Porfolio linda mazahreh 2015

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RCHITECTURE PORTFOLIO 2015

LINDA MAZAHREH

OVERVIEW It must be innovative; we look to the past for inspiration and we look at its mistakes, but we must look forward to keep with today’s society. It must be artistic; we need to be inspired and moved in order for us to fashion new ideas and dreams.

LINDA MAZAHREH

For me Architecture must encompass these ideals in order to be good Architecture. I do not look to a specific style in Architecture for inspiration; rather I use innovation, art, and fun to guide me to sculpt Architecture. Architecture is something that we experience every day, regardless if we like it or not. It can change how we feel, act, think, and love. As an Architect, I feel that I have the chance to open people’s eyes to something that could express and

ARCHITECT

have meaning and at times could even change ones way of life.

ABOUT & CONTACT

WORK EXPERIENCE

Name:

Linda Mazahreh

Address:

Al- Rahmanieh, Amman

Email:

linda_mazaxpe4@hotmail.com

Mobile:

+962 7 9982 2550

issuu:

http://issuu.com/lindamazaxpe

LinkedIn:

linda Mazaxpe

Date of birth:

04.04.1992

Place of birth:

Kiev, Ukraine

Nationality:

Jordanian

Russian:

Mother Language

Arabic:

Mother Language

English:

Reading Excellent, Writing Excellent

Mar03 – Aug 20: Intern

Ohlf Schoch Architekten, Stuttgart- Germany Responsibilities:

Done all the 3D plans for Daimler AG's new building in Stuttgart. Creating computerized drawings (plans, sections, and elevations) with making calculations of the areas. Designing spaces from the inside of buildings. Sites visiting and learning new techniques in the process of design and construction.

Achievements:

Learning the new program VectorWorks. Knowing how to do project schedule for the workers and working duration (project management). Come up with solutions on problems and use my inventiveness whenever needed Successfully applied the principles of the design that were used.

Reading Fair, Writing Fair

Mar03 – Aug 20: Intern Eng. Nabil Zaki Goussous architects Responsibilities:

Interests:

Swimming, Guitar, violin, ballet Piano

Commitment:

(with London's Trinity Advanced Certificate)

Piano and music teacher Dancer with MEERAB group in Amman (T heater dance)

www.meerab.org

Creating first and computerized drawings. And Helping in the designing process of villas' landscape and interior

Achievements:

Have learnt more about designing Villas in Jordan. Presenting work (interior, exterior) Come up with initial designs

PROFESSIONAL

SKILLS Hard Work

EDUCATION 2009-2015

German-Jordanian University in Amman (GJU) The School of Architecture and Built Environment

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Hobbies

September 2013- March 2014

HTW - Hochschule f端r Technik und Wirtschaft des Saarlandes 2008 - 2010

Amman Baptist School Team Work

Tawjihi system (Jordanian education system) 1999-2006

Innovate

Trinity College London

Advanced certificate (Grade 8) in Piano Trinity College London graded examinations and diplomas span performing, teaching, theory of music and composing, all of which are fully accredited by the relevant UK regulatory bodies.

ACTIVITIES SOFTWARE

07.2012 - 09. 2012 (renderi ng and Teachers assistant at the GJU

Edi ting Software Skills

SKILLS

Archi tectural Software Skills

prese nta tio n skills course)

Photoshop

AutoCad

Lumion

2010-201 2

In Design

Revit

3D Max

Illustrator

Rhinoceros

Vectorworks

Piano and Music Teacher

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Projects’ Categories Vertical Farming ... 1 Villa Project ... 11 Parametric Project ... 15 Urban And Landscape ... 19 Internship ... 31 Other Works ... 37

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90 Degree Up

Vertical Farming

The project generates a new perception and understanding of the value of industry within cities. Architecture can do this by integrating industry with more intimate social, a closer relationship can be formed with between society and its production. The project is about developing a new perception on the value of responsible, sustainable industrial process and activities within the city. http://issuu.com/lindamazaxpe/docs/thesis_linda

90 Degree Up It is predicted that the world population will reach 10 billion by 2050, of which 80% will live in urban centers. This change, alongside a changing climate, will strain Earth‘s resources, specifically the ability to supply food. A valuable investigation would be to determine other ways to supply food to cities alongside current agricultural practices in a sustainable manner. Every day, the planet has more people to feed. by the year 2050, it is estimated that nearly 80% of the world’s population will live in urban centres. bringing farming to the city could be a viable and innovative solution. With Vertical Farm I plan to explore how to retrofit redundant, empty city buildings to grow food – using pioneering new technologies such as aquaponics, hydroponics and aeroponics to turn a disused, eight storey office block in Wythenshawe into a productive food hub.

Vertical Farming

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When integrating a Farm in an existing urban area social factors, along with environmental and technical matters should be taken into account. Thinking about which factors that should be taken into account in evaluating the sites and the objectives that should be met by a site when integrating a Vertical farming.

