Hoboken, NJ, : John Wiley & Sons, 2010

1-282-78305-X

9786612783050

1-118-25978-5

0-470-91642-7

1 online resource (307 p.)

729

Building - Details

Interior architecture

Inglese

Includes index.

INTERIOR DETAILING: CONCEPT TO CONSTRUCTION; CONTENTS; LIST OF TABLES; LIST OF ILLUSTRATIONS; PREFACE; INTRODUCTION; HOW SI UNITS ARE USED IN THIS BOOK; PART 1: ROADMAP TO SOLVING DETAILING PROBLEMS; CHAPTER 1: THE DESIGN/DETAILING PROCESS; CHAPTER 2: CONSTRAINTS; CHAPTER 3: FUNCTION; CHAPTER 4: CONSTRUCTABILITY; PART 2: ELEMENTS; CHAPTER 5: DIVIDING AND CREATING SPACE WITH PERMANENT BARRIERS; CHAPTER 6: DIVIDING AND CREATING SPACE WITH TEMPORARY BARRIERS; CHAPTER 7: OVERHEAD LIMITS-CEILINGS; CHAPTER 8: THE GROUND PLANE-FLOORS, STAIRS, AND RAMPS

CHAPTER 9: SPATIAL CONNECTION-OPENINGS, DOORS, AND GLAZINGPART 3: TRANSITIONS; CHAPTER 10: WALL TRANSITIONS; CHAPTER 11: PLANAR TRANSITIONS; CHAPTER 12: STRUCTURAL TRANSITIONS; APPENDIX A: Resources; APPENDIX B: Industry Standards for Interior Materials and Products; INDEX

The all-in-one interior detailing guide that unites creative and technical aspects A well-executed interior space requires the successful combination of the creative and the technical. Interior Detailing bridges the gap between design and construction, and shows how to develop and transform design concepts into details that meet the constraints,

functional requirements, and constructability issues that are part of any interior design element. It offers guidance on how design professionals can combine imaginative thinking and the application of technical resources to create inte

Cham : , : Springer International Publishing : , : Imprint : Springer, , 2022

9783031039423

9783031039416

1 online resource (91 pages) : illustrations (chiefly color)

SpringerBriefs in Applied Sciences and Technology, , 2191-5318

620.1064

620.1064015118

Soft condensed matter

Fluid mechanics

Continuum mechanics

Fluids

Engineering Fluid Dynamics

Continuum Mechanics

Inglese

Chapter 1. Introduction -- Chapter 2. Derivation of Intermittency Equation -- Chapter 3. Modeling Concept and Formulation -- Chapter 4. Model Constant Calibration -- Chapter 5. Model Validation -- Chapter 6. Application Test Case.

This book provides the intermittency equation that is derived a priori. Since the intermittency equation is mathematically obtained, the resulting gamma transition model no longer requires any extra parameters and terms to explicitly account for free-stream turbulence and pressure gradient like the previous transition models. Instead, the present gamma transition model can naturally predict natural transition

and effects of free-stream turbulence and pressure gradient on the transition process. Furthermore, the present gamma transition model requires much fewer model constants than the previous transition models. The book is beneficial for CFD researchers in industry and academia who confront modern complex applications involving simultaneously laminar, transitional and turbulent flow regimes, and ideally relevant to graduate students in applied physics, applied mathematics and engineering who are interested in the world of laminar-to-turbulent transition modeling in CFD, or would like to further advance more realistic transition models in the future.