Дитмана Коэринга

High Voltage Transmission Line Towers

source: garyberchewordpress
L’architetto Dietmar Koering di Arphenotype ha progettato questi piloni dell’energia elettrica per un concorso di prevedere una nuova rete di trasmissione di potenza in Islanda. Ogni pilone sarebbe tra i 17 e 32 metri di altezza, con la forma di ciascuno varia secondo la sua longitudine e latitudine “. Un codice parametrico unità le altezze in un gradiente continuo, che sarà fisicamente prodotto tramite l’aiuto di fresatrici,” dice Koering. “Una volta impostati i parametri, è solo la posizione della torre da latitudine e longitudine, che si tradurrà in torri unico,” continua. Le torri sarebbero prefabbricati e montati su basi concrete.
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source: dezeen
Architect Dietmar Koering of Arphenotype has designed these electricity pylons for a competition to envisage a new power transmission network in Iceland. Each pylon would be between 17 and 32 metres tall, with the shape of each one varying according to its longitude and latitude.

“A parametric code drives the heights in an continuous gradient, which will be manufactured physically through help of milling machines,” says Koering. “Once the parameters are set, it is just the location of tower by latitude and longitude that will result in unique towers,” he continues.

The towers would be prefabricated and mounted on concrete foundation. The project was devised for a competition organised by Icelandic electrical transmission company Landsnet and the Association of Icelandic Architects.
Adaptability is an distinction of evolution, but today’s instant variations in [virtual] extended phenotypes call for something stronger: adaptability of nature! In nature material is used with optimum efficiency. Cells continually adapt to precisely fulfil their function.
Through researching organic forms and their production methods the intelligence of the material itself should support the design language, the lightness and stiffness. Fibrous systems and computation is the answer for this new task. Fibrous system in biology: inspiration! Like in the evolution through phenotypes, the production is based on a clear code; where the evolution part and the random variation is bounded to the specific landscape and site.
Architectural form and its relationship to nature, environment and society has rich antecedents to the human body. The idea is that the power net is building one main spine of nowadays society which enables living on a high standard in an age of communication; therefore the spines of the power net reflects an organic language.
The organic structure is covered with a high reflective “lotus-effect” colour. It will be cleaned through natural weather conditions and will reflect the nature itself, which strengthens the idea of a graphical integration to the landscape. The final tower will blend into its environment physical and virtual. It creates a feedback loop in the observed system.
Each transmission tower is shaped in height between 17m and 32m by computer-driven equipment according to its site / longitude and latitude. This approach permits the structures to be modelled and easily fabricated translating into a reasonable cost.

Construction: For maximum strength and stability the construction method is based on the idea of a Tripod (tripods are related to triangles which will support the overall stiffness of the shape). The 3D data is optimally suited to adapt the change of the landscape. “… to monitor feedback from the surroundings.”; a parametric code drives the heights in an continuous gradient, which will be manufactured physically through help of milling machines. Once the parameters are set, it is just the location of tower by latitude and longitude, which will result in unique towers.

Material: The main material used for the towers is an aramid-fibre-matrix bounded with eco resin through thermosetting, which gives the material stability to degration, UV, weathering and wind. The main structure will be built through filament winding and resin transfer moulding. This material allows also in computer aided manufacturing an organic design language without much more costs. The thickness of the material will change through the whole system, calculated by software to adapt the stiffness to site + location and natural forces like wind.

The towers will be prefabricated and mounted on site on concrete foundation, which will support the idea of natural material on site.Today’s pursuit to build lightweight for economic, material engineering and environmental reasons is the logical response to today’s changing society where flexibility is the prime survival quality.

Future: Once the system is set up it will be a leading manufacturing site for fibrous systems. It will not be bounded to specific design, because of its open system it will adapt different locations which will result in a world leading production company for transmission line towers for a world wide market. The high tech environment makes it hard to copy the design language and production method, which leads to a unique company.
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source: arhinovostiru
ЛЭП, линии электропередачи всегда возмущали, например, мой взгляд своим однообразием и неэстетичностью. В Исландии они явно смутили архитектора Дитмана Коэринга (Dietmar Koering), работающего для Арфэнотайп (Arphenotype) – и он придумал новые.
Передатчики будут от 17 до 32 метров в высоту, различной формы, зависящей от длины и ширины объекта.
ЛЭП нового поколения будут поставляться в виде готовой конструкции, которую вознесут на бетонный постамент.
Конкурс на создание такого объекта был объявлен исландской энергетической компанией Лэндснет (Landsnet) и Ассоциацией архитекторов Исландии (Association of Icelandic Architects).
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source: tydencz
Ať už ve volné krajině nebo na zahradě, nevzhledné konstrukce stožárů s vysokým napětím sympatie příliš nevzbuzují. Výjimky se přesto najdou.
Architekt Dietmar Koering z ateliéru Arphenotype se u návrhů až třiadvacet metrů vysokých pylonů nechal inspirovat prý hlavně vláknitými a žilnatými strukturami, které jsou k vidění v učebnicích biologie.
Efektní stožáry, jež by podle serveru www.dezeen.com měla pokrývat vysoce reflexivní samočistící vrstva, vytvořil v rámci designového klání, jehož cílem bylo najít novou podobou pro elektrické vedení na Islandu.
Tvar stožárů by se lišil v závislosti na jejich rozměrech (na výšku by mohly měřit 17 až 32 metrů). Problémy s dopravou by odpadly. Na místo určení by se převezly v krabicích a smotovaly na místě.
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source: larevuedudesign
L’architecte Dietmar Koering de l’agence Arphenotype a imaginé, dans le cadre d’un concours organisé par la société islandaise d’électricité Landsnet et l’Association des architectes islandais, un nouveau modèle de pylône électrique.
Chaque pylône pourrait mesurer entre 17 et 32 mètres de haut, et sa forme varierait en fonction de son emplacement géographique (longitude et latitude).
Leurs formes, organiques et pour partie aléatoires (elles possèdent toutes une base triangulaire), ont pour objectif de davantage s’intégrer dans la nature, et de fondre les réseaux de transport d’électricité dans le paysage environnant.
Dans le même temps, elles permettent de renforcer la structure du pylône, devant résister aux vents et conditions climatiques extérieures.
Ces pylônes seraient réalisés en fibre d’aramide (un type de fibres synthétiques résistant à la chaleur et aux efforts) et en éco-résine thermodurcissable. Ils seraient tous préfabriqués, et montés sur des socles de béton.