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The higher-level objective included: • Adapt to city structure • Impact on environment • Social development

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Produce can easily be transported with minimal PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Vertical Farming

human oversight through the core food elevators and overhead conveyor systems that connect to automated modular shelving units specifically designed for this project 速

PRODUCED BY AN AUTODESK EDU

DESK EDUCATIONAL PRODUCT

Site Plan

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUC

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Front Elevation

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Side Elevations PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

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Sections

- Vertical farms build on the idea of rooftop farming by capitalizing on space vertically and utilizing natural light to produce energy. - Vertical farms create urban communities in which individuals can both live and work in a sustainable environment. - With the population increasing and the supplies decreasing, it is necessary that thinking of innovative and creative ways to feed and nourish everyone should be concerned Vertical Farming

- Multi-storied buildings growing different crops at each floor. - Integrated assembly line: seed sorting facilities, distribution. - Continuous planting system including monitoring growth and harvesting. - Integrating greenery alongside traditional architectural forms - Creating a ‚miniature eco-system› that acts to enable the urban population to manufacture and produce food locally. 6

Grey Water System 1- Modular Coir Planting Bed 2- Recycled Aluminum Posts 3- Recycled Plastic 4- Waste Hookup 5- Waste return Line 6- Storage Reservoir 7- Irrigation Feed- Nutrient Film 8- Nutrient Film from Building Waste Water

Outer Water Grey Water Nutrient Supply For The Grawing System 7

As a form of new infrastructure, the Vertical Farm will allow people to create a sustainable and selfsufficient city. The dynamic and interdependent lives and energy of mountain was brought into the project. This vertical farm provides a sustainable environment, where the “artificial mountain” reflects the seasonal sceneries, trees and rocks of the “natural mountain”. This vertical farm is self-sufficient and sustainable

Vertical Farming

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An eclectic mix of soft lines, natural light, exclusive materials, classic designs and brand new icons create a unique ambience. Brown and greens dominant with some lighter gray and white

Placing two dierent colors together to create contrast and help them emphasize each other. This makes the composition vibrate become very dynamic, despite the limited color range. The restaurant’s interior is an elegantly furnished by wood.

Vertical Farming

It is important not to just think about how we can use our natural resources better from a distance, but to actively engage with nature and create new groups of people who have a deep interest and respect for the world they live in

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Artist House

Villa Project

-Building type: residential building, residential house -Support structure construction: solid construction -Roof construction: pitched roof -Support structure material: reinforced concrete -Facade material: natural stone, granite -Roof material: concrete, natural stone, reinforced concrete

Artist House Ground Floor

Artist House

Upper Floor

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Exploded 3D

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Elevations

Artist House

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SABE Pavilion

Parametric Projects

Group Work

Parametric Wall Piece Group Work

SABE Pavilion A pavilion in GJU Othman Bdeir’s building (the Architecture department) has to me designed in a group work using the rhino plugin “Grasshopper” . A rectangular along the parameter of the terrace was taken to create a surface. the surface then was divided and points were selected in order to create lines of trusses in between with its top verticals being in the middle of the bottom subdivision. The lines are then exploded and duplications eliminated to act as separate elements when the kangaroo physics force is applied on it. The truss changes in shape according to steel’s stiffness and color coding aids in stress analysis on the elements of the truss

3Ds

SABE Pavilion

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Parametric Wall Piece This project has been a part of a group work with my colleague “Rejina Nasraween”. Often when one draw/model any concept, they follow certain operations which are monotone and repetitive, they are algorithms and what’s for sure computers are best at algorithms! Grasshopper® is a graphical algorithm editor tightly integrated with Rhino’s 3-D modeling tools. Unlike RhinoScript, Grasshopper requires no knowledge of programming or scripting, but still allows designers to build form generators from the simple to the awe-inspiring. That is why the program Rhinoceros together with the Grasshopper have been used in order to create parametric art piece designed with generative patterns and then 3D printed.

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Variations for the pattern With changing the sliders,we could control the size of the opening. Then we have tried to divide the Voronoi into separate parts and give them different parameters to control the opening to create interesting Patterns.

For creating the pattern, the three basic Rhino Plug-in Grasshopper, WeaverBird, and RhinoScript were used together. First, Using different curves, we were able to make outlines to make the surface with “surface from planar curve�. Second, Using Voronoi2D function, we got the points to create points to get the outlines. After All, using the grasshopper and using the weaver bird the pattern was made.

Parametric Wall Piece

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Urban Solution for «Mühlenviertel»

Urban and Lanscape Projects Landscape Redevelopment of Al Salt Group Work

Villa’s Landscape

Jabal Amman Urban Redevelopment

Group Work

Urban Solution for «Mühlenviertel» There was some problems in streets near the Main station of Saarbrücken. We had to bring life into these streets through a small conceptual proposal. So the solution was to open another streets and chance some of the bus routes and make more bus stops in those streets! Not to forget proposing an urban garden between the Main station’s street and the residential streets. so the noise of the trains could be reduced by greenery

Urban Solution for «Mühlenviertel»

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Urban Redevelopment Proposal of Jabal Amman

After having studied Jabal Amman district we came to come conclusions of our own.

