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Igor Savtsenko
Portfolio
Igor Savtsenko
MASTER OF SCIENCE IN TECHNOLOGY MANAGEMENT IN THE BUILDING INDUSTRY, 2016
BACHELOR OF SCIENCE IN TECHNOLOGYARCHITECTURAL TECHNOLOGY AND CONSTRUCTION MANAGEMENT, 2013
4th MSc Semester Master thesisProject: Residential construction PLAZA012nd MSc Semester workCase: Improvement of steel company Stålmontage021st MSc Semester workProject: Fotex Norresundby037th BSc Semester work Bachelor projectProject: Student accommodation046th BSc Semester workInternship: Corocord055th BSc Semester workProject: Renovation of the old building064th BSc Semester workProject: Multi storey building073trd BSc Semester workProject: Restaurant08Practical workProject: Renovation design for the old apartment09
4 MSc Semester Master thesisCase: PLAZA centre Aalborg
Focus area:-Lean construction-Turn key contractor analyses-Project analyses-Schedule optimization-Implementation-Problem identification
01
PLAZA centre is designed by well renowned Danish architect Kim Utzon and is expected to be one of Aalborg’s new landmarks. The building consists of 5800 square meters of offices, 3500 square meters student residence, additionally a large basement for a car park. There are go-ing to be built 116 apartments in total, 84 of them for the needs of stu-dent residence and the rest 34 would be private properties. The height of the building is varied, as the southern façade is planned to be 5 storeys high, the south-east 10 storeys and the west, towards Limfjordsbroen, 8 storeys. Semester focus was based around contractor company HP byg and how they going to establish smooth flow on the construction site.
Problem Analyses through Problem tree
Untidy work environment
Optimization of construction process through batching (Lean)
Stakeholder analysis
2nd MSc SemesterCase: Improvement of Stålmontage
Focus area:-Risk analyses-Economy-Optimisation-Process analyses-Implementation
02
AE Stålmontage is specializing in the design, production and mounting of roof and wall constructions with various types of aluminium, stainless steel, mild steel, copper, brass, zinc, alucobond and pre-coated claddings. The company conducts most of their assignments in Denmark, but have also had success in the international market. Some of the most recog-nized projects the company has taken part are Havnens Brygge, Viborg Rådhus, The Utzon Centre, The Music House
Project main question: How to make the process of working with customized elements less challenging for AE Stålmontage?
Main solution: Handling risks
Problem Analyses through Problem tree
5 year firms Net profit
Photo from the production process
Fractile method for risk analyses Stakeholder analysis
1st MSc SemesterCase: Limfjord centre
Focus area:-Organization structure-Geotechnical engineering-Static analyses-Project execution-Scheduling-Economy
03
The project area is included in a larger program of renewal of the existing slaughterhouse in Nørressundby.The maximum space for new construction within the local plan area is determined to 72.000 m2:- Approx. 30.000 m2 can be used exclusively for residential purposes- Approx. 17.000 m2 can only be used for business- Approx. 25.000 m2 can be used for either residential or commercial purposes.
Soil backfillingTurnkey contractor
Net capital
Location of loaded area
7th BSc Semester Bachelor projectCase: Student accommodation
Focus area:-Phases (Outline,Scheme,DD1,DD2,construc-tion-Cost calculations-Schedules-3D modelling-Planning and management-Building services-Plans,sections,key points-Load-bearing-Tender-Operation and maintenance
04
Multi story building will be placed near Aalborg city centre. Total plot area will be almost 2750 m2. Multi story building will have 3 floors and basement. 1st and 2nd floor will be used as living area for students. Floors will be designed as dormitory area with small rooms, shared kitchen and shared bathrooms. Ground floor will be designed as activi-ty area for all students and living area for handicaps with shared kitch-en and bathrooms. Ground floor will also include small library. Library and living room will be designed so that all tenants will have pleasant time spending their free time together with other students. Basement will include Bike storage, laundry, gym and small bar for students.
