WORKING DRAWINGS KING ABDULAZIZ UNIVERSITY | FACULTY OF ENVIRONMENTAL DESIGN
ARCHITECUTURE DEPARTMENT | WORKING DRAWING 473 | STUDENT WORKS
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WORKING DRAWINGS
WORKING DRAWINGS KING ABDULAZIZ UNIVERSITY | FACULTY OF ENVIRONMENTAL DESIGN ARCHITECUTURE DEPARTMENT | WORKING DRAWING 473 | STUDENT WORKS
WORKING DRAWINGS
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CONTENT
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WORKING DRAWINGS | 0-1
CONTENT 1 | INTRODUCTION 1-1 | COURSE OBJECTIVES 1-2 | WORKING DRAWINGS 1-3 | BIM VS CAD
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2 | COURSE MEMBERS 2-1 | INSTRUCTORS 2-2 | STUDENTS
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3 | PROJECTS 3-1 | PLANAR HOUSE 3-2 | CANTILEVER HOUSE 3-3 | LINEAR HOUSE
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4 | GALLERY
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0-2 | CONTENT
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INTRODUCTION
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WORKING DRAWINGS | 1-1
INTRODUCTION Within the scope of both courses: Working Drawings 1 and Working Drawings 2, that span over two academic semesters the students are expected to prepare a complete set of design and detailed construction drawings for a zero-energy vacation house located in Jeddah, Saudi Arabia. The course seeks to develop a student’s awareness, abilities and skills of buildings parts and components and relationships to each other. Through weekly exercises, students are familiarized with building systems and material specifications. Achieving a coordination between the various types of working drawings is essential; structural, electrical, plumbing and HVAC as well as architectural detailing. The concept development process involves the integration of renewable energy generation systems such as BIPV and small wind turbines. Therefore, it is imperative for the students to be able to continually conduct calculations and run simulations to assess building performance throughout the different design and working drawings stages. Moreover, students should constantly expect changes and modifications in their designs -similar to real life experience- from the instructors. For this purpose, students are expected to work in groups of three and to master the use of BIM software and to understand its potential in the development of well-coordinated building projects. This process involves manipulation of different building systems to achieve their architectural design objective. Having believed that the purpose of working drawings is to transform a dream building into a constructible one the participants should consider themselves solution providers and thus they may use different media and illustration facilities to explain their ideas. Model making for instance is part of the research process to study, analyze and the development of details. Developing models for small scale construction details using real materials like concrete, is not only fun, it helps understand how materials behave and the challenges involved in the preparation process.
1-2 | INTRODUCTION
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WORKING DRAWINGS Is the information prepared by designers, which is passed to a construction team to enable a project to be constructed … Production information may include: 1- Drawings, such as working drawings. 2- Specifications. 3- Bills of quantities or schedules of work. Working drawings provide dimensioned, graphical information that can be used; by a contractor to construct the works, or by suppliers to fabricate components of the works or to assemble or install components. Working drawings include: 1- Architectural drawings 2- Structural drawings 3- Civil drawings 4- Mechanical drawings 5- Electrical drawings 6- Plumbing drawings Traditionally, working drawings consist of 2 dimensional orthogonal projections of the building or component they are describing, such as plans, sections and elevations. These may be drawn to scale by hand, or prepared using Computer Aided Design (CAD) software or through building information modelling (BIM) which creates 3 dimensional representations of buildings and their components for construction. Working drawings may include title blocks, dimensions, notation and symbols. It is important that these are consistent with industry standards so that their precise meaning is clear and can be understood. Specification information can be included on working drawings. The scale at which drawings are prepared should reflect the level of detail of the information they are required to convey. Different line thicknesses can be used to provide greater clarity for certain elements. Working drawings might be prepared for; statutory approvals, for contractors to plan the construction works, to provide instructions on site, for the procurement of components, for the preparation of shop drawings, for the appointment of subcontractors and so on. Responsibility for the preparation of production information will depend on the selected system of procurement and the chosen form of contract. Working drawings may be updated when the works are complete to show ‘as constructed’ information, reflecting changes to the works that may have occurred during the construction process.
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WORKING DRAWINGS | 1-3
Reference: Working Drawings | DesigningBuildings website
BIM VS CAD To Compare BIM against CAD, we will list the advantages of BIM over CAD, and draw a conclusion: BIM advantages: 1- Quickly create and review multiple design scenarios. 2- Offers many tools to create schematic massing models. 3- Detailed construction-ready models, without losing any of the design intent in the first place. 4- Continuously updated database. 5- Easier to manage data accuracy and integrate all project aspects during the design phase. 6- Earlier and more accurate visualization of a design. 7- Automatic low-level corrections when changes are made to design. 8- Accurate and consistent generation of 2D drawings or 3D renderings at any stage of the design. 9- Earlier collaboration of multiple design disciplines. 10- Easier checks against design intent. This will result in better specifications, estimations, schedules, and compliance, as well as the ability to produce detailed 3D models and simulate construction whenever needed. CAD still relies on passing information from the design team to the construction document team, which may lead to time waste or diverting from the design intent.
Reference: Why do we need BIM? | thebns website
1-4 | INTRODUCTION
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COURSE MEMBERS
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WORKING DRAWINGS | 2-1
INSTRUCTORS
DR. MOHANNAD BAYOUMI
ARCH. ABDUALAZIZ AFANDI
2-2 | COURSE MEMBERS
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STUDENTS
ALBARA’A GHABBAN
HOSSAM FARGHAL
SIRAJ MANDOURAH
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WORKING DRAWINGS | 2-3
SALEM MALIBARY
HOMOUD ALKHAMMASH
AZZOUZ AZZOUZ
ABDAULAZIZ ALGHAMDI
AHMED ZAINYMUTWAKIL
BADOR TAKHAH
MOAYAD ALQAHTANI 2-4 | COURSE MEMBERS
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WORKING DRAWINGS | 3-0
PROJECTS
3-0 | PROJECTS
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03-01 PLANAR HOUSE
Planar House is a vacation unit designed for a couple. The house is located in Jeddah facing Obhour, it’s a two storey building that uses wood and concrete as construction elements, with an area of 135 msq. The concept emphasizes on an open plan while obtaining a zero net energy building. The building utilizes solar panels on the horizontal roof for energy gathering, combined with a small vertical wind turbine. Design team : Albara’a Ghabban - Hossam Farghal - Ahmed ZainyMutwakil
TABLE OF CONTENTS 3-1-0-1 SYMBOLS 3-1-0-2 LOCATION 3-1-0-3 CONCEPT 3-1-0-4 MATERIALS 3-1-1-1 SITE PLAN 3-1-1-2 GROUND FLOOR 3-1-1-3 BASEMENT FLOOR 3-1-2-1 SECTION A-A 3-1-2-2 SECTION B-B 3-1-3-1 DETAILS 3-1-4-1 ELEVATIONS 3-1-5-1 MEP 3-1-6-1 PHASES 3-1-8-1 MODELS 3-1-9-1 ENERGY ANALYSIS 3-1-10-1 MEDIA
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WORKING DRAWINGS | 3-1-0-0
SYMBOLS
3-1-0-1 | PLANER HOUSE
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LOCATION
MAKKAH, JEDDAH, SHARM OBHOUR
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WORKING DRAWINGS | 3-1-0-2
Reference: Google Maps
CONCEPT The concept is drawn form from an open plan, it places all the servicing area into one side of the house, while leaving the rest of the plan free. Another key element is the benefit from sea view as much possible, so we left the north facade all glass to maximise on that. While drying to pursue a good quility of life for the occupants, we also, considered the climate and obtained a zero-net energy building.
3-1-0-3 | PLANER HOUSE
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MATERIALS Fair-faced concrete: Type: foam glass as an aggregate mixed with concrete Benefits 1- Fair-faced concrete, insulating and load-bearing from a single cast 2- Very pleasant interior climate thanks to diffusion permeability 3- No thermal bridges (condensation free) 4- The whole wall from a single source (builder) 5- Valuable contribution to environmental protection 6- Resistant, insulating walls are possible (industrial plants) Sustainable construction: Ecology: Misapor insulating concrete is based on a grain mixture that consists of 100% foam glass, that can be recycled on demolition without any problems. The high insulating capacity and the dynamic heat effects offer additional energy-saving options. Economy: Misapor insulating concrete is durable, reduces heating costs and is a worthwhile investment for generations. Indoor climate: Misapor insulating concrete creates diffusion permeable walls, the associated moisture management gives a pleasant indoor climate. The walls radiate a cosy heat, and are at a nice temperature to the touch. The sensual perception is not limited to the eye - you can also feel the uniqueness of the concrete when you touch its surface: warm and soft, almost like wood.