Significant Features

Land-use in Relation to Night Light

Some nodes could could be further modified to improve the area of study and facilitate the circulation within the area. Public

Cultural

Spaces

Centers

Hospitals

Schools

Religious

vegetable

Centers

market

Markets

Jabal al qalaa

Problems in the existing are countless

Ground Floor Use In Relation To Road Hierarchy

1) Valet spots are on the “prohibited parking” side and thus when a car parks for a few seconds the whole lane stops. Furthermore, valet service uses spots in the residential area to park te cars. 2) Even though the street is treated for a slow traffic, school girls still need a guide to help then cross the road. 3) Congestion occurs due to searching for a parking spot and this makes the Rainbow street slow when it’s meant to be a main artery. 4) Many drivers dismiss traffic regulations and drive in contrary to directions in order to drive for a shorter distance. 5) Pavement is discontinuous and is dangerous for pedestrians. 6) Restaurants take-up too much space from the sidewalk at some points. 21

Private Sectors Public Sectors Schools

Clothing Closed Handcrafts

Furnishing Theater University

Paintings Restaurants Gift Shops

Pedestrian and Road Hierarchy activity has increased due to the increasing with the use of area, as it shown it is more

Two circulation proposals were generated to solve the problems. Since we found out more people walk along the streets than cars, and most people visit the Rainbow Street for walking and using it as a public space. The group have decided to create public spaces within the street to encourage the pedestrian motion.

From testing the street slopes the highest slope is less than the maximum allowed inclination for a slope.

This proposal started with orienting vehicular motion from the first circle to downtown though the external streets of Jabal Amman instead of driving within the district The one way street then alters the directions of the other streets..

Pros

Cons

The low inclination part of the Rainbow street is used for pedestrian circulation mostly and the rest is used for vehicular circulation.

The proposal could cause many congestion problems and confusion for the drivers. Many nodes are problematic in this solution.

Loops are used for vehicular circulation For instance, the exit around the univerwhich enhance future road expansion. sity could not be a loop unless drivers cross roads twice with the opposing direction. Valet Survice On Fridays Dily Valet Survice Discontinity Of Sidewalks

Urban Redevelopment Proposal of Jabal Amman

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Second Proposal . This proposal started by making most of Rainbow Street as a pedestrian zone only with multiple crossing of vehicular circulation. Streets were then altered and further studied to investigate whether main roads have enough capacity to withstand car load

Pros: This proposal contains many loops which makes it easier to move around and for further expansions. Furthermore, there are as many exists as entrances in Jabal Amman district. Cul-De-Sac improve privacy for residential areas. There are alternate roads fro most of the trips causing better distributions of traffic.

Cons : The proposal needs many alteration to the exiting streets and could be costly if not managed well. Fear of losing pedestrians would cause the proposal to fail

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This section is taken in the third part of the rainbow street. As this part is near Souq Jara, we decided to add an outdoor market strip to it. The part of the Rainbow street will have strips of functions, first part and the last will have visual connection to the market.

This section is taken in the second part of the rainbow street. As this part is in the park near to the schools and companies. This part will have sports strips for fast walkers and people who enjoy doing sports outdoor.It will also consist seating areas with water features and greenery.

The Urban Market

The Urban Park

Spill -Outs

The neighborhood is full of tasty cafes and awesome shops, but it’s also packed with historic.

We are providing a range of pedestrian amenities to enhance pedestrian comfort and safety, including:

The new market is part of a major redevelopment plan. We are leaving the market in its current home and giving the location a major renovation.

-Trees to provide shade during hot summer months and contribute to an attractive pedestrian environment.

Sidewalks on principal pedestrian routes within nodes and corridors should provide for broad pedestrian through zones, particularly in pedestrian districts.

since Jara has always been known as a successful project that brought life to Jabal Amman

-Furnishings such as benches and waste bins -Attractive pedestrian-oriented lighting

Urban Redevelopment Proposal of Jabal Amman

Street-related buildings can contribute to pedestrian comfort through the provision of canopies that can mitigate against the impacts of wind or weather.

An additional furnishing zone to accommodate waiting areas, street trees, planters and the potential for retail or commercial spill-out space may also be required.

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Section 1 The section is taken through the lower university street. Pavements are raised to 20Cm in height so cars won’u be able to park. They should also be continuous to facilitate pedestrian motion .

Section 2 Section is decreased in width to 120cm. Cars can U-turn. Parking only allowed on the left side. Meaning right side of motion.Pedestrian motion encouraged in one side only.

Section 6

Section 7

As seen in the section parking is allowed on only one side and sidewalks are decreased in width and improvement to be continues.

