LIT - London institute of technology // 3rd year by Nicolas Salas

London Institute of Technology

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â&#x20AC;&#x153;A place of investigation and innovationâ&#x20AC;? 4ARC627.2 Technical Exploration Notebook

Done by: Nicolas Salas Leon w1422770 3rd Year - BA Architecture University of Westmisnter

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Content 1. THE SITE 1. Location 2. Wind Analysis 3. Sun Analysis

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2. PRECEDENTS 1. IIT Center 2. Others Influences 3. Design Abstract - Brief

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3. MATERIALS 1. Research

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4. TECHNIQUES 1. Steel Decking 2. Concrete Piles - Foundation

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5. DETAIL DRAWINGS - PORTFOLIO 1. Section 2. Foundation 3. Structure

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6. LIGHT QUALITY 1. Light inside the proposal

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7. ORTHOGRAPHICAL DRAWINGS 1. Set of drawings - Portfolio 1.1 Plans 1.2 Section

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8. CONSTRUCTION PROCESS 1. Sequence

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9. CGIs OF THE PROPOSAL

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10. FUTURE OF THE DESIGN 1. After Final Crit

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11. REFERENCING & THANKS

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1. THE SITE -3-

Video available at https://youtu.be/VELD0CdGo10

LIT Center Tate Modern New extension

Site Location

South facade

North facade Photography by Google.com

Renders by Nicolas Salas

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Site Location / Context Tate Modern is located on the edge of the river Thames right at the South end of the Millennium bridge. The iconic power station was built in two phases between 1947 and 1963 and it was designed by Sir Giles Gilbert Scott. It consisted of a stunning turbine hall of 35 metres high and 152 metres long, with the boiler house alongside it and a single central chimney of 99 metres high. Currently, the new extension by Herzog & de Meuron will transform Tate Modern. An iconic new building will be added at the South of the existing gallery.

Video made by Nicolas Salas

It will create more spaces for displaying the collection, performance and installation art and learning, all allowing visitors to engage more deeply with art, as well as creating more social spaces for visitors to unwind and relax in the gallery.

Photography by Google.com

January

February

March

April

May

June

Wind Analysis

July

August

September

October

November

December

Data, graphs and analysis by Nicolas Salas

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Wind Condition As to have a better sense of the Southbank area at the Tate Modern a wind condition can not be dismissed. A main concern of this site is that the Tate is located just by the side of the Thames river and because so a concern about the prevailing wind is raised. ECOTech analysis weather tool allows me to have a better and detailed understanding about this site. The strongest wind conditions are on January and December where the center of the Winter is occurring. However, the rest of the year the amount of wind in terms of pressure and speed is very stable and with not many abruptions. The average lowest wind speed is about 15-20kmh (4.16-5.5mps) which is more or less consistent during the year.

Wind Rose By comparing the yearly display of the monthly average wind velocities, it can be seen that the predominant wind comes from the South-West direction. Also, the peak in the speed of the wind seems to appear around the winter term between December, January and March. However, most of the year it seems that the wind feels to be very calm tending to breeze. Even though this wind study reveals great and detail information, in reality it is most probably to have a different impact as most of the building in the Tate surrounding are wide and tall which will be probably be blocking the wind speed but also, in some cases, if the space inbetween the buildings gets gradually narrow, the air would pressured and gain speed.

Video available at https://youtu.be/uF6oaO58lZs

Video available at https://youtu.be/7c3zzML9l80

Data, graphs and analysis by Nicolas Salas

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Sun Graph - Full Hourly with clouds

Sun Graph - Total Monthly

Sun Analysis Sun Condition Looking at these graphs the appreciation of clouds during the day are generous, therefore the natural light would approach in a softer way that direct Sun light. Also, the average temperature in London from 20*C to 5-7*C along the year and having July the hottest month and January the coldest. In term of precipitations, October is the wettest month with an average of 71mm of rain. July is the month with the more daily hours (145849 Wh/m2) followed by June (134186 Wh/m2) and April (102040 Wh/m2).

Data, graphs and analysis by Nicolas Salas

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Seasonal Sun path - Jan to Dec at 11:00 2016

Video available at https://youtu.be/_TsQc9BhrXE

Video made by Nicolas Salas

2. Precedents -8-

IIT - Illinois Institute of Technology Main structure

Secondary low bearing structure

Gravel over roofing felt

Mies van der Rohe Situated in the center of the University campus in Chicago, near the metro station and the main station: a building with the best location within the university. The four sides of the building permit free entry of light and use the views. It is oriented South to North with the main entrance located on the South facade allowing cover to enter the workshop. The building also has this orientation so that the lighting is natural light main North-South and not East-West, which is usually more intense and difficult to control up to provoke troublesome in many cases.

Steel angle cap

Concept A self-contained in a rectangular shape on two levels. It is a free volume with its four walls of glass, surrounded by a large green area, with large tress, mainly in the South facade. The glazing on all sides that allows the faculty do not give back the rest of the buildings, while respecting the context. It is characterized by an industrial aesthetic of simplicity, clearly stated in their steel frames.