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WORKING DRAWINGS | 3-1-0-4
Reference: Technical Manual | misapor website
SITE PLAN
1m
3m
8m
3-1-1-1 | PLANER HOUSE
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GROUND PLAN
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2
3
F1
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16
13 12
11 10
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6
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1
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WORKING DRAWINGS | 3-1-1-2
1m
3m
8m
BASEMENT PLAN
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16 15 14 13 12 11
10
9
7
8
3
2
1
4
5
6
1m
3m
8m
3-1-1-3 | PLANER HOUSE
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SECTION A-A
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WORKING DRAWINGS
1m
3m
8m
SECTION B-B
1m
3m
8m
3-1-2-2 | PLANER HOUSE
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DETAILS 2
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6
10
3
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1:5
5
4
6
2 1
3 2 6 4 5
1:5
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WORKING DRAWINGS | 3-1-3-1
1:10
DETAILS 1
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5 6 4 2
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1:20
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6 2
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1:10
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15 7 1:10 1- FAIR-FACED CONCRETE 45 CM 2- WOODEN BOARD 2.5 CM 3- WOODEN COULMN 4- THERMAL INSULATION 7.5 CM 5- MOISTURE INSULATION 0.5 CM 6- AIR GAP 2.5 CM 7- GLASS 8- REINFORCED CONCRETE 9- MORTAR 10- WOOD FRAME 11- WOODEN BEAM 12- BEAM JOINT 13- CONCRETE 14- METAL SHEET 15- STUD 16- ALUMINUM 3-1-3-2 | PLANER HOUSE
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ELEVATIONS
NORTH ELEVATION
EAST ELEVATION
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WORKING DRAWINGS | 3-1-4-1
1m
3m
8m
ELEVATIONS
WEST ELEVATION
SOUTH ELEVATION
1m
3m
8m
3-1-4-2 | PLANER HOUSE
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MEP
AHU
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WORKING DRAWINGS | 3-1-5-1
Chiller
Supply
Return
Intake
V. Stack
Supply
Drainage
Hot Water
Rain Pipe
MEP
Plumbing System - Supply and Drainage Pump
Valve
Cold Water
Hot Water
Water Gauge
Pump
Water Main
Water Closet Behind the Wall
Sump-Pit
Building Trap
Sanitary Sewers
Vent. Stack
3-1-5-2 | PLANER HOUSE
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PHASES
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01 Digging
02 Pad
03 Moisture Insulation
04 Foundation
05 Coulmns
06 Beams
WORKING DRAWINGS | 3-1-6-1
PHASES
07 Floors
08 Fill
10 Floors
11 Walls
09 Coulmns and load bearings wall
12 Roof
3-1-6-2 | PLANER HOUSE
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INSULATIONS
Section A-A
Thermal Insulation
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Section B-B
Water Insulation
Thermal Insulation
Water Insulation
WORKING DRAWINGS | 3-1-7-0
SCHEDULES Room Schedule
Comments
Grand total: 12
Structural Column Schedule
Grand total: 80
Ceiling Schedule
Grand total: 3
3-1-7-1 | PLANER HOUSE
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SCHEDULES Wall Schedule
Grand total: 43
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WORKING DRAWINGS | 3-1-7-2
SCHEDULES Door Schedule
Grand total: 10 Window Schedule
Grand total: 4
3-1-7-3 | PLANER HOUSE
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DESIGN TEAM
01042016 - Design Team
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WORKING DRAWINGS | 3-1-8-1
MODELS
03092015 - Structural model for the first proposal
03092015 - Solid and void
10092015 - Preliminary design
17092015 -Proposal Second 3-1-8-2 | PLANER HOUSE
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MODELS
22102015 -The first sign of our intent concept surfacing
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WORKING DRAWINGS | 3-1-8-3
MODELS
15102015 -Third proposal
05112015 -Model showing the exterior and interior
24122015 - Sectional model to represent the spaces
24122015 - Sectional model to represent the shaft 3-1-8-4 | PLANER HOUSE
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MODELS
05112015 -Shear wall to roof connection
05112015 -Creating life
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WORKING DRAWINGS | 3-1-8-5
24122015 -Column to roof joint
10032016 - Sectional wall
MODELS
01042016 - Ahmed with models
01042016 - Baraa with models
01042016 - Hossam with models
05112015 - Skylight 3-1-8-6 | PLANER HOUSE
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MODELS
24122015 - Plumbing system supply
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WORKING DRAWINGS | 3-1-8-7
24122015 - Plumbing system drainage
MODELS
24032016 - Ground and basement floor
24032016 - living room shot
12042016 - Waiting cement to be ready 3-1-8-8 | PLANER HOUSE
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MODELS
24032016 - Planar house interior stairs
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WORKING DRAWINGS | 3-1-8-9
MODELS
24032016 - The model represent the systems in the shaft 3-1-8-10| PLANER HOUSE
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MODELS
16042016-Hossam in work
16042016 - Preparing materials
17042016 - Shear wall to wooden wall joint
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WORKING DRAWINGS | 3-1-8-11
15042016 - Thermal insulation
MODELS
24042016 - Using actual material to represent the callout 3-1-8-12 | PLANER HOUSE
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ENERGYCALCULATIONS ENERGY Concrete wall:
Typical exterior wall:
Typical interior wall: Air Gap
Air Gap
50 Int.
Ext.
Wood Board
Concrete Concrete
Insulation Wood Board
U-Value = 0.15 *Layers of the MISAPOR concrete and its U-value.
WORKING DRAWINGS | 3-1-9-1
Wood Board
U-Value = 0.229 *Layers of the exterior wall (west and south walls) with its U-value.
*Decrease in temperture and humidity in the exterior wall.
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Wood Board Wood Column Thermal Insulation Wood Board
Water Insulation
Wood Column
U-Value = 1.21 *Layers of the interior walls and its U-value.
*Decrease in temperture and humidity in the roof.
ENERGY CALCULATIONS ENERGY CALCULATIONS U-Value (Q't):
Required cooling calculations:
*Firstly we calculated Heat transmitted through elements of the envelope.
*We needed to figure out the exact cooling energy we will be needing to cover, so we can make sure our demand wont be high, as the electrical power from the cooling unit plays a key element.
Transmission through glass and shading device (Q'r):
A.C. and covered cooling:
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*Calculating the heat transmitted through direct radiation on windows.
Heat from electrical lighting (Q'i): *Here are the most important figures of the A.C. we have chosen, it also shows how much cooling it will cover. *Heat emitted from electrical lights. Lighting Heat (Q’i)
Conditioning (Q'a): Radiation (Q’r)
*Heat added from conditioning.
Wall U-Value (Q’t) Occupants (Q’i)
Heat from equipment and occupants (Q'i):
Window U-Value (Q’t)
A.C. (Q’a) Equipment (Q’i)
*Heat emitted from occupants and devices that irradiate heat.
Total Cooling Load = 5647.12 Watt
Cooling Load/m2 = 49.11 W/m2
*After summing up all the loads we get the figures that are imporatnt to our calculations, total cooling load and cooling load/m².
*Key diagram for the above shown calculations.
3-1-9-2 | PLANER HOUSE
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ENERGY ENERGY CALCULATIONS Devices Calculations:
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Tesla Car Calculations:
Lighting Calculations:
After calculating the cooling load, we selected some of the common household equipment and devices and calculated its electrical power demand. In the suggested scenario the worst case was considered having the A.C. on for 14 hours daily, furthermore, an electrical car that drives 100km/day on avergae was added, and we calculated the electrical power usage from lighting. After calculating the annual electrical energy demand for each device, a factor of simultaneous was taken into account.
Total Annual Energy Demand = 24940 kWh/a
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WORKING DRAWINGS | 3-1-9-3
ENERGY ENERGY CALCULATIONS Load Profile:
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*Load profile of a typical summer day in June for each device.
Hourly Irradiation and electricty yield of PV cells and cost(SAR):
*Detailed energy gain for every hour in a June day, plus calculation of price representation where figures in (+) means saving and (-) means spending.
Hourly electricty cycle:
*Detailed hourly flow of energy between instant use, storing and using from the grid. 3-1-9-4 | PLANER HOUSE
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ENERGY CALCULATIONS ENERGY
50
*Demand peaks at late afternoon and evening, extreme demand at midnight due to car charging.
*Load profile for each device individually, high frequency of different devices used at early morning, late afternoon and evening.
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WORKING DRAWINGS | 3-1-9-5
*A.C. and car charge most demanding.
ENERGY CALCULATIONS ENERGY
50 *(left graph) From 7am to 6pm the energy gain is covering the demand and storing extra for use at night. (right graph) on days with worst case scenario the demand is higher than the supply, it evens out throughout the year.
