This sketch is of the Historic Ruby Theater in Chelan Washington.
Showing posts with label Hand sketches. Show all posts
Showing posts with label Hand sketches. Show all posts
Tuesday, December 29, 2009
Tuesday, May 15, 2007
Drawings in the design process
These drawings are from a recient project where I designed the recladding of a potential condominium project near Seattle. I did the envelope design and I am starting on the landscape design. This is a small scale commercial project with 4 buildings, but it will be a great addition to my portfolio when finished.
Thursday, May 10, 2007
Landscape Art
Landscape design for a single family home in the Freemont neighborhood of Seattle.
The client was inspired by Japanese design elements but didn't want a full Japanese garden so I created what I like to call a Pan-Asian landscape.
I am potentially getting a new landscape design project in Mercer Island starting tomorrow. This project is a multifamily condo conversion and is going to be a quality but reasonable priced project. My design needs to incorporate pervious and impervious surface calculations give a spacious quality feeling without causing added run off. I will post pictures of the project tomorrow.
Later,
Nathan
Tuesday, May 8, 2007
Landscape design drawings
These working drawings were created for a single family residence around 2003-4. This design uses a trellis and planting to create a secret garden in the front yard.
Sunday, May 6, 2007
More drawings for you to enjoy
This drawing was from the arboretum in Rome
This one is the main square in Siena
Thursday, May 3, 2007
Tuesday, April 17, 2007
Portfolio drawings
These images are from my portfolio. I created these pen and ink drawings and watercolors while visiting Italy as part of a foreign study program in landscape architecture. I drew approximately 300 drawings in that 3 month trip. I hope you enjoy these drawings. The origional Duomo Trento drawing stayed in Italy at friends that we stayed with as a thank you gift for letting stay with them. I am going back to Italy and spain for three weeks with my wife and some family friends. When I am there I will create some more drawings to add to my portfolio. I will continue to add drawings from my portfolio in the future. I hope that those of you that enjoy aspects of my blog will pass on the address to your friends and family to help get the word out. When I get more time I will post some more educational posts until then.
Thanks,
Friday, April 13, 2007
DISCUSSION OF OLD VS. NEW CONSTRUCTION
In this article I will attempt to explain why some old buildings still perform after a hundred years while some newer buildings built in the 70's 80's, 90's and today are failing.
First performance is relative, I rate performance on the existence of water on moisture sensitive materials that given time will cause those materials to deteriorate. This definition is debatable because some may believe that performance is that the structural system is protected as the exterior layer is destroyed as a sacrificial layer for 5-20 years. I disagree but for this illustration we will characterize performance as a wall that manages the water in such a way that eliminates quick deterioration of the building.
We will explain the factors for differences in building performance by addressing the following reasons:
Quantity of insulation
Wall assemblies more tolerant of moisture
Quality of detailing
Exposure conditions (macro and Micro)
Complexity of building form (more details)
In older buildings insulation was not required by the building code. Developers builders, and contractors just left out the insulation and relied on the mechanical system to make the dwelling comfortable. In newer buildings insulation is installed in every cavity.
In the drawing on the left the old wall section shows the lack of insulation the existence of air leakage from the interior to the exterior (drafty) and the lack of an air barrier or weather resistive barrier. In the image at the top you see similar conditions except a layer of building paper is used and stucco is used as the water shedding surface.
Lets look at the science of the insulation as part of the wall assembly. Buildings fail because water reaches sensitive materials (wood, steel), the temperature is sufficiently high enough for mold to grow or rust to form and the material doesn't dry out.
When you have a drafty assembly with no thermal insulation the assembly can effectively manage the water that gets behind the siding. This factor is not the only one that contributes to envelope failure.
The detail at right shows the weakness of the newer assembly. This wall assembly is not tolerant to moisture because any water that makes its way past the siding sits and accumulates against the building paper. This water will cause the building paper to disintegrate after continued exposure and water will run sideways or find back laps in the materials. once the water has found it's way to the sheathing that is made of relatively weak materials like wood chips and glue mold grows and is sustained as long as it remains moist and warm.
Air leakage although reduced is not eliminated and can cause localized damage as moist warm air leaks through small imperfections in the wall assembly.