This section is taken next to Latin School. Parking along side the street is only allowed, on the left side of the section. Street width allows two lanes.

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Section 5

Section5 Section is taken in theinresidential area. area. Section is taken the residential Pavement needs to be contineous and is on Pavement needs to be continuous and is both sides of the street. on both sides of the street. Parking is allowed on the right side of the section. Parking is allowed on the right side of Street wide enough for two lanes. the issection.

Street is wide enough for two lanes.

Section10 Section 10 on the upper street of the Section is taken university. Section is taken on the upper street Parkin gis not allowed on both sides of the the university. street. Parking prioritized is not allowed on both sides Sidewalk and widedned and the to street. needs be contineous for the use of school pupils and university students

of of

Sidewalk prioritized and widened and needs to be continuous for the use of school pupils and university students

Section and Section 88and 9 9 Sections are taken alongside the same street Sections are taken alongside the same . Parking is clearly labeled on one side of each street. Parking is clearly labeled on one street and once joined together parking is side of each street and once joined togethallowed on the right side of the section only. erZebra parking is allowed on the right side of crossing clearly labelled for better the section only. pedestrian crossing .

Section Section 3 3 Section isistaken in the Rainbow streetstreet where where cars cross its path. Section taken in the Rainbow cars cross its path.

cars move inin opposite cars move opposite direction direction to to the the existing circulation. existing circulation. Pavements remain as built as they are very sufficient. Pavements remain as built as they are very

Main road has greater width than peripheral Zebra crossing clearly labelled for better one . pedestrian crossing . U-turn allowed.

Main road has greater width than periphU R Bone. AN DESIGN CITY OF FLOWS eral Urban Redevelopment Proposal of Jabal Amman

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Landscape Redevelopment of Al Salt

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After the analysis! We have known which plants we could plant in AL- Salt, what can we plant in the street areas (Hyperaccumulators) and what we can plant in other proposed areas. Proposed Open area was designed (we used trees as a shading system for the walkable part) and a bus stop also (the plant Bougainvillea as a shading system and also it gives a color to the spot)

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Villa’s Landscape in Fuhais During my internship in “Nabil Zaki Goussous Architects Office” i was offered to design a garden for a Villa in Fuheis! So what i did first was to ask what the client wants the most in every corner, after that I started to sketch whatever in my mind was Afterwords, I stared with my Autocad drawings and then puting my thoughts into the 3D to show what I wanted to do with the space I was given The landscapeis provided here an innovative and aesthetically pleasing environments for people to enjoy, while ensuring that changes to the natural environment are appropriate

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The spaces that have been done was divided through the variety of tiling (texture and colors). Using this method of separation i could connect each zone with the another yet it is defined! (a man can tell where is the entrance, the sitting area, barbecue area, the fountaine zone.. etc..)

Villa’s Landscape in Fuhais

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Ohlf Schoch Architekten

Internship

Stuttgart/ Germany

Martin Ohlf and Ralf Schoch – experienced architects and planners in a stable working team since more than 16 years. As for the Office, it stands for the careful preparation of expert reports and taking over ongoing building maintenance to have good property portfolios. The projects are for both the public sector and private clients. The ideal solution for all parties involved is to be truthfully fair; a smooth construction process, optimal cost−efficiency for the client and the best possible environment for the users. http://www.ohlfschoch.de/

Eng. Nabil Zaki Goussous Architects Amman/Jordan

The «Daimler» Project The Project is Located in Untertürkehim in Stuttgart. The company Daimler wants to build their new building in stuttgart and they have chosen Unterturkheim. OhlfSchoch Architekten wanted to do something new with the plans, the company wanted 3D plans for Daimler so the workers will know what to do in each floor on which week during the building phase. Like every Project, the company always does weekly schedule for the workers, but it is complicated since the Daimler building consists of three parts and three main modules. And each week has its own schedule and the worker has to look at six paper so they can be able to understand what should have been done in each room.

Bauablaufplan BT A BUT 128 Nr. 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55

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This is the 3D that I did for the Daimler building using Revit.

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Besprechung Kopf Besprechung Kopf Besprechung Kopf Besprechung Kopf Besprechung Kopf Besprechung Kopf Besprechung Kopf Besprechung Kopf Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Kernmodul 3,4 Kernmodul 1,2 Treppenhaus 3,4 vorab Schlosserarbeiten Treppenhaus 1,2 vorab Schlosserarbeiten Aufzüge 6 Stück mit 3 Montagetrupps