*(left graph) Savings are high midday, suggesting more PV cells more energy stored for use at night. (right graph) On (june) days your only paying 3.3 SAR instead of 26 SAR.
*A prediction of energy managment throughout the day, only at dawn where we are actully are using from the grid on (june) days. 3-1-9-6 | PLANER HOUSE
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ENERGY ENERGYCALCULATIONS Solar calculations and yield:
50
We have used crystalline silicon cells for the conversion on solar energy into electricty, and to accuratly calculate the energy yield given by the system we used the photovoltaic geographical information system (PVGIS) that has been provided by the institute of energy and transport, Joint research center of the european commission. We determined to have 14% efficiency, this is becuase we wanted to calculate in the worst case scenario, and the cells being horizontal with no tilting, for aesthetic reasons. You will notice in the table above we had to divide by 7, this is to neglecte the kWp that the calculator uses. The figure that matters here mostly is the total energy gained under the Q`e(daily) or (monthly) /m2, this will be multiplied by the total area of PV cells. The graph (left) shows the irradiation monthly compared to the total energy gain thru the PV cells in that month.
Wind Turbine calculations and yield: To maximise on energy gain, we also, used a small wind turbine. Firstly we needed to know the wind speed distribution, we used a Wiebull distribution for wind on the location to accuratly measure how many hours to each wind speed. Then we used this formula to calculate the yield at each speed: Power=0.5 x Swept Area x Air Density x Velocity3 x Betz limit
we assumed the Betz limit was 35%, summing up we had our total energy yield from our turbine.
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WORKING DRAWINGS | 3-1-9-7
ENERGY CALCULATIONS ENERGY PV Info. & Calculations: PV cells efficiency: 14% Estimated losses due to temperature and low irradiance: 19.9% (using local ambient temperature) Estimated loss due to angular reflectance effects: 2.8% Other losses (cables, inverter etc.): 14.0% Combined PV system losses: 33.1%
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Total area of PV cells 110m2
kWp 7m2
Total Annual PV Supply = 24671 kWh/a Wind Turbine Info. & Calculations: PV cells Wind Turbines
Total Annual Wind Turbine Supply = 3035 kWh/a
3-1-9-8 | PLANER HOUSE
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ENERGY CALCULATIONS ENERGY
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Crystalline Silicon PV Cells Area = 110 m2 Annual Energy Yield = 24,761 kWh/a
Devices & Appliances Avg. Annual Energy Consumption = 9,116 kWh/a
Lighting Avg. Annual Energy Consumption = 599 kWh/a Aeolos-V 10kW Quantity: 1 Annual Energy Yield = 3035 kWh/a A.C. Avg. Annual Energy Consumption = 8,256 kWh/a
Tesla Car (Model S) Avg. Daily Usage :100 km Charge Time (100km): 2 Hours 12 Mins Avg. Annual Energy Consumption(Daily Usage) = 6,970 kWh/a
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WORKING DRAWINGS | 3-1-9-9
Tesla Powerwall Quantity: 6 Stores upto = 60,000 kWh Power = 12,000 kWh
Demand
PV Supply
Wind Supply
Electrical Storage
MEDIA Our team has provided two videos, the first video is showcasing the evolution of project phases and an energy explenation. The Second video is a schedule tutorials using Autodesk revit, Which includes: 1- Adding Schedules. 2- Modifying Schedules. 3- Quantities and Types.
Project Video
Schedule Tutorials
3-1-10-1 | PLANER HOUSE
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03-02 CANTILEAVER HOUSE Design team : SALEM MALIBARY - SIRAJ MANDOURAH - AZOUZ AZOUZ
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WORKING DRAWINGS
A three storey house located in Saudi Arabia - Jeddah It's a vacation house which fits the needs for a wife and her husband to enjoy thier weekend days or the vacation during the year , it has the normal daily activity with a swimming pool and home theater to entertain them on those days , and it has a sea view on the west side of it which the reason that we used to rise up the building on the shear wall to extend the sea to its maximum and to decrease the footprint to the site to its minimum . which makes this building special is the cantilever part which constructed with steel members that lay on the adjacent reinforced concrete wall that work as bearing walls
Material used : Reinforced concrete
Steel
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TABLE OF CONTENTS 0-1 LOCATION 0-2 CONCEPT 1-1 SITE PLAN 1-2 BASEMENT FLOOR 1-3 GROUND FLOOR 1-4 FIRST FLOOR 2-2 SECTION A-A 2-2 SECTION B-B 3-1 DETAILS 4-1 ELEVATIONS 5-1 MEP 6-1 PHASES 8-1 ENERGY ANALYSIS 9-1 MODELS
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WORKING DRAWINGS | 3-2-0-0
LOCATION Jeddah - King abdulaziz road - Camel roundabout SITE LOCATION SITE LOCATION
JEDDAH - KING ABDULAZIZ ROAD - CAMEL ROUNDABOUT JEDDAH - KING ABDULAZIZ ROAD - CAMEL ROUNDABOUT SUN PATH Sun Path SUN PATH
KAUARCH KAUARCH King Abdulaziz University Department of Architecture King Abdulaziz University Department of Architecture
ANNUALAnnual WIND ROSE wind (SPEED) rose ANNUAL WIND ROSE (SPEED)
CANTILEVER HOUSE CANTILEVER SITE & WEATHER HOUSE SITE & WEATHER
AVERAGE AverageCONDITIONS conditions AVERAGE CONDITIONS
CLIENT: DR. MOHANNAD BAYOUMI CLIENT: ARCH. ABDUALAZIZ AFANDI DR. MOHANNAD BAYOUMI DRAWN: ARCH. ABDUALAZIZ AFANDI AZOUZ AZOUZ SALEM MALIBARY DRAWN: SIRAJ MANDOURAH AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
AR473 -
JOB / DRAWING No.
G003
3-2-0-1 | AR473 CANTILEAVER HOUSE - G003
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CONCEPT Concept of orientation/site CONCEPT OF ORIENTATION/SITE CONCEPT OF ORIENTATION/SITE
CONCEPT OF STRUCTURE Concept of structure CONCEPT OF STRUCTURE
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KAUARCH CANTILEVER HOUSE HOUSE WORKING DRAWINGS | 3-2-0-2CANTILEVER KAUARCH CONCEPT King Abdulaziz University Department of Architecture
King Abdulaziz University Department of Architecture
CONCEPT
CLIENT: DR. MOHANNAD BAYOUMI CLIENT: ARCH. ABDUALAZIZ AFANDI
JOB / DRAWING No.
DR. MOHANNAD BAYOUMI DRAWN: ARCH. ABDUALAZIZ AFANDI AZOUZ AZOUZ SALEM MALIBARY DRAWN: SIRAJ MANDOURAH AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
AR473 AR473 -
G601 G601
SITE PLAN KAUARCH King Abdulaziz University Department of Architecture
CLIENT:
CANTILEVER HOUSE
DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFAND DRAWN:
SITE PLAN
SALEM MALIBARY SIRAJ MANDOURAH
300 mm
150 mm
0 mm
5 mm
0 mm
0 mm
0 mm
KAUARCH 1m
3m
King Abdulaziz University Department of Architecture
CANTILEVER HOUSE 8m
SITE PLAN
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI
67 A - A101
JOB / DRAWING No.
3-2-1-1 | CANTILEAVER HOUSE
DRAWN: SALEM MALIBARY SIRAJ MANDOURAH
BASEMENT PLAN
A
B
C
1
D
E
A301
F
G
H
1350 mm
2669 mm 1
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UP
A303
4150 mm
6780 mm 1350 mm 1350 mm
2 2 1
1
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2365 mm
150 mm 1605 mm 150 mm 1645 mm 150 mm
2563 mm
1150 mm
1350 mm
4 1 A501
5915 mm
5
3000 mm
3000 mm
3000 mm
3000 mm
3000 mm
3000 mm
3000 mm
Basement 1 : 50
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WORKING DRAWINGS | 3-2-1-2
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE BASEMENT PLAN
CLIENT:
1m
DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: SALEM MALIBARY SIRAJ MANDOURAH
3m
8m JOB / DRAWING No.
A - A103
GROUND PLAN
B
C
D
E
1
F
G
H
I
J
A302 A301
1350 mm
4050 mm
1350 mm
4025 mm
3
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9
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UP
W8
1350 mm
2
A303
2700 mm
1350 mm
1 1
2 W11
1000 mm
1200 mm
1350 mm
1350 mm
1350 mm
3 1
2850 mm
1350 mm
1350 mm
4
2 A501
3000 mm
3000 mm
1025 mm
5
Ground Plan 1 : 50
CANTILEVER HOUSE
KAUARCH King Abdulaziz University Department of Architecture
1m
GROUND DETAIL 3m
8m
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN:
JOB / DRAWING No.