Rigid insulation on steel deck

Mild steel fascia plate

Sprayed insulation

Structural system

Roof purlin

Acoustical Celling tile

Louvred ventilators with door

Glazing skin

Concrete floor slabs

Terrazzo flooring

Poured foundation

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Materials: Steel Reinforced concrete Glass

Structure Cover is 36x67 meters on a series of exterior columns of steel that are placed tangent to the wall and are related through jacenas song visible on the steel deck. This technique allowed to cover important Mies lights without intermediate support and maintain a standard thickness forged. The plant is semi-supported in a frame of columns 6x9 meters.

Secondary structure

Primary structure

Plan column details

Building centre-line Fully welded plate girder

Fully welded plate girder

Hanger

Roof purlin

Steel deck welded to purlins Steel fascia plate Roof purlin

Steel mullion

Section out wall details

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Innovative precedents

Investigation: Span ability Load bearing ability Minimal footprint

Photography by Google.com

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From Now to Future As part of my desire to learn architecture, I do not want to learn only the basics but I am intended to practice the controversial â&#x20AC;&#x153;organicâ&#x20AC;? and morphic style. As organic now days means several things, I am using it in a very specific way: a nature form like which have the ability to reduce the amount of material by a better distribution of load over the structure. Also, it breaks the traditional grid of a rectangular form into a more dynamic one.

Brief

Design Abstract The London Institute of Technology Center has its place behind the Tate Modern with a direct access from Summer Road to the workshop at the ground level. The concept of creating a school of construction relies from the hollow-pavilion created at the West wing inside the Tate and its dense study of the construction process and methods which lead to a center in which people would have access to material research, workshops, lectures and presentations of new technologies. The structural style is based from the Mies Van De Rohe â&#x20AC;&#x153;IIT Centerâ&#x20AC;? in Chicago precedent where exposed structure reveals vast open space in which the architect want to express the flexibility of space and it ability to change and bring users together. The idea, its to create a communal space for Southbank to attract more people with interest in knowledge. It is not only a center for lectures about the architectural technology but to be able to show a dense variety of material of different kind by creating a material library. Also, a laboratory to create new materials would be provided which would bring the oportunity to architects to overcome with new designs specific to the new materiality. The building works in a way of three stages of structure: Primary structure is made by a set of 12 Steel I column attached to the ground by poured concrete and concrete piles in a foundation level; and atttached on the top level to a wider Steel I beam which connects two steel columns on its ends. This allows to hang the top floor without need s of inside columns or heavy bearing walls. The Secondary structure works in a ring like way, where it frames the floor levels which connects in its tanget all the steel columns and making a rigid structure. The Tertiary structure created a grid where the steel deckin rest to be covered in concrete and bringing more stability to the building.

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Investigation: The intention in this research is to find the ability of balance and rigidity in the smallest amount of structure. Bringing simplicity but complext at the same time and elegance buy not overcrowding the building with structure that is not needed.

3. Materials - 13 -

Options: Timber Weight: Lightweight in comparison to others listed in this material section. Aesthetic: Soft, warm and it will add a human aesthetic to factor theme. Strength: Dependent on wood type - i.e. Engineered glulam is one of the strongest. Fire resistance: Poor unless covered in anti-fire solution.

Re-usability: Recyclable Sources/Availability: can be found from recycled wood, imported or recently cutted. Assemblage: Wood beams are made to size on order and assembled on site.

Photography by Google.com

Steel Weight: Lightweight material but hot-rolled steel is heavy. Aesthetic: Applicable to building program and site. Polished and clean however need a supporting material to avoid creating a tin shed. Strength: High strength with ability to span large distances. Fire resistance: Very good.

Re-usability: Recyclable however, it need a lot of energy to remelt it. Sources/Availability: Can be found from recycle sources Assemblage: Quick construction on site.

Concrete Weight: Heavy weighted but good for thermal mass option. Aesthetic: Cold aesthetic but texture can be very experimental a wide variety. Strength: High strength with ability to span large distances. Fire resistance: Very good.

Re-usability: Recyclable in some minor projects as to use pieces to fill road surface. Sources/Availability: Easy to find, mix and use. Ability to change its chemical mix that makes up the concrete i.e. Hempcrete or Transcrete. It will also change its properties. Assemblage: Very quick is pre-cast slabs are used. However, on site mixing could be a time consuming.

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Mansonary wall/Brick Weight: Heavy weighted but good for thermal mass option - not as heavy as concrete. Aesthetic: In fitting with the Tate Modern. Strength: Good to hold shear loads but not suitable for spanning. Fire resistance: Good and maintains structure until collapse unlike steel.

Re-usability: It can be recycled but a lot of energy is needed in firing but not as bad as steel. Sources/Availability: Ready available with many different varieties. Assemblage: An experienced bricklayer can lay up to a 100 bricks a day.

Decision: Material: Steel + Concrete./reinforced concrete. Reason: Ability to constrain heavy weight, easy to manipulate and in context with the precedents and Studio Design Project. Special consideration: The design for this proposal is levitating the building by 8000mm from the ground level supported only by the main structure made by Steel and the lifts Concrete cores. Top floor (3rd level) flotates as every side is cover in a glass facade. 1st and 2nd level are clamped together by the reinforced concrete lift cores and an extra core placed just on these two levels.

4. Techniques - 15 -

Steel Decking with poured concrete

R51 Slab edge and flashingâ&#x20AC;&#x2122;s This method of creating floor levels is very effective as the design is based in a square grid of secondary steel frame where the steel decking will seat on and then concrete will be poured and let to dry.

Diagrams by Nicolas Salas