Nr. BT Ebene Beschreibung 0 Ab hier Rohbau, Fassade und Dach 1 Rohbau Wände und Decke B 1 2 Rohbau Wände und Decke B 2 3 Rohbau Wände und Decke B 3 4 Rohbau Wände und Decke B 4 5 Rohbau Wände und Decke B 5 6 Rohbau Wände und Decke B 6 7 Rohbau Wände und Decke B 7 8 B Gerüst Fassade 9 Fassade UK Fenster B 1 10 Fenstermontage B 1 11 Verglasung B 1 12 Fassade UK Fenster B 2 13 Fenstermontage B 2 14 Verglasung B 2 15 Fassade UK Fenster B 3 16 Fenstermontage B 3 17 Verglasung B 3 18 Fassade UK Fenster B 4 19 Fenstermontage B 4 20 Verglasung B 4 21 Fassade UK Fenster B 5 22 Fenstermontage B 5 23 Verglasung B 5 24 Fassade UK Fenster B 6 25 Fenstermontage B 6 26 Verglasung B 6 27 Fassade UK Fenster B 7 28 Fenstermontage B 7 29 Verglasung B 7 30 31 32 33 34 35 36 37 38 39 40

In this project I have used the program Revit. Using the program Revit i was able to make 3D plans and then to represent it with color coding in order to be easier to understand.

PRODUCED BY AN AUTODESK STUDENT PRODUCT

Internship_ Ohlf Schoch Architekten

1 Fassadenverkleidung 2 Fassadenverkleidung 3 Fassadenverkleidung 4 Fassadenverkleidung 5 Fassadenverkleidung 6 Fassadenverkleidung 7 Fassadenverkleidung 8 Fassadenverkleidung 9 Fassadenverkleidung 10 Fassadenverkleidung 11 Fassadenverkleidung 1_7 Sonnenschutz 1_7 Restarbeiten Fassade 0 Dämmung Deckenunters. 0 Fassade 0 Stahlbau Bodenschienen Traforäume 1+2 Konsolen Stahlbau Vordach A ü1 Dachabdichtung mit Kranloch 0 Stahlbau Verblendung Müllraum Ü6 Stahlbau Konsolen Leitungen A Ü6 Schlosserarbeiten Geländer A ü6 Dachabdichtung ü8 Schlosserarbeiten Geländer A ü8 Dachabdichtung Stahlbau Dach RLT A 10 Stahlbau Wände Dach RLT A 10 Stahlbau Konsolen Treppe 10 ü10 Stahlbau Tisch A 10 Stahlbau Treppe ü10 Stahlbau Konsolen Leitungen ü10 Schlosserarbeiten Geländer A ü10 Dachabdichtung A 10 Ausbau Technikmodul inkl. TGA A Ü5/Ü7/Ü8 Dachbegrünung Ab hier Ausbau und Technikgewerke A 0 Ausbau Ebene 0 A 1 Ausbau Ebene 1 A 2 Ausbau Büromodul Kessel A 2 Ausbau Büromodul Wasen A 3 Ausbau Büromodul Kessel A 3 Ausbau Büromodul Wasen A 4 Ausbau Büromodul Kessel A 4 Ausbau Büromodul Wasen A 5 Ausbau Büromodul Kessel A 5 Ausbau Büromodul Wasen A 6 Ausbau Büromodul Kessel A 6 Ausbau Büromodul Wasen A 7 Ausbau Büromodul Kessel A 8 Ausbau Büromodul Wasen A 9 Ausbau Büromodul Kessel A 2 Ausbau Leitungsmodul A 2 Ausbau Leitungsmodul Mercedes A 3 Ausbau Leitungsmodul A 3 Ausbau Leitungsmodul Mercedes A 4 Ausbau Leitungsmodul A 4 Ausbau Leitungsmodul Mercedes A 5 Ausbau Leitungsmodul A 5 Ausbau Leitungsmodul Mercedes A 6 Ausbau Leitungsmodul A 6 Ausbau Leitungsmodul Mercedes A 7 Ausbau Leitungsmodul A 7 Ausbau Leitungsmodul Mercedes A 8 Ausbau Leitungsmodul A 8 Ausbau Leitungsmodul Mercedes A 9 Ausbau Leitungsmodul

Bauablaufplan BT B BUT 128

PRODUCED BY AN AUTODESK STUDENT PRODUCT

HWGP mit OSAG 2014

KW

A A A A A A A A A A A A A A A

86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 114 115 116 117

In order to make it simple for the workers Mr. Schoch (one of the owners) wanted to represent these all six papers in a 3D plan explaining everything on it and I have volunteered to do that.

In here is one example of one of the weeks colored and done according to the plan. each of them represent what should have been done on that week.