A - A105
SALEM MALIBARY SIRAJ MANDOURAH
3-2-1-3 | CANTILEAVER HOUSE
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FIRST PLAN B
C
D
E
F
G
H
I
J
1 A301
W11
1 1
2
3
4
5
6
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1
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A303
1
2
4 Elevation 2 - a
915 mm
I201
5400 mm
Elevation 1 - b
1
3
3 W11
1 Elevation 1 - a
1870 mm
2790 mm
2540 mm
I201
1200 mm
5400 mm
Elevation 1 - d
2
4 3210 mm
5 3000 mm
6064 mm
3000 mm
3000 mm
6295 mm
1 A502
3000 mm
3000 mm
24424 mm
3000 mm
12065 mm
3000 mm
3000 mm
FIRST PLAN 1 : 100
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WORKING DRAWINGS | 3-2-1-4
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE FIRST DETAIL
CLIENT: 1m DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: SALEM MALIBARY SIRAJ MANDOURAH
3m
8m JOB / DRAWING No.
A - A107
SECTION A-A J
I
H
G
F
E
D
C
B
2 A504
04 Roof 6000 mm
03 First 3000 mm
1 A506
2 A505
1 A505
02 Ground 0 mm
05.0 BASEMENT PLUMBING -3600 mm
KAUARCH 1m
King Abdulaziz University Department of Architecture
3m
CANTILEVER HOUSE SECTION (2)
8m
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
AR473 -
A304
3-2-2-1 | CANTILEAVER HOUSE
71
SECTION B-B 1
2
3
4
5
2 A503
1 A504
04 Roof 6000 mm
04 Roof 6000 mm
03 First 3000 mm
02 Ground 0 mm
03 First 3000 mm
1 A503
02 Ground 0 mm
05.0 BASEMENT PLUMBING -3600 mm
05.0 BASEMENT PLUMBING -3600 mm
2 A506
72
CANTILEVER HOUSE KAUARCH WORKING DRAWINGS | 3-2-2-2 King Abdulaziz University Department of Architecture
SECTION (1)
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
A - A302
DETAILS
1 1 2 3 4 5 2 3 4 5 6
6 7
7 8
8 9
9 10 10
11
1
Section 2 - Callout 4 1:5
1. PLASTER 2. REINFORCED CONCRETE 3. MEMBRENE 4. STEEL SHEET (MEMBRENE PROTECTION )
KAUARCH King Abdulaziz University Department of Architecture
2
25MM 200MM 50MM 5MM
5. L SHAPE STEEL (SUPPORTER ) 6. BOLT 7. STEEL (250MM*150MM) 8. THERMAL INSULATION 9. REINFORCED CONCRETE 10. I BEEM
CANTILEVER HOUSE CALLOUT
Section 7 - Callout 3 1:5
1. GLASS PANEL 2. MEMBRENE 5MM 3. ALUMINIUM FRAME SECTION 4. WOOD BLOCK 5. THERMAL INSULATION 50MM 6. WOOD BLOCK 7. STEEL TUBE (250MM*150MM) 8. REINFORCED CONCRETE 200MM 9. I BEEM 10. L SHAPE STEEL FINISHING 11. ALUMINIUM FRAME SECTION
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
A|-CANTILEAVER A504 3-2-3-1 HOUSE
73
DETAILS 1 2 3 4
1
148 mm
1 2
5 6
3
7
4
8
9
5
10 11 12
6
178 mm
4 5 6 7 8
178 mm
2
3
9
7
10
1
Section 7 - Callout 4 1:5
1. GLASS PANEL ( 6mm ) 2. SLIDING DOOR ALUMINIUM SECTION 3. STEEL SHEET ( PROTECTION ) 4. WOOD BLOCK ( THERMAL BRIDGE ABSORBER ) 5. FLOOR FINISHING ( 600MM*600MM TILE ) 6. MORTER 7. THERMAL INSULATION 8. REINFORCED CONCRETE 9. L SHAPE BEEM 10. I BEEM 11. STEEL SHEET ( 6MM THEMAL INSULATION PROTECTION ) 12. L SHAPE STEEL SUPPORT ( 3MM )
74
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE
WORKING DRAWINGS |CALLOUT 3-2-3-2
2
Section 7 - Callout 5 1:5
1. REINFORCED CONCRETE 01 Basement Details - Callout 1 2. WOOD TREAD 1 1:5 3. I BEEM 4. L-ANGLE-BOLTED CONNECTION 5. GLASS ALUMINIUM 1. GYPSUM BOARD 25MM 6. GLASS PANEL ( 6MM ) 2. THERMAL INSULATION 100MM 7. STEEL BEEM ( STAIR SUPPORT ) 3. METAL STUD 4. SCREW BOLT 5. WOOD ( 150MM * 25 MM ) 6. PLASTER 25MM 7. REINFORCED CONCRETE 200MM 8. THERMAL INSULATION 50MM 9. WATERPROOF MEMBRENE 5MM 10. BRICK
CLIENT:
KAUARCH
DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI
DRAWN: King Abdulaziz University Department of Architecture
SALEM MALIBARY SIRAJ MANDOURAH
CANTILEVER HOUSE A - A505 JOB / DRAWING No.
CALLOUT
DETAILS 1 1
2
2
3
3 4
1 4
5
2
5
6 3 4 5
7
6
8
7 8
9
9 10
6 7
1 2
02 Ground Detail - Callout 1 1:5
Section 7 - Callout 6 1:5
1. GLASS PANEL ( 6mm ) 2. SLIDING DOOR ALUMINIUM SECTION 1. GYPSUM BOARD 25MM ( 600MM*600MM TILES ) 2. THERMAL INSULATION 3. FLOOR FINISHING 100MM 4. MORTAR 3. SCREW BOLT 5.STEEL RODS ( CONNECTING TERRACE WITH INTERIOR FLOOR ) 4. METAL STUD 6. WOOD BLOCK 5. LAG SCREW 7. THERMAL 6. GLASS PANEL ( SOLAR PANEL COVERINSULATION ) 6MM 8. STEEL SHEET 450MM ( 4MM ) 7. REINFORECED CONCRETE 9. L SHAPE STEEL SHEET SUPPORT(3MM ) 8. PLASTER 25MM 10. I BEEM 9. STONE
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE
CLIENT:
CALLOUT
DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
A - A501
2
Section 2 - Callout 1 1:5
1. WOODBOARD (25MM ) 2. REINFORCED CONCRETE (200MM) 3.THERMAL INSULATION (50MM) 4. CONCRETE (70MM) 5.BRICK (200MM) 6. WATERPROOF ( 5MM ) 7. BUILDING BAD ( 200MM)
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN:
JOB / DRAWING No.
A - A506
SALEM MALIBARY SIRAJ MANDOURAH
3-2-3-3 | CANTILEAVER HOUSE
75
SWIMMING POOL
2 M904
76
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE
WORKING DRAWINGS |SWIMMING 3-2-3-4
POOL
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
1m
JOB / DRAWING No.
3m
AR473 -
M903
8m
SWIMMING POOL DETAILS 1 1 2
2
1 M904
3 4
3 4 1. FIBER GLASS WATER PROOF ( 20MM ) 2. REINFORCED CONCRETE ( 450 MM ) 3. TILES ( 30*30 MM ) 4. MORTER ( 5MM )
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE CALLOUT
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
AR473 -
M904
3-2-3-5 | CANTILEAVER HOUSE
77
ELEVATIONS J
I
H
G
F
E
D
C
B
04 Roof 6000 mm
03 First 3000 mm
02 Ground 0 mm
North NORTH ELEVATION 1 1 : 50
78
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE
WORKING DRAWINGS | 3-2-4-1 Elevation
(2)
CLIENT: JOB / DRAWING No.
DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI
1m
DRAWN:
SALEM MALIBARY SIRAJ MANDOURAH
3m
A - A202 8m
ELEVATIONS
1
2
3
4
5
5
4
3
2
1
04 Roof 6000 mm
04 Roof 6000 mm
03 First 3000 mm
03 First 3000 mm
02 Ground 0 mm
02 Ground 0 mm
WEST ELEVATION West 1
EAST ELEVATION East
2
1 : 50
KAUARCH 1m
3m
King Abdulaziz University Department of Architecture
CANTILEVER HOUSE Elevation (1)
8m
1 : 50
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
AR473 -
A201
3-2-4-2 | CANTILEAVER HOUSE
79
MEP HVAC
PACKAGE
AIR SUPPLY
AIR RETURN
80
WORKING DRAWINGS | 3-2-5-1
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE HVAC
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
A - M901
MEP STACK VENT.
PLUMING
WATER TANK WATER HEATER
DR AN AIG E
SUMP PIT
LY PP SU
KAUARCH King Abdulaziz University Department of Architecture
PUMP
CANTILEVER HOUSE Supply 3D
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
3-2-5-2 | CANTILEAVER HOUSE JOB / DRAWING No.