Key point: External Wall Key point: Internal walls Key point: Roof
ID Task Mode
Task Name Duration Start Finish Predecessors
1 Overall project time 393 days? Tue 05/02/13 Mon 04/08/142 Outline proposal 10 days Tue 05/02/13 Mon 18/02/133 Scheme Design 56 days Tue 19/02/13 Tue 07/05/13 24 Detail design 1 5 days Wed 08/05/13 Tue 14/05/13 35 Detail design 2 14 days Wed 15/05/13 Mon 03/06/13 46 Tender Phase 83 days Tue 04/06/13 Thu 26/09/137 Tender documents sent out 1 day Tue 04/06/13 Tue 04/06/13 58 Offer perioud 40 days Wed 05/06/13 Tue 30/07/13 79 Bids 1 day Wed 31/07/13 Wed 31/07/13 810 Offer binding perioud 40 days Thu 01/08/13 Wed 25/09/13 911 Cintract signed 1 day Thu 26/09/13 Thu 26/09/13 1012 Mobilisation 25 days Fri 27/09/13 Thu 31/10/1313 Contractors preparations 20 days Fri 27/09/13 Thu 24/10/13 1114 Site establisment 5 days Fri 25/10/13 Thu 31/10/13 1315 Construction perioud 169 days Fri 01/11/13 Fri 20/06/14 1416 Site prearations 3 days Fri 01/11/13 Tue 05/11/1317 Setting up site 3 days Fri 01/11/13 Tue 05/11/13 1418 Making acces road 2 days Fri 01/11/13 Mon 04/11/13 1419 Earth and concrete contractor 34 days Tue 05/11/13 Fri 20/12/1320 Fitting of the building site 5 days Tue 05/11/13 Mon 11/11/13 18
21 Excavation and sewage 5 days Tue 12/11/13 Mon 18/11/13 2022 Concrete work 4 days Tue 19/11/13 Fri 22/11/13 2123 Foundation work 14 days Mon 25/11/13 Thu 12/12/13 2224 Basement walls 5 days Fri 13/12/13 Thu 19/12/13 2325 Casting of concrete floor 1 day Fri 20/12/13 Fri 20/12/13 2426 Landscaping 9 days Wed 06/11/13 Mon 18/11/1327 Planting tress 4 days Wed 13/11/13 Mon 18/11/13 2828 Leveling ground 5 days Wed 06/11/13 Tue 12/11/13 1629 Brick layer contract 56 days Sun 22/12/13 Wed 05/03/1430 Casting of concrete screed 4 days Sun 22/12/13 Wed 25/12/13 19
31 External brick wall 21 days Sun 22/12/13 Wed 15/01/14 1932 Internall brick wall 21 days Sun 29/12/13 Fri 24/01/14 19FS+7 days33 Tile work 21 days Wed 05/02/14 Wed 05/03/14 3734 Rendering of foundation 3 days Thu 26/12/13 Sat 28/12/13 3035 Prefabricated concrete elements
contract27 days Tue 07/01/14 Wed 12/02/14
36 Beams and columns 1 day Wed 05/02/14 Wed 05/02/14 3737 Hollow core deck 21 days Tue 07/01/14 Tue 04/02/14 19FS+14 days38 Stairs 5 days Thu 06/02/14 Wed 12/02/14 3639 Carpenter contract 84 days Sun 29/12/13 Wed 23/04/1440 Inner stud walls 16 days Sun 29/12/13 Fri 17/01/14 19FS+7 days41 Exterior windows and doors 16 days Thu 16/01/14 Thu 06/02/14 31
42 Inner doors 10 days Mon 27/01/14 Fri 07/02/14 32,4043 Roof completion 14 days Wed 05/02/14 Mon 24/02/14 3744 Bathroom/Kitchen fixtures 5 days Wed 26/03/14 Tue 01/04/14 52
45 Ceiling work 5 days Wed 26/03/14 Tue 01/04/14 37,5246 Wooden floor covering 14 days Wed 26/03/14 Mon 14/04/14 37,5247 Wooden molding finishes 7 days Tue 15/04/14 Wed 23/04/14 46
