenharia Mecânica/Poli
Formação:
-
Faculdade de Engenharia da UP
| Pós-Doutorado | 2010 - 2011
-
Universidade Federal do Rio de Janeiro
Engenharia Mecânica | Doutorado | 1992 - 1996
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Universidade Federal do Rio de Janeiro
Engenharia Mecânica | Mestrado | 1990 - 1992
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Universidade da Amazônia
licenciatura em matematica | Graduação | 1985 - 1989
-
Universidade Federal do Pará
Engenharia Mecanica | Graduação | 1985 - 1990
Laboratórios:
Nuvens de Palavras:
Artigos:
Nenhum artigo cadastrado
Eventos:
(1.32% eventos com DOI)
| Titulo | DOI | Ano |
|---|---|---|
| Analysis of Magnetohydrodynamic Behavior of the Flow of Conductive Fluid in Pipes for Industrial Applications | 10.1109/induscon51756.2021.9529423 | 2021 |
| Complete and incomplete similarity for the mean velocity profile of turbulent pipe and channel flows at extreme Reynolds number | 2021 | |
| Post fully rough regime in turbulent pipe flow | 2019 | |
| Inertial-layer Mean Velocity Profiles for extreme Reynolds number flows | 2019 | |
| New friction factor and mean velocity profile for turbulent pipe flow at extreme Reynolds number* | 2018 | |
| On the Link Between Kolmogorov Microscales and Friction in Wall-Bounded Flow of Viscoplastic Fluids | 2017 | |
| ON THE LINK BETWEEN KOLMOGOROV MICROSCALES AND FRICTION FACTOR IN NON-NEWTONIAN YIELDING FLUIDS | 2017 | |
| BLASIUS-TYPE FRICTION EQUATION FOR YIELDING FLUIDS BASED ON EXTENDED KOLMOGOROV MICROSCALES | 2016 | |
| ON THE ORGANIZED ROUGH ELEMENTS DISTRIBUTIONS AND THE DRAG REDUCTION EFFECTS OF TURBULENT FLOWS IN PIPES | 2016 | |
| Fully |Turbulent velocity Profile For Purely Viscous Non-Newtonian Fluids | 2015 | |
| General Blasius-type friction equation for purely viscous non-Newtonian fluids based on extended Kolmogorov theory | 2015 | |
| FLUID DYNAMICS ANALYSIS OF EMERGENCY FLOODGATE EQUIPMENT FOR FLOW CONTROL IN AN AUXILIARY SPILLWAY HYDROELECTRICAL DAM | 2015 | |
| A NEW FRICTION FACTOR EQUATION FOR TURBULENT FLOW OF PURELY VISCOUS NON-NEWTONIAN FLUIDS | 2015 | |
| ELIMINATION OF THE NON-PHYSICAL OSCILLATIONS IN MULTI-MATERIAL, MULTI-PHASE COMPRESSIBLE FLOWS | 2015 | |
| A NEW FRICTION FACTOR EQUATION FOR TURBULENT FLOW OF PURELY VISCOUS NON-NEWTONIAN FLUIDS | 2015 | |
| . NUMERICAL SIMULATION OF THE INFLUENCE OF ROUGHNESS ON THE MASS LOSS IN PIPE SUBJECT TO EXPANSION CONTRACTION | 2014 | |
| The Logarithmic Solution of Purely Viscous Non-Newtonian Fluids. | 2014 | |
| NUMERICAL SIMULATION OF THE INFLUENCE OF ROUGHNESS ON THE MASS LOSS IN PIPE SUBJECT TO EXPANSION CONTRACTION | 2014 | |
| Friction Factor For Turbulent Flows Of Herchel-bulkley Fluids In Rough Pipes | 2013 | |
| NON-NEWTONIAN SOLVENT EFFECTS ON THE RHEOLOGICAL RESPONSES OF WORMLIKE MICELLAR SOLUTIONS | 2013 | |
| . On The Friction Factor Of Turbulent Flows of HERCHEL-BULKLEY For Rough pipes | 2013 | |
| Sedimentation Modeling of the Lake Água: Water Source of the Belém Metropolitan Area | 2010 | |
| THE HYDRODYNAMIC MODELING AND MORPHOLOGICAL STUDY OF ÁGUA PRETA | 2009 | |
| ANALYTICAL SOLUTION TO STOKES PROBLEMS WITH WALL TRANSPIRATION | 2009 | |
| SKIN FRICTION COEFFICIENT OF IMPINGING JET FLOW: AN ESTIMATION BY LAW | 2009 | |
| Stokes' second problem with wall suction for upper convected Maxwell | 2008 | |
| Pressure Field of a Curved Channel by a Multihole Pressure Probe | 2007 | |
| Prediction of Flow Field in a 180 DEG Channel | 2007 | |
| Integral Transform Analysis Of Hydrodynamic Journal BearingS | 2007 | |
| A Study Of Limiting Conditions In Hydrodynamic Lubrication Of Journal Bearings | 2007 | |
| DEVELOPMENT OF A REYNOLDS STRESS MODEL TO PREDICT TURBULENT FLOWS WITH VISCOELASTIC FLUIDS | 2006 | |
| comparison Between experimental and calculation results for reactive flow in Cyclone Furnace | 2006 | |
| THE EFFECT OF THERMAL RADIATION MODELS P-1 E DO ON THE CALCULATION OF TURBULENT REACTIVE FLOW MODELED WITH CALCULATION OF TURBULENT REACTIVE FLOW | 2006 | |