AR473 -
P901
81
PHASES
01 . Digging
02. Pad
05. Basement walls
82
WORKING DRAWINGS | 3-2-6-1
03. Foundation
06. Shear walls
04. Moisure insulation
07 Ground floor
PHASES 08. Ground walls
06 Beams
11.First walls
09. Steel structure
07 Floors
10. First floor
08 Fill
12. Roof
13.Solar panel
3-2-6-2 | CANTILEAVER HOUSE
83
SCHEDULES W10 INTERIOR WALLS
W3 GYPSUM BOARD
GYPSUM BOARD
GYPSUM BOARD
THERMAL INSULATION
THERMAL INSULATION
Wall Schedule Type Mark Count W1 W2 W3 W4 W5 W6 W7 W8 W9 W10 W11
4 10 24 2 1 4 6 1 6 3 7
Type
Function
00 swimming pool wall 00 Wall Basement 45cm 00 wall GYPSUM 15cm 00 Wall Shear with insulation 45cm 2 00 Wall Shear with insulation 45cm 3 00 Basement brick 00 Basement walls 00 Curtain Wall 00 parapet glass 00 interior wall 00 Curtain wall (Flexable)
Exterior Exterior Exterior Retaining Retaining Exterior Retaining Exterior Exterior Exterior Interior
Width 350 mm 450 mm 150 mm 500 mm 500 mm 200 mm 475 mm
210 mm
Cost SCALE 1/10
35.00 20.00 20.00 50.00 50.00 20.00 50.00 30.00 30.00 20.00 30.00
SCALE 1/10
W2 BASEMENT WALLS
W4 SHEAR WALLS PLASTER
PLASTER REINFORCED CONCRETE REINFORCED CONCRETE THERMAL INSULATION
SCALE 1/10
THERMAL INSULATION
SCALE 1/10
D2 DOOR INTERIOR SCALE 1/20
Door
Type Mark Count
84
Dooe Type
Height
Width
Function
Thickness
Material main
Cost
URL
D1
1
Sliding Door Interoir
2200 mm
1600 mm
Interior
40 mm
Wood
45.00
http://profin.fi/
D1
1
Sliding Door Interoir
2200 mm
1600 mm
Interior
40 mm
Wood
45.00
http://profin.fi/
D1
1
Sliding Door Interoir
2500 mm
1600 mm
Interior
40 mm
Wood
45.00
http://profin.fi/
D1
1
Sliding Door Interoir
2500 mm
1600 mm
Interior
40 mm
Wood
45.00
http://profin.fi/
D1
1
Sliding Door Interoir
2500 mm
1600 mm
Interior
40 mm
Wood
45.00
http://profin.fi/
D2
1
Door Interior 90cm
2200 mm
900 mm
Interior
50 mm
40.00
http://www.nanawall.com/
D3
1
Exterior Door
2541 mm
1535 mm
Exterior
60 mm
80.00
http://www.nanawall.com/
D3
1
Exterior Door
2559 mm
1159 mm
Exterior
60 mm
80.00
http://www.nanawall.com/
WORKING DRAWINGS | 3-2-7-1
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE SCHEDULE DOOR / WALL
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
AR473 -
G606
SCHEDULES Structural Framing Schedule Type
Type Mark
I Beam L Shaped Shear Wall L Beam Swimming Deck Beam Shear Wall L Beam (TOP) Grand total: 85
Cost
B1 B2 B3 B4 B5
Count
30.00 30.00 60.00 15.00 60.00
URL
35 11 2 35 2
Beam.com Beam.com Beam.com Beam.com Beam.com
Structural Column Schedule Type Mark
Type
Cost
C1 Column (1) C2 Column (2) Grand total: 34
Count
40.00 40.00
URL
4 30
structure.com structure.com
Floor Schedule Type Mark C1 F1 F2 F3 F4 F5 F6 F7 F8 F9 F10 F11
Count 1 1 1 2 1 1 1 2 3 2 1 1
Type roof steel Pad Basement floor Floor ground 00 site ground 00 site water 00 site street 00 Floor Steel Swimming floor 00 deck Basement floor 2 Floor ground INDOOR
F2 BASEMENT FLOOR
Level 04 Roof 02 Ground 05.0 BASEMENT PLUMBING 02 Ground 02 Ground 02 Ground 02 Ground 02 Ground 02 Ground 02 Ground 02 Ground
Area
Absorptance
130.76 m² 127.61 m² 115.81 m²
0.7 0.7 0.7 0.7 11742.48 m² 0.7 5985.90 m² 0.7 2145.93 m² 0.7 0.7 0.7 0.7 69.24 m² 0.7 22.51 m² 0.7
Structural Material
Cost
00 wall reinforced Concrete 00 Wall Concrete
Description
25.00 30.00 40.00 40.00 40.00 40.00 40.00 40.00 40.00 40.00 40.00 40.00
00 wall reinforced Concrete
00 wall reinforced Concrete 00 wall reinforced Concrete
00 wall reinforced Concrete
TILES MORTAR THERMAL INSULATION
REINFORCED CONCRETE
F11 GROUND FLOOR C1 ROOF STEEL
TILES MORTAR THERMAL INSULATION WATERPROOF INSULATION
WATERPROOF INSULATION
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE SCHRDULES STRUCTURE / FLOOR
TILES MORTAR
F7 FLOOR STEEL
TILES MORTAR
THERMAL INSULATION WATERPROOF INSULATION REINFORCED CONCRETE
REINFORCED CONCRETE
REINFORCED CONCRETE
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
3-1-7-2 | CANTILEAVER HOUSE JOB / DRAWING No.
AR473 -
G607
85
ENERGY COOLING LOAD
86
WORKING DRAWINGS | 3-2-8-1
ENERGY LOAD PROFILE
Load Profile
hours TV 75" small fridge oven washing machine heater TV 40" microwave small fridge coffee machine vacuum cleaner laptop AC lighting total per hour Tesla batteries
0 0 1200 0 0 0 0 0 1200 0 0 0 4390 30 6820 3.41
1 0 1200 0 0 0 0 0 1200 0 0 0 4390 30 6820 3.41
2 0 1200 0 0 0 0 0 1200 0 0 0 2650 0 5050 2.53
3 4 0 0 1200 1200 0 0 0 0 0 0 0 0 0 1200 1200 0 0 0 0 0 0 1750 1750 0 0 4150 4150 2.08 2.08
5 6 0 0 1200 1200 0 0 0 0 0 150 0 0 0 0 1200 1200 0 375 0 0 0 0 1750 1750 0 60 4150 4735 2.08 2.368
Yearly avg. Irradiation hourly (Wh) June avg. Irradiation hourly (Wh) June avg. E production hourly (Wh)
0 0 0
0 0 0
0 0 0
0 0 0
0 0 0
0 0 0
June avg. E production hourly*100m² (Wh)
0
0
0
0
0
0
7 0 1200 0 0 0 0 0 1200 0 0 0 0 0 2400 1.2
8 0 1200 0 0 0 0 0 1200 0 0 0 0 0 2400 1.2
9 0 1200 0 0 0 0 0 1200 0 0 0 0 0 2400 1.2
10 0 1200 0 0 0 0 0 1200 0 0 0 0 0 2400 1.2
11 0 1200 0 0 0 0 0 1200 0 0 0 0 0 2400 1.2
12 0 1200 0 0 0 0 0 1200 0 0 0 0 0 2400 1.2
13 0 1200 0 0 0 0 0 1200 0 0 0 4390 0 6790 3.395
14 0 1200 0 0 150 132 0 1200 375 0 0 4390 0 7447 3.7235
15 0 1200 2400 0 0 132 0 1200 0 0 0 2650 0 7582 3.791
0 0 0
28 86 8.656
170 260 26.17
376 450 45.293
571 643 64.718
722 811 842 798 692 532 332 780 849 879 831 740 600 420 78.51 85.4519 88.4714 83.6402 74.48 60.39 42.27
0
865.6
2617
4529.3
6471.8
7851 8545.19 8847.14 8364.02
7448
16 17 0 0 1200 1200 0 0 0 0 0 0 132 0 0 0 1200 1200 0 0 0 500 60 60 1750 1750 200 100 4542 4810 2.271 2.405
6039
4227
18 0 1200 0 0 0 0 0 1200 0 500 60 1750 100 4810 2.405
19 0 1200 0 500 0 0 0 1200 0 0 0 1750 100 4750 2.375
20 175 1200 0 0 0 0 0 1200 0 0 0 4390 30 6820 3.41
21 175 1200 0 0 0 0 200 1200 0 0 0 4390 30 7020 3.51
22 175 1200 0 0 0 0 0 1200 0 0 0 4390 30 6820 3.41
23 0 1200 0 0 0 0 0 1200 0 0 0 4390 30 6820 3.41
total 525 28800 2400 500 300 396 200 28800 750 1000 180 54420 740 118486 4
130 15 220 55 22.14 5.5358
0 0 0
0 0 0
0 0 0
0 0 0
6019 6813 685.7285
2214
0
0
0
0
68572.85
553.58
3-2-8-2 | CANTILEAVER HOUSE
140000
120000
100000
87
THERMAL BRIDGE
88
CANTILEVER HOUSE
WORKING DRAWINGS | 3-2-9-3
KAUARCH King Abdulaziz University Department of Architecture
THERMAL BRIDGE INSULATION
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
AR473 -
G301
DIAGRAM HVAC / SUPPLY & DRAINAGE
PACKAGE
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE MEP SECTION
3-2-9-4 | CANTILEAVER HOUSE
89
CLIE
DRA
A S
STRUCTURE
4
2
1 3
1. SHEAR WALLS 2. STEEL FRAME 3. FLOOR 4. ROOF
90
CANTILEVER HOUSE
WORKING DRAWINGS | 3-2-8-5
KAUARCH King Abdulaziz University Department of Architecture
STRUCTURE 3D
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
AR473 -
S901
MODELS
1
2
4
6
3
5
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE MODEL PROCESS
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
3-2-9-1 | CANTILEAVER AR473 - HOUSE D905
91
MODELS
92
KAUARCH
CANTILEVER HOUSE
WORKING DRAWINGS | 3-2-9-2 King Abdulaziz University Department of Architecture
EXTERIOR
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY SIRAJ MANDOURAH
JOB / DRAWING No.