Vorabzug basierend auf prognostizierten Rohbauterminen vom Juli 2014

BT Ebene Beschreibung Ab hier Rohbau, Fassade und Dach A 1 Rohbau Wände und Decke A 2 Rohbau Wände und Decke A 3 Rohbau Wände und Decke A 4 Rohbau Wände und Decke A 5 Rohbau Wände und Decke A 6 Rohbau Wände und Decke A 7 Rohbau Wände und Decke A 8 Rohbau Wände und Decke A 9 Rohbau Wände und Decke A 10 Rohbau Wände und Decke A 11 Wände A Gerüst Fassade A 1 Fassade UK Fenster A 1 Fenstermontage A 1 Verglasung A 2 Fassade UK Fenster A 2 Fenstermontage A 2 Verglasung A 3 Fassade UK Fenster A 3 Fenstermontage A 3 Verglasung A 4 Fassade UK Fenster A 4 Fenstermontage A 4 Verglasung A 5 Fassade UK Fenster A 5 Fenstermontage A 5 Verglasung A 6 Fassade UK Fenster A 6 Fenstermontage A 6 Verglasung A 7 Fassade UK Fenster A 7 Fenstermontage A 7 Verglasung A 8 Fassade UK Fenster A 8 Fenstermontage A 8 Verglasung A 9 Fassade UK Fenster A 9 Fenstermontage A 9 Verglasung A 2_9 PR Mercedesstrasse

Vorabzug basierend auf prognostozierten Rohbauterminen vom Juli 2014

HWGP mit os arch

Stand 25.07.2014

KW

2014 2015 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

KW

20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

C C C C C C C C C C

Fa. Roleff Fa. Blank Fa. Roleff Fa. Blank Fa. Roleff Fa. Blank

KW

20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

KW

20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

32

The Hauptmannsreute Project

4

2, 45

6

10

5 3, 11

11

6

5, 00

8

A chsen 2, 77

36

2, 78

8

40

2 2, 30

4, 05

3, 19

1

9 B auteil e

9 2, 01

76

9

RF BDa ch= 3 50 .80 6 1,5 5

1,8 1

10

1,0 0

1,7 0

5 10

8 99

5 1,2 3

22 10 18

1,6 3

9 46

6 5,0 5

9 1,6 4

97

7

8 2,6 4

2 2,5 8

5 3,3 1

8 3,0 8

7 2,3 8

R 2,7 0

RF BDG = 3 47 .58

2, 13

RF BDG = 3 47 .58

RF BT er ra sse = 3 47 .43

R 3,0 8

5 1, 26

RF BT er ra sse = 3 47 .43

2, 70

2, 85

2, 85

2, 70

2, 13

5

4,9 0

5

1, 16 75

5, 70

4, 17

77

1, 16 75

3, 74

9

3, 44

25, 33

7

77

5

8

4

5

81

7

1, 91

10

82

76

57

5 1019

1,8 5

7 97

8 9,7 3

9 1,9 1

1

2

3

4

4

5

5

8 1,9 8

6

6

5 2,5 1

7

7

1

82

5 2,3 2

8

8

7 2,6 3

69

2,0 0

5 1,1 8

10

82

76

7 8 56 10 19

1,8 5

7 97

1 7,4 0

2, 85 RF B EG T er ra sse 3 40 ,8 1

3, 07

3, 07

3, 07

3, 07

1

2, 24

8 12

3, 89

3, 89

9 4,3 7

1, 99

1, 99

1 1, 36

81 1 1,6,636

1, 91

1

31

8,5 6m

3 40 .96

3 3,3 5

5, 88

5, 88

2, 24

4

1, 91

25, 33

7

31

7

3, 74

3, 74

5, 70 8 7 12 54

1,6 2

5, 70

4

2, 45

6

2, 45

7 4,0 0

6

36

3,9 4 3, 44

3, 44

4, 17

5

4, 17

36

5

3, 11

2, 78

8

3 4,8 2

2, 78

8

40

40

4, 05

4, 05

5 1,2103 18 22

22 10 18 1,6 3

6

3, 11

1, 49

3, 10

Spielplatz

1

6

RF B EG T er ra sse 3 40 ,8 1

2 2, 30

2 2, 30

3 40 .96

3, 19

1

3, 19

3,9 4

9°

1, 16

1, 16 1, 16

1, 16

75

75 75

75

RF BDa ch= RF BDa ch= 3 50 .80 3 50 .80

77

81

5

5 81 77

2, 31

2, 56

60

3 2, 03

2, 30

+339. 81

6 1,5 5

6 1,5 5

4,9 0

4,9 0

1,8 1

1,8 110

1,0 010

1,0 0 1,7 0

51,7100

8 99 5 10

8 99 1,2 35

1,646 39

9 46

6 5,0 5

6 5,0 5

25

F FB T G= 3 35 .35

1, 08

28

7

7 28 2, 14 5

2, 14

5

1, 20

1, 20

89

89 70

55

55

55

55

2, 85

2, 85

RF=BDG = RF BDG = RF=BT er ra sse RF BT er ra sse 3 47 .58 3 47 .43 3 47 .58 3 47 .43