| A GENERALIZED FORMULATION FOR THE FALKNER SKAN EQUATION | 2006 | |
| PERFORMANCE OF THE k-e AND REYNOLDS STRESS MODELS IN TURBULENT FLOWS WITH VISCOELASTIC FLUIDS | 2006 | |
| ON THE LOCAL SOLUTION METHOD AND THE SOLUTION OF NONLINEAR ORDINARY DIFFERENTIAL EQUATIONS | 2006 | |
| PIPE FLOW OF MULTIMODE PTT FLUIDS | 2005 | |
| A TURBULENCE MODEL FOR THE PREDICTION OF THE HEAT TRANSFER REDUCTION OF VISCOELASTIC FLUID FLOWS | 2005 | |
| Um modelo de turbulência k-epsilon não-linear para escoamento viscoelástico em condutas | 2004 | |
| A NON-LINEAR LOW-REYNOLDS NUMBER k-epsilon TURBULENCE MODEL FOR DRAG REDUCING VISCOELASTIC PIPE FLOW | 2004 | |
| Um Modelo de baixo numero de Reynolds Para Fluidos viscoleasticos | 2003 | |
| a low reynolds k-epsilon model for viscoelastic fluids | 2003 | |
| A generalized solution for the laminar vertical plate free convection flows | 2003 | |
| A LOW REYNOLDS NUMBER k- MODEL FOR DRAG REDUCING FLUIDS | 2003 | |
| an improved low reynolds number k-epsilon model for viscoelastic fluids | 2003 | |
| THE HEAT TRANSFER ANALYSIS OF THE TURBULENT FLOW OF VISCOELASTIC FLUIDS | 2002 | |
| THE GENERALIZED BOUNDARY LAYER THEORY AND THE CONVERGENT CHANNEL FLOW SIMILARITY ANALYSIS | 2002 | |
| A ESCALA DISSIPATIVA DE KOLMOGOROV: FLUIDO DE CARREAU-YASUDA | 2002 | |
| AN ASYMPTOTIC DESCRIPTION OF SEPARATING TURBULENT FLOWS | 2002 | |
| A SKIN FRICTION EQUATION FOR TURBULENT FLOW OF CARREAU-YASUDA FLUIDS. | 2001 | |
| ON KAPLUN LIMITS AND THE GENERALIZATION OF THE BLASIUS EQUATION FOR THE FLAT PLATE LEADING EDGE FLOW | 2001 | |
| ESCOAMENTO TURBULENTO COM TROCA DE CALOR SOBRE UM DEGRAU | 2000 | |
| A SKIN FRICTION EQUATION FOR TURBULENT CARREAU FLUIDS | 2000 | |
| A NEW SKIN FRICTION EQUATION FOR TURBULENT FLOWS OF BINGHAM PLASTIC FLUIDS IN PIPES | 2000 | |
| Uma lei do atrito para escoementos turbulentos sanguineos utilizando o modelo reológico de casson | 2000 | |
| A Formulation of law of the wall for Turbulent flow with separation and heat Transfer | 1999 | |
| A Friction equation for Turbulent Blood Flow | 1999 | |
| A generalized Boundary layer Formulation to Forced Convection Heat Transfer of Power Law Fluids | 1999 | |
| A turbulence Model for Non - Newtonian Power Law fluids in Ducts | 1999 | |
| A Thermal Law of the Wall for Separating and Recirculating Flows | 1999 | |
| Análise do Escoamento de Fluidos Tipo Lei de Potência Através de uma Formulação Generalizada de Camada Limite | 1998 | |
| On the Strip Theory for Horizontal -Axis Turbomachine Design | 1998 | |
| Uma Formulação para O Cálculo do Coeficiente de Atrito em Camadas Limite Turbulentas com Separação | 1998 | |
| Uma Formulação de Parede Para Escoamentos Turbulentos com Recirculação | 1998 | |
| Análise do Critério do Coeficiente de Pressão Mínimo Para Seleção de Grades em Turbomáquinas Axiais | 1997 | |
| Um Modelo Algébrico de Turbulência Para Escoamentos em camada Limite Sujeita a um Forte Gradiente de Pressão Adverso | 1997 | |
| Uma Lei de Potência Para o Coeficiente de Atrito em Camadas Limite em Equilíbrio, Turbulentas Com Gradiente de Pressão | 1996 | |
| The Stanton Number Equation Near a Separation Point | 1996 | |
| Uma Velocidade Característica Para a Região Interna de Camadas Limite Turbulentas com Transpiração | 1995 | |
| The Termal Turbulent Boundary Layer Near a Separation Point Part II : Law of the Wall Formulation | 1995 | |
| The asymptotic Structure of The termal turbulent Boundary layer Near a Separation Point | 1994 | |
| Uma Análise por Similaridade da Região Externa de Camadas Limite Turbulentas | 1993 | |
| Escalas Características da Camada Limite Turbulenta na Região de Separação | 1992 | |
| A Separation Criterion for the Turbulent Boundary Layer | 1992 | |
| Influence of the Dissipation Function on the Turbulent Boundary Layer Temperature | 1991 | |
| A Law of the Wall for Compressible Turbulent Boundary Layer With Mass Injection an Transfer of Heat. | 1991 |