“Yugen” is a sense, a sight, a sound, that reveals -- for a brief moment -- the mystery behind the world. Yugen is the substance behind a haiku moment. The detail that makes you take a second look at a photograph or painting and holds your eye. It is an image that portrays “karumi” -- “a light beauty with subtlety, such as a shallow river over a sandy bed” (Basho).
Yugen photographs are digital “haiga” based on a style of Japanese painting and the aesthetics of haiku poetry. In haiga, poetry and imagery combine to reveal the mystery of simple, and hopefully profound, observations of the everyday world. In my Yugen prints, photographs combine with poetry, zenga, and washi textures to create meditative art for your home.
Non linear 3 d finite element analysis of the femur boneeSAT Journals
Abstract In this paper a 3D stress analysis on the human femur is carried out with a view of understanding the stress and strain distributions coming into picture during normal day to day activities of a normal human being. This work was based on the third generation standard femur CAD model being provided by Rizzoli Orthopedic Institute. By locating salient geometric features on the CAD model with the VHP (Visible Human Project) femur model, material properties at four crucial locations were calculated and assigned to the current model and carried out a nonlinear analysis using a general purpose finite element software ABAQUS. Simulation of Marten’s study revealed that the highest stress formed in the absence of the cancellous tissue is almost double the value of stress formed with cancellous tissue. A comparative study was made with the Lotz’s model by taking into consideration two different sections near the head and neck of the femur. An exhaustive number of finite element analyses were carried out on the femur model, to simulate the actual scenario. Index Terms: Fracture, Cortex, Cancellous, femur bone, finite element
“Yugen” is a sense, a sight, a sound, that reveals -- for a brief moment -- the mystery behind the world. Yugen is the substance behind a haiku moment. The detail that makes you take a second look at a photograph or painting and holds your eye. It is an image that portrays “karumi” -- “a light beauty with subtlety, such as a shallow river over a sandy bed” (Basho).
Yugen photographs are digital “haiga” based on a style of Japanese painting and the aesthetics of haiku poetry. In haiga, poetry and imagery combine to reveal the mystery of simple, and hopefully profound, observations of the everyday world. In my Yugen prints, photographs combine with poetry, zenga, and washi textures to create meditative art for your home.
Non linear 3 d finite element analysis of the femur boneeSAT Journals
Abstract In this paper a 3D stress analysis on the human femur is carried out with a view of understanding the stress and strain distributions coming into picture during normal day to day activities of a normal human being. This work was based on the third generation standard femur CAD model being provided by Rizzoli Orthopedic Institute. By locating salient geometric features on the CAD model with the VHP (Visible Human Project) femur model, material properties at four crucial locations were calculated and assigned to the current model and carried out a nonlinear analysis using a general purpose finite element software ABAQUS. Simulation of Marten’s study revealed that the highest stress formed in the absence of the cancellous tissue is almost double the value of stress formed with cancellous tissue. A comparative study was made with the Lotz’s model by taking into consideration two different sections near the head and neck of the femur. An exhaustive number of finite element analyses were carried out on the femur model, to simulate the actual scenario. Index Terms: Fracture, Cortex, Cancellous, femur bone, finite element
Performance improvement of mixed flow pump impeller through cfd analysiseSAT Journals
Abstract Centrifugal pumps are the largest used hydraulic machine. However, the performance of centrifugal pump is generally not very good. Making them more efficient is a major challenge. The performance of the centrifugal pump greatly depends on its geometrical parameters and the vane profile. Computation fluid dynamics (CFD) has been found to be very good tool for numerical analysis of flow through complex system including centrifugal pumps. The present study deals with the performance analysis of a mixed flow type centrifugal pump designed centrifugal pump to deliver 0.25 m3/s water at a head of 20 m running at 1450 rpm using ANSYS CFX 14.0 software. Modeling of the pump unit has been done using PTC Cre-o 2.0 software. The performance of the pump was first determined using the initially obtained vane angles. The inlet vane angle and outlet vane angle are then varied to analyses the improvement in pump performance .The results shows that for an initial inlet angle 20.08˚ and outlet angle 16.28˚, the efficiency of the pump is 83 %.however, for an optimized angles at inlet and outlet as 20.16˚ and 16.62˚ respectively, the efficiency of pump raised to 88 % thus showing an improvement in the performance of mixed flow pump. Keywords: Computation Fluid Dynamics Analysis, mixed flow pump, overall efficiency
This study was competent studied earth dams and species and its history and the factors influencing them and the other part of a study of the most important risks that affect earth dams (seepage through earth dams) and how to calculate the leak and methods of their account and types the seepage and forms of cost and what are the ways process is treated with filters.
1. INTRODUCTION TO SEEPAGE THROGH EARTH DAM
2.METHODS CALCULATION SEEPAGE THROGH EARTH
DAM
3. ENTRANCE, DISCHARGE, AND TRANSFARE
CONDITIONSOF LINE OF SEEPAGE
4.SIMULATE THE PRESSURE ON THE EARTH DAM USING SAP 2000 PROGRAM
5.DESIGN FILTER TO CONTROLED THE SPAAGE IN EARTH DAM
Measured drawings of the Balairung Seri, part of the Royal Museum, for the Methods of Documentation and Measured Drawing Module. Sem2.5/3.5 - Taylor's University
Completed 7 March 2016
Performance improvement of mixed flow pump impeller through cfd analysiseSAT Journals
Abstract Centrifugal pumps are the largest used hydraulic machine. However, the performance of centrifugal pump is generally not very good. Making them more efficient is a major challenge. The performance of the centrifugal pump greatly depends on its geometrical parameters and the vane profile. Computation fluid dynamics (CFD) has been found to be very good tool for numerical analysis of flow through complex system including centrifugal pumps. The present study deals with the performance analysis of a mixed flow type centrifugal pump designed centrifugal pump to deliver 0.25 m3/s water at a head of 20 m running at 1450 rpm using ANSYS CFX 14.0 software. Modeling of the pump unit has been done using PTC Cre-o 2.0 software. The performance of the pump was first determined using the initially obtained vane angles. The inlet vane angle and outlet vane angle are then varied to analyses the improvement in pump performance .The results shows that for an initial inlet angle 20.08˚ and outlet angle 16.28˚, the efficiency of the pump is 83 %.however, for an optimized angles at inlet and outlet as 20.16˚ and 16.62˚ respectively, the efficiency of pump raised to 88 % thus showing an improvement in the performance of mixed flow pump. Keywords: Computation Fluid Dynamics Analysis, mixed flow pump, overall efficiency
This study was competent studied earth dams and species and its history and the factors influencing them and the other part of a study of the most important risks that affect earth dams (seepage through earth dams) and how to calculate the leak and methods of their account and types the seepage and forms of cost and what are the ways process is treated with filters.
1. INTRODUCTION TO SEEPAGE THROGH EARTH DAM
2.METHODS CALCULATION SEEPAGE THROGH EARTH
DAM
3. ENTRANCE, DISCHARGE, AND TRANSFARE
CONDITIONSOF LINE OF SEEPAGE
4.SIMULATE THE PRESSURE ON THE EARTH DAM USING SAP 2000 PROGRAM
5.DESIGN FILTER TO CONTROLED THE SPAAGE IN EARTH DAM
Measured drawings of the Balairung Seri, part of the Royal Museum, for the Methods of Documentation and Measured Drawing Module. Sem2.5/3.5 - Taylor's University
Completed 7 March 2016