R 2,7 0

R 3,0 8

8 3,4 0

8 3,4 0

1,8 4

1,8 4

6 1,2 5

6 1,2 69 5

7 69 1,2 3

7 1,2 3

3,4 0

WS

Abbruch

DD

Deckendur ch bruch

Maue rwerk

WA

Wandausp arung

Tr ockenbau

WD

Wandschlitz

R 3,0 8

5 1,1 8

3,4 0

5 101,1 8 82 10

82 76

5 57 76 1019 57

Wanddur chbruch

Betonfer tig teilwand

BR H

Brüstungshö he ü. OKFFB

Vormaue rwand

BA

Bodenausspar ung

WDVS

5 1019 1,8 5

1,8 5

7 97

Perimeter dämmun g

7 97

OK FFB

OK RF B

8 9,7 3

Holz

1, 27

2, 85

2, 85

1, 95

1, 86

1, 86 1, 95

1, 36

52

52

SW- Leitung

1, 36 1, 27

2, 85

2, 70

2, 85

RF B O G= RF B O G= 3 44 .18 3 44 .18

52

52

RF B O G= RF B O G= 3 44 .18 3 44 .18

2, 70

2, 70

2, 85

2, 85 2, 70

RW-Leitung

vorh. SW-Leitun g

Baufenster

Ringdrainag e

Grun dstücksgrenze

RF B O G= RF B O G= 3 44 .18 3 44 .18

3,4 08

3,4 08

1,8 4

1,8 4

1,2 56

1,2 69 56

69

2,6 37

2,6 37

R 58

2,0 0

2,0 0

1,1 85

5 10 1,1 8 82 10

82 76

7 8 56 776 10 19 8 56 101,8195

1,8 5

977

977

7,4 01

0

R 58

-

7,4 01o d

2 9.11 .13

0 9.10 .13

st

2, 85

2, 85

1, 95

9 2, 57 1, 95

9 2, 57

2, 70

2, 85

2, 85

2, 70

2, 70

2, 85

2, 85 2, 70

Au sfüh ru ng spl an u ng

Wo h nh a us m it T ief g ar ag e Bau gr un ds tüc k: Ha up tm an nsr eu te 21 70 19 3 Stut tga rt

4

1, 49

3, 10

1

9°

3, 10

1

9°

3 2, 03

60 2, 31

2, 31

60

3 2, 03

+339. 81 +339. 81

2, 56

2, 56

8,5 6m

3 40 .96

4

RFraBsse EG T3er40ra.96 sse RF B EG T er 3 40 ,8 1 3 40 ,8 1

1, 49

55

55

RFraBsse EG T er ra sse RF B EG T er 3 40 ,8 1 3 40 ,8 1

55

Bau he rr : Wa ldb au r Bau un d Gr un ds tüc ksg ese llsch aft m bH Ro teb üh lstr as se 83 70 17 8 Stut tga rt

RFraBsse EG T er ra sse RF B EG T er 3 40 ,8 1 3 40 ,8 1

Ground Floor Plan

1st Floor Plan

25

25

F FB T G= F FB T G= 3 35 .35 3 35 .35

33

R 2,7 0

Abdichtung

Spielplatz Spielplatz

Basement Plan

Stahlbeton

The Project is a modern residential building, which was being built instead of an old villa. The design of the building was handed in to the company with basic old plans, sections and elevations. The Program VectorWorks was used in this project. Almost all German architectural companies use this program to do everything. 5

RF=BT er ra sse = RF BT er ra sse 3 47 .43 3 47 .43

70

1, 08

2, 70

5

5

8 1, 96

2, 13

8 1, 96

2, 13 2, 70

3

37

99

37

3

Lege nde

5

99 RF=BT er ra sse = RF BT er ra sse 3 47 .43 3 47 .43

55

Also other curved parts in the elevations were made (like windows)

Roof Floor Plan

Vo ra bzu g

8,5 6m

We rk pla nu ng /Bau leitu ng : o hl f s ch o ch a rch ite kte n ch ar lott en str ass e 2 9- 31 70 18 2 Stut tga rt T el.: 07 11 -6 24 27 1 F ax. : 0 71 1- 62 42 74

5, 00

5, 00

2, 77

4

3 3,3 5

4

4

8 25, 33 8

10

10

1, 95

6 1,2 5

1, 30

1,8 4

1, 27

RF B O G= 3 44 .18

52

RF B EG T er ra sse 3 40 ,8 1

9

9 2, 85

3

6 2,6 2

4,8 2

RF B O G= 3 44 .18

R 58

9 2, 57

2

2,3 0

2, 85

1

2 1,9 9

1, 86

5 1,1 8

3,4 0

1, 95

7 1,2 3

1, 36

69

5

6 1,2 5

6, 10

1,8 4

2, 85

1, 36

8 3,4 0

70

5

55

2, 85

6

1 1, 36

1

8 3,4 0

2, 70

2, 85

5

1, 99

1, 20

55

2, 70 55

RF B EG T er ra sse 3 40 ,8 1

4

3, 89

RF BDa ch= 3 50 .80

37

5

2, 70

55 2, 70

2, 85

2, 14

RF B O G= 3 44 .18

52

RF B O G= 3 44 .18

2, 85

7

89

28

RF BT er ra sse = 3 47 .43

70

1, 08

1, 86

8 1, 96

2, 24

31

1, 27

3

3

5, 88

3, 07

1, 95

99

RF BT er ra sse = 3 47 .43

2

3, 07

1, 95

My assignment was to work with the new plans of the residential building by fixing the old plans, the old dimensions and putting exact calculation so they could be read properly by the contractor.