To have this assembly perform perfection must be achieved in the construction and maintenance of the assembly.
I have believe that our architectural knowledge and quality of design has both deteriorated and advanced at a very high level. First the deterioration is caused by reduced design fees and quickened construction schedules and the ability to transfer the problems off to the future owner. The advancements have occurred by consultants that have filled a niche left as building problems have increased and designers have contracted the risk out to professionals who work only with those specific issues.
In older buildings window system contained
elements seen in today's more advances building designs and most definitely contributed to better performance of the older wall assembly. The image at right illustrates an older window detail re-drawn for illustration purposes. Note the sloped sill and hidden flashing that redirects any water that enters the window opening back to the exterior.
Exposure conditions have changed since buildings began to fail on a large scale. Buildings are being built taller and with fewer overhangs and cornices. Buildings are built near the water and include many more windows and penetrations.
Buildings are also more complex than they used to be, a typical 1920' s office building will be a box with over hangs and cornices inset windows and one main roof. The building illustrated below is just as described a box with punched windows and lots of cornices and overhangs over critical junctures.
The picture at right shows a modern new construction that includes a multi -roofed, multi faceted facade with lots of penetrations including stair bays that allow water into the building and need to be waterproofed at horizontal surfaces. This building is much more complicated than the older building and is going to take great care to keep from becoming damaged.
In conclusion older buildings performed because of many reasons and those reasons have caused a greater need to be careful when designing and constructing a building. These reasons sometimes require a professional firm that understands the science behind the failures and can develop solutions.
In the drawing on the left the old wall section shows the lack of insulation the existence of air leakage from the interior to the exterior (drafty) and the lack of an air barrier or weather resistive barrier. In the image at the top you see similar conditions except a layer of building paper is used and stucco is used as the water shedding surface.Lets look at the science of the insulation as part of the wall assembly. Buildings fail because water reaches sensitive materials (wood, steel), the temperature is sufficiently high enough for mold to grow or rust to form and the material doesn't dry out.
When you have a drafty assembly with no thermal insulation the assembly can effectively manage the water that gets behind the siding. This factor is not the only one that contributes to envelope failure.
The detail at right shows the weakness of the newer assembly. This wall assembly is not tolerant to moisture because any water that makes its way past the siding sits and accumulates against the building paper. This water will cause the building paper to disintegrate after continued exposure and water will run sideways or find back laps in the materials. once the water has found it's way to the sheathing that is made of relatively weak materials like wood chips and glue mold grows and is sustained as long as it remains moist and warm.
Air leakage although reduced is not eliminated and can cause localized damage as moist warm air leaks through small imperfections in the wall assembly.
To have this assembly perform perfection must be achieved in the construction and maintenance of the assembly.
I have believe that our architectural knowledge and quality of design has both deteriorated and advanced at a very high level. First the deterioration is caused by reduced design fees and quickened construction schedules and the ability to transfer the problems off to the future owner. The advancements have occurred by consultants that have filled a niche left as building problems have increased and designers have contracted the risk out to professionals who work only with those specific issues.
In older buildings window system contained
elements seen in today's more advances building designs and most definitely contributed to better performance of the older wall assembly. The image at right illustrates an older window detail re-drawn for illustration purposes. Note the sloped sill and hidden flashing that redirects any water that enters the window opening back to the exterior.Exposure conditions have changed since buildings began to fail on a large scale. Buildings are being built taller and with fewer overhangs and cornices. Buildings are built near the water and include many more windows and penetrations.
Buildings are also more complex than they used to be, a typical 1920' s office building will be a box with over hangs and cornices inset windows and one main roof. The building illustrated below is just as described a box with punched windows and lots of cornices and overhangs over critical junctures.
The picture at right shows a modern new construction that includes a multi -roofed, multi faceted facade with lots of penetrations including stair bays that allow water into the building and need to be waterproofed at horizontal surfaces. This building is much more complicated than the older building and is going to take great care to keep from becoming damaged.
In conclusion older buildings performed because of many reasons and those reasons have caused a greater need to be careful when designing and constructing a building. These reasons sometimes require a professional firm that understands the science behind the failures and can develop solutions.
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