48 Painter contract 28 days Thu 24/04/14 Mon 02/06/1449 Ceiling work 14 days Thu 24/04/14 Tue 13/05/14 3950 Wall work 21 days Thu 24/04/14 Thu 22/05/14 3951 Molding work 7 days Fri 23/05/14 Mon 02/06/14 49,5052 Services contract 35 days Wed 05/02/14 Tue 25/03/1453 Installing radiators 12 days Thu 06/03/14 Fri 21/03/14 5454 Sanitary work 21 days Wed 05/02/14 Wed 05/03/14 3755 Ventilation work 21 days Fri 14/02/14 Fri 14/03/14 37FS+7 days56 Water supply 21 days Tue 25/02/14 Tue 25/03/14 37FS+14 days57 Gutter and down pipes work 7 days Wed 05/02/14 Thu 13/02/14 37
58 Electrician 1 day Wed 26/03/14 Wed 26/03/1459 Appliance connections 1 day Wed 26/03/14 Wed 26/03/14 5260 Jointing contract 60 days Fri 07/02/14 Thu 01/05/1461 Window and door sealant
jointing6 days Fri 07/02/14 Fri 14/02/14 41
62 Interior jointing 6 days Thu 24/04/14 Thu 01/05/14 3963 Scaffolding contract 48 days Tue 19/11/13 Mon 20/01/1464 Erection of facade scaffolding 7 days Tue 19/11/13 Wed 27/11/13 26
65 Down taking of facade scaffolding
3 days Thu 16/01/14 Mon 20/01/14 31
66 Cleaning contract 14 days Tue 03/06/14 Fri 20/06/1467 Site and interior cleaning 14 days Tue 03/06/14 Fri 20/06/14 16,19,26,29,35,368 Handing over phase 31 days? Mon 23/06/14 Mon 04/08/1469 Handing over constrution project 1 day Mon 23/06/14 Mon 23/06/14 15
70 Time for final aproval 30 days Tue 24/06/14 Mon 04/08/14 6971 1 year inspection72 5 year inspection
S W S T M F T S W S T M F T S W S T M F T S W S T24 Dec '12 18 Feb '13 15 Apr '13 10 Jun '13 05 Aug '13 30 Sep '13 25 Nov '13 20 Jan '14 17 Mar '14 12 May '14 07 Jul '14
Task
Split
Milestone
Summary
Project Summary
External Tasks
External Milestone
Inactive Task
Inactive Milestone
Inactive Summary
Manual Task
Duration‐only
Manual Summary Rollup
Manual Summary
Start‐only
Finish‐only
Deadline
Critical
Critical Split
Progress
Page 1
Project: msproj11Date: Sat 15/06/13
Building budget for ….
Client: . . . . . . . . . . . . . . . .
Project: . . . . . . . . . . . . . . .
Index at calculation time: 131.2Building area 1485
Distribution of costs
A. Site costsSurrounding areas -costs based on surveying/measurement Kr. 1,701,000
B. Construction costsTotal costs based on grades and quantities Kr. 7,967,000Costs per m² Kr. 5,365
C. Administration costsTotal costs (fee etc.) Kr. 2,024,000
Total project cost ( Excl. VAT ) Kr. 11,692,000
25 % VAT Kr. 2,923,000
Total project cost (Incl. VAT) Kr. 14,615,000
Total project cost / m² ( Incl. VAT ) Kr. 9,842
Date: . . . Firm/signature
Building phase for calculation time: Scheme Design
Multi storey buildingJesper Pedersen
Master Schedule
Budget calculations Be10 energy frame
Outline isometric view sketch
B.Sc. ATCM Aalborg
Building Component Analysis
Case Date: 26.03.2013 Index 119.5Element: external wall Initial: AB
Drawing/sketch Specificiation: (Detail description)
Requirments for application:
Weight graduation: Point graduationVery important 5 Very good qualities 4Important 4 Good qualities 3Less important 3 Normal qualities 2Very little important 2 Bad qualities 1Not important at all 1 Material is "no good" 0
Functional demands Weight Point5 43 34 34 3
Summary weight pointGross cost per unitGross cost according to weight point
Llife Cycle Costings
Operation & maintenance for a period of 30 years
Real int. rate 2
Gross Life cycle Kr. perinstallation costs weight p.
per unit% Kr. Kr. Kr.
