Metamorphosis Project

About half way through architecture school I was given a design project by one of my professors at the beginning of the semester. Usually we were given a ‘fun’ project to loosen us up and then a more serious project, which usually coincided with something the professor was working on at the time. The project which we were given was to design vacation a house for our favorite architect. At the time I was very interested in Paolo Soleri who I had spent time with in the Arizona desert helping to build his visionary city Arcosanti.

I thought about where Soleri would go to 'get away' and recharge his batteries. Since he lives and works in the high desert I thought he would enjoy being him out on the ocean for a while. I began to think about what would be the ideal structure in which he would be comfortable that could thrive the rigors of the open sea. I needed to design an artificial island of sorts which would remain relatively stable in the most severe storms yet not be affixed to the land. I wanted Soleri to drift in solitude and contemplation.

I the late sixties the Scripts Institute of Oceanography built a deep seas research vessel called the Flip.

This vessel consisted of a front section built in the shape of a ship and a hundred foot long tube at the rear. The vessel was towed far out to sea and then a series of ballast chambers would flood in the tube causing the entire vessel to ‘flip’ vertically in the water. The top third of the vessel stuck out of the water and provided a very stable platform from which the scientists could gather data for all sorts of oceanographic and atmospheric experiments.

I proposed Solerie’s house should follow a similar shape. My professor and fellow students were skeptical of the stability of such a design from my early sketches. So I built a small model from a drinking straw with a weight at one end, representing the ballast, and a foam chunk at the other end representing the actual dwelling. I also built a small wave chamber. When I subjected my crude model to the full furry of a simulated storm of epic proportions in the chamber, the model barely bobbed or oscillated at all in the water.

Once the basic form was agreed upon, I began to design the guts of this thing. In order to survive on its own in the harsh environment of the open ocean I realized it needed to be a living, breathing organism. Because a human, or humans, were to live on this thing there needed to be a symbiotic relationship between them and the vessel to ensure the sustainability of the collective organism. First there needed to be a source of capturing and storing energy. Where does energy come from on the open ocean? I could think of four sources, solar, thermal (differences between surface temp. and deep water temp.) and mechanical in the form of wave and wind action. I decided to use both solar and wave action in varying forms.

I thought of wave action as being more consistent and therefor more reliable than wind action. I proposed running a vertical column though the center of the stem. This shaft would be have openings at the top and bottom to allow a column of water to rise up and down as waves passes by outside of the stem. A turbine with oscillating blades would be mounted either at the top of the shaft, to catch air flow, or at the bottom, to catch water flow.

But how would this vessel be constructed? Initially it could be built using common ship building techniques with steel or composite materials. I became aware of an emerging technology of growing a concrete-like material called 'seacrete' or 'biorock' in the ocean using low voltage electricity and the chemical nature of sea water.

I began designing a structure that would grow out of the saturated minerals present in sea water, as well as utilize high tensile membranes (eventually also grown using bio-engineered algees and other organisms). A large part of this was to utilize wave action to provide the energy required to make it all happen. This led to the realization that at some point the structure could produce a surplus harvested of energy to 'take it to the next level'.

I have to admit that this is a fanciful pet project or 'Gedankenexperiment'. I have been working on this since the mid 80's, pulling together developing technologies that I have encountered along the way as well as my own personal experience from my various long distance nautical endeavors over the years.

With the continued development of nano-technologies, as well as the emergence of carbon/graphene based materials, the possibilities are even more attainable than when I first envisioned them. The sea- crete technology alone, coupled with solar, wind and wave based energy capturing systems has relevance in today's world for reef restoration of coastal communities around the world as sea levels and meteorological conditions intensify due to global warming.

For an overview of the Metamorphosis project and older pictures of the various stages see:

https://www.facebook.com/media/set/?set=a.2131107597350.2100909.1235801502&type=1

Boxing up Desire

Fall update from Seattle: After ariving in Kona and working furiously to get Desire ready to meet my weather window, I discovered that NOAA had issued a proclimation that they had just figured out that they were still seeing conditions that last year's la ninia weather conditions were still in effect in the Pacific.

What that ment for me was that instead of a 35-40 day sail back to Seattle I would most likely encounter a 45-55 day journey. I spent the next few days thinking about my boat and my own capabilities and realized that it just didn't make sense to expose myself to that level of risk in terms of being able to carry enough provisions for such a journey as well as the long term effects of fatigue, sleep depravation and exposure to the unpredictable nature of ocean travel.

I then made one of the toughest discussions of my life. Given that I had expended lots of time and resources the previous year (as well as this year) to bringing Desire back to my home waters, and that I was committed to spending the next few years trying to make a success of my new company, it would be next to impossible to mount another effort of this sort any time soon.