1

81

During my internship there were great changes that had to be done to this project.

An sic ht Ost In de x: 0 M aß sta b: 1: 50

Da tum : 09 .04 .2 01 4

8 9,7 3

1

9 2, 01

9

2, 77

9 2, 01 7

45 8

45 8

1,10

80 6

+0, 85 1,10

HZ K

HZ K

HZ K

1 1,10

90

1,10

90

1,10

1,10

B

A

1,10

1,10

90

1,10

1,10

90

45 8

41 4

45 8

30 1,10

B

A

45 8

Besprecher +0, 85 HZ K

43

43

45 8

Besprecher

43

1

45 8

80 6

HZ K

1

+0, 85

HZ K

30

6 30

+0, 85

Lichte Hö he 2.33

30

HZ K

+0, 8

6 30 +0, 95

1,10

1,10

6

30

HZ K

leinwand

80

80

leinwand

Besp

Espr esso m

1,

Espr esso

90

1,10

Besprecher

leinwan

41 4

41 4

The both companies OhlfSchoch and LDE Belzner Holmes (the light design company) want to do some changes in our place and put another extra meeting room for both offices. So I was assigned to draw the new meeting room with the new dimensions and sections for the new plan as they wanted it to be done .

84 5

80

40

Schnitt A-A

Schnitt B-B

1

3,51

1

40 43

42

40

3,51

40

80

Schnitt D- D

1 33

68

1

3,51

40

88

2,62

40

RH

84 5

35 3

Regal RH

1 33

49 3

49 3

Regal RH

35 3

41 4

RH

+0, 95

RH

RH

T isch pla tte d= 2 8 m m

Lichte Höhe 2.17 be sch ich tet RAL 90 16 1, 70 x 8 5

+0, 95

1,10

1,101,10

90 1,10 1,10 90

90 1,10 1,10 90

1,10 1,10

1,10

68

+0, 85

68 1

Schnitt C- C

Schnitt C- C

3,51 1

3,51 40

88

882,62

40

40 2,62

40

Schnitt D- D

Schnitt D- D

T isch pla tte d= 2 8 m m

Lichte Höhe 2.17 be sch ich tet RAL 90 16 1, 70 x 8 5

4, 43 5

60 80 1

32 5

80

80

+0, 85 45 8

45 8

45 8

45 8

45 8

45 8

45 8

45 8

45 8

45 8

45 8

45 8

41 4

41 4

41 4

41 4

45 8

80

40

1 40 43

3,51

1,10

1,10

90

1,10

Schnitt A-A

90 A

1,10

1,10 84 5

B

C

C

80

1,10

40

1 40 43

3,51

Besprecher

1,10

1 33

Schnitt A-A

40

49 3

1 43

35 3

Regal RH

33

41 4

45 8

1

41 4

RH

D

30

D- D

6 stü ck T isch pla tte

D

7

d= 2 8 m m be sch ich tet RAL 90 16

Öffnung fü r Kabe ldu rchführung

6 stü ck T isch pla tte d= 2 8 m m be sch ich tet RAL 90 16

RH

1, 43 x 8 5

+1. 165

1, 40 x 8 5

Besprecher

+0, 95

Schnitt B-B Bau kn ech t ET I 6 73 0 IN

+0. 90 T isch pla tte d= 2 8 m m

+0, 95

3,51

40

80

1 33

Lichte Höhe 2.17 be sch ich tet

+0, 85

1, 70 x 8 5

leinwand

6 30

1 42 40

Lichte Hö he 2.33

RAL 90 16

80

D- D

80

40

1 33

6

80

+0, 85

HZ K

HZ K

30

40

2,24

3,51

ablage

+0, 95

1 42 40

Espr esso masch ine

+0, 85 HZ K

+0, 85 HZ K

Schnitt B-B

A

B

Internship_ Ohlf Schoch Architekten 41 4

45 8

41 4

HZ K

+0, 85

HZ K

41 4

3

+0, 85

41 4

3

leinwand

Lichte Hö he 2.33

+0, 95

+1. 165

7

Charlottenstrasse (the office) +0, 85

+0, 95

Besprecher

45 8

45 8

45 8

45 8

45 8

34

45 8

Jamal Qawar Villa Project

35

Internship_ Eng. Nabil Zaki Goussous Architects Office

36

Photoshop Drawongs

Other Works

Models

Watercolor Drawings

Photoshop Drawings

Photoshop Drawings

38

watercolor

39

Models 1. Housing Project 2 Parametric Wall piece 3. Vertical Farming

40

LINDA MAZAHREH