AR473 -
D904
INTERIOR
KAUARCH King Abdulaziz University Department of Architecture
CANTILEVER HOUSE INTERIOR
CLIENT: DR. MOHANNAD BAYOUMI ARCH. ABDUALAZIZ AFANDI DRAWN: AZOUZ AZOUZ SALEM MALIBARY
3-2-9-3 | CANTILEAVER HOUSE JOB / DRAWING No.
AR473 -
D903
93
94
LINEAR HOUSE
䰀䤀一䔀䄀刀 䠀伀唀匀䔀
Homoud Alkhammash | Abdulaziz Alghamdi | Badr Takhah | Moayad Algahtani 䠀伀䴀伀唀䐀 䄀䰀䬀䠀䄀䴀䴀䄀匀䠀 簀 䄀䈀䐀唀䰀䄀娀䤀娀 䄀䰀䜀䠀䄀䴀䐀䤀 簀 䈀䄀䐀刀 吀䄀䬀䠀䄀䠀
WORKING DRAWINGS | 3-1-1-2
95
TABLE OF CONTENTS 3-3-00-1 3-3-00-2 3-3-01-1 3-3-01-2 3-3-01-3 3-3-02-1 3-3-02-2 3-3-03-1 3-3-04-1 3-3-05-1 3-3-06-1 3-3-07-1 3-3-08-1 3-3-09-1 3-3-10-1 3-3-11-1
96
LOCATION CONCEPT SITE PLAN GROUND FLOOR PLAN BASEMENT FLOOR PLAN SECTION A-A SECTION B-B DETAILS ELEVATIONS STRUCTURE MODELS PERSPECTIVES THERMAL BRIDGE DIAGRAM CONSTRUCTION PHASES MEP ENERGY ANALYSIS
LOCATION
1
Saudi Arabia - Jeddah
2
Alfareeda
3
Land 3-3-00-1 | LINEAR HOUSE
97
CONCEPT
98
1 Grid
2 Terrace
3 Functions
4 Veiw
WORKING DRAWINGS | 3-3-00-2
SITE PLAN
-2250 mm
0 mm
900 mm
-2250 mm
0
SITE PLAN
1
2
3
3m
3-3-01-1 | LINEAR HOUSE WORKING DRAWING - AR472
N
STUDENTS NAME:
ABDULAZIZ ALGHAMDI BADR TAKHAH HOMOUD ALKHAMMASH
S HE E T N O
SITE PLAN DATE:
201
99
PLANS 9
8
7
6
5
4
3
2
1
B1A301 ---
31200 mm 3900 mm
3900 mm
3900 mm
3900 mm
3900 mm
3900 mm
3900 mm
3900 mm
A
8550 mm
A
1
0 mm
2 3 4
DN
900 mm
4800 mm
18550 mm
B
B
A1 A302 A509
DN
C 5200 mm
C
D
D 9
8
7
6
5
Ground Floor Plan
100
WORKING DRAWINGS | 3-3-01-2
1
GROUND FLOOR PLAN 1 : 100
4
3
2
1
0
1
2
3
3m
PLANS 9
8
7
6
5
4
3
2
1
31200 mm 3900 mm
3900 mm
3900 mm
3900 mm
3900 mm
3900 mm
3900 mm
3900 mm
A
8550 mm
A
UP 1
2
3
4
5
6
7 8
4800 mm
9 10 11 12 13 14 15
B
18550 mm
B
16 17 18
C 5200 mm
C
D
D 9
1
BASEMENT FLOOR PLAN 1 : 100
8
7
6
5
4
Basement Floor Plan
3
2
1
0
1
2
3
3m
3-3-01-3 | LINEAR HOUSE
101
SECTIONS
Section A-A
102
WORKING DRAWINGS | 3-3-02-1
0
1
2
3
3m
SECTIONS
Section B-B
0
1
2
3
3m
3-3-02-2 | LINEAR HOUSE
103
DETAILS
Section 2 - Callout 1 Scale 1:10 1. Tile , 5mm 2. Cement Mortar , 20mm 3. Sand 50mm 4. Concrete ,100mm 5. Thermal Insulation , 50mm 6. Waterproof Insulation , 5mm 7. Reinforced Concrete , 200mm 8. Aluminium 9. Double Glass 10. Steel Sheet , 6mm
104
WORKING DRAWINGS | 3-3-03-1
DETAILS
Section 2 - Callout 2 Scale 1:10 1. Ceiling 2. Celotex 3. Wide Flange Beam 4. Aluminium
3-3-03-2 | LINEAR HOUSE
105
DETAILS
Section 2 - Callout 3 Scale 1:10 1. Tile 2. Cement Mortar 3. Sand 4. Concrete 5. Thermal Insulation 6. Reinforced Concrete 7. Aluminium 8. Beam
106
WORKING DRAWINGS | 3-3-03-3
DETAILS
Section 2 - Callout 4 Scale 1:20 1. Concrete Board , 5mm 2. Cement Mortar , 20mm 3. Brick , 100mm 4. Thermal Insulation , 50mm 5. Reinforced Concrete 200mm 6. Waterproof Insulation 5mm
3-3-03-4 | LINEAR HOUSE
107
DETAILS
Thermal bridges emerge as a result of design and construction errors. Heat loss through thermal bridges causes the building’s energy requirements to increase, and .this is related to a great increase of heating expenses Already during the design phase, it is worth considering proper protection of spots sensitive to the emergence of thermal bridges, i. e. balconies, ledges, parapet walls, .terraces, etc
Section 2 - Callout 5 Scale 1:10 1. Plastic Batten 2. Insulation 3. Compression Bearing 4. Steel Plates With Bars 5. Stretched Bars
108
WORKING DRAWINGS |3-3-03-5
DETAILS
Section 2 - Callout 6 Scale 1:10 1. Partition Wall 2. Tile 3. Sand 4. Waterproof Insulation 5. Reinforced Concrete 6. Thermal Insulation
Swimming pool Section - Callout 1 Scale 1:10 1. Floor/Wall Covering Material 2. Tile Adhesive 3. Waterproofing Compound 4. Reinforced Concrete
3-3-03-6 | LINEAR HOUSE
109
ELEVATIONS 3 ROOF 4200 mm
GROUND FLOOR PLAN 900 mm 1 Street level
3 ROOF 4200 mm
0 mm
1
GROUND FLOOR PLAN
SOUTH - ARCHITECTURAL
900 mm 1 Street level
1 : 100
0 mm
South Elevation 1
SOUTH - ARCHITECTURAL 1 : 100
3 ROOF 4200 mm
GROUND FLOOR PLAN 900 mm 1 Street level
3 ROOF 4200 mm
0 mm
North Elevation 2
110
NORTH - ARCHITECTURAL 1 : 100
WORKING DRAWINGS | 3-3-04-1
2
NORTH - ARCHITECTURAL
GROUND FLOOR PLAN 900 mm 1 Street level 0 mm
ELEVATIONS
3 ROOF 4200 mm
3 ROOF 4200 mm
GROUND FLOOR PLAN 900 mm
1 Street level 0 mm
1
1
GROUND FLOOR PLAN
East Elevation
EAST - ARCHITECTURAL
900 mm
1 Street level
1 : 50
0 mm
EAST - ARCHITECTURAL 1 : 50 3 ROOF 4200 mm
3 ROOF 4200 mm
GROUND FLOOR PLAN 900 mm
1 Street level 0 mm GROUND FLOOR PLAN 900 mm
2
WEST - ARCHITECTURAL
1 Street level 0 mm
1 : 50
West Elevation 2
WEST - ARCHITECTURAL WORKING DRAWING - AR472 WORKING DRAWING - AR472
1 : 50
N
STUDENTS NAME:
SUPERVISORS: DR.-ING. MOHANNAD BAYOMY - ARCH. ABDULAZIZ AFANDI
WORKING DRAWING - AR472
SUPERVISORS: DR.-ING. MOHANNAD BAYOMY - ARCH. ABDULAZIZ AFANDI
HOMOUD ALKHAMMASH ABDULAZIZ ALGHAMDI BADR TAKHAH
EAST-WEST ELEVATIONS
HOMOUD ALKHAMMASH ABDULAZIZ ALGHAMDI BADR TAKHAH
EAST-WEST ELEVATIONS
DATE:
A203
03/27/16
KAUARCH SCALE: N
STUDENTS NAME:
SHEET NO.