I realized that instead of looking at this as a rescue mission I needed to think of it as a salvage mission. I built a sturdy crate and boxed up all of the books, momentous, tools and gear that I wanted to keep from Desire and arranged with an oceanic freight company to ship it back to Seattle. I sorted through the stuff that was left and gave away a bunch of it to friends in Kona who could use it and I organized the stuff that should stay with Desire. I spent the rest of my time sprucing Desire up as best I could and then flew home to Seattle, entrusting Desire to Craig's List and friends who would look after her until she was sold.

The crate of stuff (all 687 pounds) arrived safely here in Seattle a few weeks ago. I've had a few looky loo's (keel kickers) interested in Desire but no serious takers yet. Meanwhile I'm charging ahead on several fronts to grow my budding company out of the dirt.

I made it to Kona and moved Desire from the storage yard to the work yard the next morning. I spent most of the day washing and cleaning the spiders, dirt and oxidation off of her. (No bees this time!) Afterwards it took me a while to figure out why I was feeling so spent. The VOG around here from the volcano is really heavy right now and my throat and sinuses are raw. I need the clean air of the open sea!

Do you have a flag?

Do you have a flag?

http://www.youtube.com/watch?v=UTduy7Qkvk8

Why, yes we do.

Mash Werks - Mobil Army of Sustainable Housing

While we are on the subject of related holokai links,

we are proud to have figured out the most effective way we can ad value to various disaster relief housing efforts around the globe.

http://www.shelterkraftwerks.com/SKW-Container-Designs/mashhousing

One of the components of ShelterKraft Works and ShelterCraft Designs is to build an on site response team to provide a housing triage center at any disaster relief location in the world.

The idea here is to be able to set up a mobile ISBU fabrication facility anywhere in the world to aid in the reconstruction of an affected area where the housing stock has been decimated.

With the Red Cross and various other disaster relief agencies, the initial crises can be met. Food, medical supplies and tents are usually air lifted to affected areas. Once the initial needs have been met and the area begins to stabilize and recover, port facilities and other infrastructure are repaired for the next wave of relief, coming in the form of shipped goods and materials.

SKW will arrive on the docks with their Mash Boxes full of tools. A local work force will be gathered and trained to turn arriving cargo containers into temporary dormitories, medical facilities and food centers. From there permenant housing and support structures will be built. The efforts of this new 'cottage industry' can remain viable long after the area has been helped to normalcy.

By concentrating efforts on the site of the disaster, funding and effort is maximized by invested parties.

The efforts of Mash Housing can be beautifully dove tailed with many of the current relief agencies to maximize their own efforts on the ground where it is needed most.

~~~

Big news for holokai.org fans!

you can also get here by typing rustybarnacle.com and the newly acquired, holokai.com. At some point these will be separate sites with holokai.com linking you to long distance pelagic charters/voyages, holokai.org linking you to our efforts of oceanographic preservation and the metamorphosis reef restoration project. Our beloved filter feeding crustacean, Rusty the Barancle ( or Rostig der Barancle) will return on his own site chronicling his continued adventures.

Skyline Snake Balls

Skyline Snake Balls

Dirk and I have a healthy respect for snakes. Trancas Canyon rattlers gave us our introduction. Then we moved to the burbs of Mobile and dad wanted us to learn golf at the Skyline Country Club. We soon realized that it was much more fun to whack balls than chasing after them. But in chasing after them, though the dense southern woods, we discovered a treasure trove of miss-shot balls. We developed a business plan. We would harvest the lost balls, clean them up and sell them back to the golfers. Our business thrived and soon the woods were cleared out. That left the ponds. We knew the water and we knew rattlers so we thought that water moccasins wouldn't be that much different. The ponds were brimming with lost balls and we couldn't understand why our competitors didn't tap in to that resource...

So one day we're leaving the house to go work. As we're headed out the back door mom stops us to ask us why we're taking one of her kitchen chairs. Before I can elbow Dirk to let me handle it, he blurts out "It's so the snakes don't bite us!"

We had developed a strategy to deal with the water moccasins. They lived in the banks of the ponds. I had constructed a raft made out of pallets and chunks of styrofoam we found at the dump. We would drag the raft out of it's hiding place in the woods to the pond of the day. I would pole out into the pond with long sticks of bamboo. From there I would whack the bushes and tall grass all around the pond. If a snake jumped out I would stand on the chair, precariously perched on the raft as they swam past (or sometimes over) the raft. I'm not entirely sure where they went but after waking them up they left us alone until we were done.

The other kids thought we were crazy but we harvested more balls than anyone else and we never got bit.