1 : 50
SHEET NO.
A203
3-3-04-2 | 03/27/16 LINEAR HOUSE DATE:
KAUARCH SCALE:
1 : 50
111
STRUCTURE
FOOTING
112
WORKING DRAWINGS | 3-3-05-1
SHEAR WALL
STRUCTURE
Connection
2
CONNECT
Footing Connection
1
STRUCTURE
3
FOOTING CONNECTION
3-3-05-2 | LINEAR HOUSE
113
MODELS
114
WORKING DRAWINGS | 3-3-06-1
MODELS PERSPECTIVES
3-3-06-2 | LINEAR HOUSE
115
PERSPECTIVES
Living room LIVING ROOM 1
116
WORKING DRAWINGS | 3-1-07-1
PERSPECTIVES
Cinema room
Office room
3-1-07-2 | LINEAR HOUSE
117
PERSPECTIVES
PERSPECTIVE PERSPECTIVE 1 1 1
1
1
3
118
PERSPECTIVE PERSPECTIVE 1 1 1
PERSPECTIVE PERSPECTIVE 3 3 3
WORKING DRAWINGS | 3-3-07-3
PERSPECTIVE PERSPECTIVE 3 3
PERSPECTIVE PERSPECTIVE 2 2 2
2
2
4
PERSPECTIVE PERSPECTIVE 2 2 2
PERSPECTIVE PERSPECTIVE 4 4 4
PERSPECTIVE PERSPECTIVE 4 4
THERMAL BRIDGE DIAGRAM
THERMAL BRIDGE 1 3-3-08-1 | LINEAR HOUSE
119
CONSTRUCTION PHASES
120
WORKING DRAWINGS | 3-3-09-1
SHEET NO.
CONSTRUCTION PHASES
3-3-09-2 | LINEAR HOUSE
WORKING DRAWING - AR472
N
SHEET NO.
121 D902
MEP
122
Pump
Sump - Pit
Cold water
Building Trap
Hot water
Gray water
WORKING DRAWINGS | 3-3-10-1
Vent. Stack
MEP
3-3-10-2 | LINEAR HOUSE
123
ENERGY CALCULATIONS
124
WORKING DRAWINGS | 3-3-11-1
ENERGY CALCULATIONS U-Value Q’t
A.C. and covered cooling
Transmission through glass and shading device Q’r
Required cooling calculations
Heat from electrical lighting Q’i
Conditioning Q’a
Heat from equipment and occupants Q’i
3-3-11-2 | LINEAR HOUSE
125
ENERGY CALCULATIONS
Energy Calculations ( Demand & Supply )
Devices Calculations Device Stove & Oven Fridge Microwave Device Coffee Stove &maker Oven Kettle Fridge Toaster Microwave Food Processer Coffee maker Washing Machine Kettle Clothes Dryer Toaster FoodHeater Processer Vacuum Machine Cleaner Washing ClothesDryer Iron Clothes TVHeater 52'' LED Desktop VacuumComputer Cleaner Laptops Clothes Iron Internet TV 52''Router LED ElectricComputer Shaver Desktop Cooling Laptops Total Internet Router
Capacity (W) 3300 200 600 (W) Capacity 800 3300 2000 200 1000 600 1000 800 500 2000 2000 1000 1300 1000 1000 500 1000 2000 62 1300 100 1000 60 1000 15 62 18 100 5830 60 15
Quantity Energy 1 1 1 Quantity 11 11 11 11 11 11 21 11 11 21 11 21 11 11 21 -1
Electric Shaver Room Cooling Living Room Total Bedroom Kitchen Room Bathroom Living Room Basement Bedroom Total Kitchen
18 Capacity (W) 5830 40 40 40 Capacity (W) 40 40 40 40 40
Bathroom Basement Energy Supply Total
40 Area 40 (m²) 106 Area (m²) E(daily) (kWh*7m²) 106 4.29 4.93 E(daily) 5.47 (kWh*7m²) 5 4.29 4.88 4.93 4.76 5.47 4.67 5 4.68 4.88 4.82 4.76 5.01 4.67 4.58 4.68 4.35 4.82 4.79 5.01 1570 4.58
Lighting Calculations
Month Energy Supply
126
1 2 Month 3 41 5 2 6 3 7 4 8 5 9 6 10 7 WORKING DRAWINGS | 3-3-11-3 11 8 12 9 Year Average 10 Total 11
Usage (h)
Consumption per Day (Wh) 4800 300 Consumption per Day (Wh) 800 6600 1000 4800 500 300 500 800 500 1000 2000 500 3900 500 500 500 450 2000 248 3900 300 500 480 450 120 248 9 300 46640 480 69647 120
Consumption/Year (Wh) 2376000 1728000 108000 Consumption/Year (Wh) 288000 2376000 360000 1728000 180000 108000 180000 288000 180000 360000 720000 180000 1404000 180000 180000 180000 162000 720000 89280 1404000 108000 180000 172800 162000 43200 89280 3240 108000 16790400 172800 25072920 43200
Consumption/Year after rep. factor (Wh) 1900800 1382400 86400 Consumption/Year after rep. factor (Wh) 230400 1900800 288000 1382400 144000 86400 144000 230400 144000 288000 576000 144000 1123200 144000 144000 144000 129600 576000 71424 1123200 86400 144000 138240 129600 34560 71424 2592 86400 13432320 138240 20058336 34560
24 0.5 (h) Usage 21 0.5 24 0.5 0.5 0.5 1 1 0.5 1 0.5 1.5 0.5 0.5 1 0.45 1 4 1.5 3 0.5 4 0.45 8 4 0.5 3 8 4 8-
1 Quantity 41 42 Quantity 2 4 4 4 2-
0.5 Usage (h) 8 4 2.5 4 Usage (h) 2 4 4 2.5 4-
9 Consumption per Day (Wh) 46640 640 69647 400 320 Consumption per Day (Wh) 160 640 640 400 2160 320
3240 Consumption/Year (Wh) 16790400 230400 25072920 144000 115200 Consumption/Year (Wh) 57600 230400 230400 144000 777600 115200
2592 Consumption/Year after rep. factor (Wh) 13432320 184320 20058336 115200 92160 Consumption/Year after rep. factor (Wh) 46080 184320 184320 115200 622080 92160
2 Irradiation on PV with 4 combined system losses 224.29 Irradiation on PV with combined system losses E(daily) (kWh/m²) 224.29 0.61 0.70 E(daily) 0.78 (kWh/m²) 0.71 0.61 0.70 0.70 0.68 0.78 0.67 0.71 0.67 0.70 0.69 0.68 0.72 0.67 0.65 0.67 0.62 0.69 0.68 0.72 224.29 0.65
2 Total 4 (kW) 23774.29 Total (kW) E (monthly) (kWh*7m²) 23774.29 133 138 E (monthly) 169 (kWh*7m²) 150 133 151 138 143 169 145 150 145 151 145 143 155 145 137 145 135 145 145.50 155 1570 137
160 640 2160
57600 Total energy demand per year) 230400 (Wh) 777600 Total energy demand per year) (kWh) Total energy demand per year) (Wh) H (daily) Total energy demand per year) (kWh/m²) (kWh) 5.89 6.87 H (daily) 7.72 (kWh/m²) 7.16 5.89 7.05 6.87 6.94 7.72 6.81 7.16 6.84 7.05 7.01 6.94 7.21 6.81 6.44 6.84 6 7.01 6.83 7.21 2490 6.44
46080 20680416 184320 622080 20680.416
Calculations2 ( Demand & Supply ) 6600
E (monthly) (kWh/m²) 19.00 19.71 E (monthly) 24.14 (kWh/m²) 21.43 19.00 21.57 19.71 20.43 24.14 20.71 21.43 20.71 21.57 20.71 20.43 22.14 20.71 19.57 20.71 19.29 20.71 20.79 22.14 224.29 19.57
20680416 H(monthly) (kWh/m²) 20680.416 183 192 H(monthly) 239 (kWh/m²) 215 183 219 192 208 239 211 215 212 219 210 208 224 211 193 212 186 210 207.67 224 2490 193
Room Living Room Bedroom Kitchen Bathroom Basement Total
Capacity (W) 40 40 40 40 40 -
Quantity 4 4 2 2 4 -
Usage (h) 4 2.5 4 2 4 -
Area (m²)
Irradiation on PV with combined system losses
Total (kW)
106
224.29
23774.29
E(daily) (kWh*7m²) 4.29 4.93 5.47 5 4.88 4.76 4.67 4.68 4.82 5.01 4.58 4.35 4.79 1570
E(daily) (kWh/m²) 0.61 0.70 0.78 0.71 0.70 0.68 0.67 0.67 0.69 0.72 0.65 0.62 0.68 224.29
E (monthly) (kWh*7m²) 133 138 169 150 151 143 145 145 145 155 137 135 145.50 1570
ENERGY CALCULATIONS Energy Supply
Solar calculations and yield Month 1 2 3 4 5 6 7 8 9 10 11 12 Year Average Total
Supply vs. Demand
Consumption
Device\Hour 00 1 2 Stove & Oven 0 0 0 23774.29 24000.00 Fridge 200 200 200 Microwave 0 0 0 22000.00 Coffee maker 0 20680.416 0 0 Kettle 0 0 0 20000.00 Toaster 0 0 0 Food Processer 0 0 0 18000.00 Washing Machine 500 250 0 Clothes Dryer 0 200 0 16000.00 Heater 0 0 0 Vacuum Cleaner 0 0 0 Clothes Iron 0 0 0 14000.00 TV 52'' LED 0 0 0 Desktop Computer 0 0 0 12000.00 Laptops 0 0 0 Internet Router 0 0 0 10000.00 Electric Shaver 0 0 0 AC 0Supply 0 Demand 0 Living Room (light) 0 0 0 Bedroom (light) 0 0 0 Kitchen (light) 0 0 0 Bathroom (light) 0 0 0 Basement (light) 0 0 0 Total 700 650 200
Consumption/Year (Wh) 230400 144000 115200 57600 230400 777600
Consumption/Year after rep. factor (Wh) 184320 115200 92160 46080 184320 622080
Total energy demand per year) (Wh) Total energy demand per year) (kWh) E (monthly) (kWh/m²) 19.00 19.71 24.14 21.43 21.57 20.43 20.71 20.71 20.71 22.14 19.57 19.29 20.79 224.29
20680416 20680.416
H (daily) (kWh/m²) 5.89 6.87 7.72 7.16 7.05 6.94 6.81 6.84 7.01 7.21 6.44 6 6.83 2490
H(monthly) (kWh/m²) 183 192 239 215 219 208 211 212 210 224 193 186 207.67 2490
Energy Calculations ( Load Profile ) 3 0 200 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 200
4 0 200 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 200
5 0 200 0 800 0 0 0 0 0 1300 0 0 0 0 0 0 9 0 0 0 0 80 0 2,389
6 1,500 200 300 0 500 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 80 0 0 2,580
7 300.00
0 200 250.00 0 0 200.00 0 0 0150.00 0 0 100.00 0 0 050.00 0 0 0.00 0 0 0 0 0 160 0 0 0 360
عنوان المحور
Load Profile
Consumption per Day (Wh) 640 400 320 160 640 2160
8 0 200 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 200
9 0 200 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 5830 0 0 0 0 0 6,030
10 0 200 0 0 0 0 0 0 0 0 0 0 0 0 20 0 0 5830 0 0 0 0 0 6,030
11 0 200 0 0 0 0 0 0 0 0 1000 0 0 0 0 3 0 0 5830 0 0 0 0 0 7,030
12 0 200 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 5830 0 0 80 0 0 6,110
Irradiation vs. Electricty Production (Monthly) 13 14 15 16 17 18 0 3,300 0 0 0 0 200 200 200 200 200 200 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 500 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 100 100 100 05 0 6 400 400 4008 4 0 7 0 15 15 15 عنوان15 15 المحور 0 0 0 0 0 0 Emonthly (kWh/m²) H(monthly) (kWh/m²) 5830 5830 5830 5830 0 0 0 0 0 0 0 0 0 80 0 0 0 0 0 0 0 0 0 0 0 0 0 40 0 0 0 0 0 640 640 640 6,030 9,425 6,045 7,225 1,855 1,355
19 0 200 0 0 0 0 0 0 0 0 0 0 62 0 0 15 0 0 160 0 80 0 0 517
20 0 200 0 0 0 0 500 0 0 650 0 0 62 0 9 200 15 0 0 160 0 80 0 0 1,867
21 1500 200 0 0 0 0 0 0 0 0 0 1000 62 0 200 10 15 0 0 160 0 0 0 0 3,137
22 23 0 0 200 200 100 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1300 0 0 0 0 62 0 0 0 0 11 0 0 0 0 0 0 0 160 0 0 160 0 0 0 40 0 0 522 1,700
Load Profile 10,000 9,425
8,000
3-3-11-4 | LINEAR HOUSE
Total 6,300 4,800 400 800 1,000 0 500 750 200 3,250 1,000 1,000 248 300 1,600 12 120 9 46,640 640 400 320 160 1,920 72,357
127
Internet Router Electric Shaver AC Living Room (light) Bedroom (light) Kitchen (light) Bathroom (light) Basement (light) Total
0 0 0 0 0 0 0 0 700
0 0 0 0 0 0 0 0 650
0 0 0 0 0 0 0 0 200
0 0 0 0 0 0 0 0 200
0 0 0 0 0 0 0 0 200
0 9 0 0 0 0 80 0 2,389
0 0 0 0 0 80 0 0 2,580
0 0 0 0 160 0 0 0 360
0 0 0 0 0 0 0 0 200
ENERGY CALCULATIONS
0 0 5830 0 0 0 0 0 6,030
0 0 5830 0 0 0 0 0 6,030
0 0 5830 0 0 0 0 0 7,030
0 0 5830 0 0 80 0 0 6,110
0 0 5830 0 0 0 0 0 6,030
15 0 5830 0 80 0 0 0 9,425
15 0 5830 0 0 0 0 0 6,045
15 0 5830 0 0 0 40 640 7,225
15 0 0 0 0 0 0 640 1,855
15 0 0 0 0 0 0 640 1,355
15 0 0 160 0 80 0 0 517
15 0 0 160 0 80 0 0 1,867
15 0 0 160 0 0 0 0 3,137
0 0 0 160 0 0 0 0 522
0 0 0 0 160 0 40 0 1,700
120 9 46,640 640 400 320 160 1,920 72,357
Load Profile 10,000 9,425
8,000 7,225
7,030 6,030
CONSUPMTION
6,000
6,110
6,030
6,045
6,030
4,000 3,137 2,580
2,389
2,000
1,867
1,855
1,700
1,355 700
650 200
0
200
360
200
522
517
200
-2,000 00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
13
14
15
16
17
18
19
20
21
22
23
HOUR
Device Load Profile 7,000
6,000
5,000
Consumption
4,000
3,000
2,000
1,000
0 00
01
02
03
04
05
06
07
08
09
10
-1,000
128
11
12 Hour
Stove & Oven
Fridge
Microwave
Coffee maker
Kettle
Toaster
Food Processer
Washing Machine
Clothes Dryer
Heater
Vacuum Cleaner
Clothes Iron
TV 52'' LED
Desktop Computer
AC
Living Room (light)
Bedroom (light)
Kitchen (light)
Bathroom (light)
Basement (light)
WORKING DRAWINGS | 3-3-11-5
MEDIA
3-3-11-6 | LINEAR HOUSE
129
GALLERY
130 62
20042016 - Instructors with students WORKING DRAWINGS | 4-1
GALLERY
20042016 - Model discussion
10032016 - Active learning 4-2 | GALLERY
131 63
GALLERY
132 64
01042016 - Students WORKING DRAWINGS | 4-3
GALLERY
01042016 - Students 4-4 | GALLERY
133 65
DIGITAL COPY
DIGITAL COPY
134 66
WORKING DRAWINGS | DIGITAL COPY
DIGITAL COPY
135 67