2,430 1 2,430 46
Why choose the selected building component / element?
Multi storey buildingExternel wall built as double layer bricks with insulation
U-value 0,17 W/m2kThickness - 480 mm
PriceWeight * point
Element chosen, because of the overall regulations perfromance and highest tnermal resistance
Price - 2430 m2Fire safety - REI 60 A2-s1 (BS60)
9
U-value 0,3 W/m2k
20
Fire safety - REI 60 A2-s1 (BS60)
12ThicknessThermal resistance
2,43046
12
år60
Replacementper unit
Operation & Maintenance (yearly)
per unit Every?
53
Acoustics
Component analysesScrutinize, - Results
Case nr.: 1 Page: 1 By: Igor
Case: Multi storey building for students
Doc.nr.: 1 1
Area/location/Identifikation:
Phase: Brief Outline proposal Scheme design DD1 DD2
Vetting team: Project responsible: Approwed Reference/Toppic: Recommends Conclusion Date: Signed: Comments.:Buildingmaterial
Check overallproportions whichfits client demands
ok
Acousticchecking
Make a test of allareas for a goodsound proof
ok
Quality Check for gaps andholes in buildingmaterials
ok
Date: Vetting(s): Date: Seenapprowed by
Copyto:
Notes.:
Risk analyses
6th BSc Semester InternshipCompany: Corocord
Focus area:-Design of leisure activity area-Working with detail drawings-Communication with clients-Autocad-Cost calculations
05
Corocord – a German company, which specializes in playgrounds, lei-sure parks and sport equipment. Corocord is the part of the mother company from Denmark – Kompan, which is also specialize in play-ground equipment. A staff of 40 works here in manufacture, devel-opment and administration. Corocord has invested creativity, en-thusiasm and wide-ranging innovation into developing our range of products, originating from an invention by Conrad Roland, into what it has become today. Conrad Roland, an architect by profession, came up with his revolutionary idea for the first Spacenet in 1971
Cost calculations
Design of playground frame
Proposal for the playground area
Key point: Playground part Plan of the playground area
5 BSc SemesterCase: Renovation
Focus area:-Renovation-Sustainability-Survey-Load-bearing-Building services
06
The building is located on Rostrupsvej 20, Aalborg. It was build in 1930.Throughout the years there were some renovations and at that moment construction does not fit for the building regulations. The building con-sist of external garage , basement for the laundry room and service room,ground floor,first floor, second floor,which is divided in two living apartments and third floor. The overall area of the building is 572 m2.
Renovation will involve extending the building for about 8-10 m2 for the apartment (16-20 m2 per floor). Addition involves converting ground floor to office area and add a new entrance for the specified floor, add a terrace and make building handicap friendly.
1st floor: Old
1st floor: RenovatedSouth Facade: Old South Facade: Renovated
Proposed design
Scale
Checked by:
Drawn by:
Date:
Project name:
3D Isometric View
Between Bridges
04.01.2012
Ivo Slavov
OGHA
(99).2.8
4th BSc SemesterCase: Multi storey building
Focus area:-Regulations-Design-Load-bearing-Services-Key points
07
The residential multi storey building will be placed in Norresundby. It will have vast area nearly 3907 m2. Building will be constructed three storeys high. Most windows will be facing south ,overlooking the Fjord, which will give residents panoramic view on the water and open area. Building will have commercial ground floors for the comfort of the neigh-bourhood that will be formed. Each floor will consist 3 apartments for the small families except for the Penthouse,which will consist 1 apartment and open terrace for the residents.
Furniture plan: 1st floorUP
94 m²
MAIN ROOM
16 m²
BEDROOM
4 m²
UTILITY
6 m²
BATHROOM
LIVINGROOM
DININGAREA
KITCHEN
49 m²
MAIN ROOM
4 m²
UTILITY
17 m²
BEDROOM
9 m²
BATHROOM
KITCHEN
DININGAREA
LIVINGROOM
ELEVATOR
INNERGARDEN
92 m²
MAIN ROOM
7 m²
BEDROOM
3 m²
UTILITY
7 m²
BATHROOM
15 m²
BEDROOM
6 m²
BATHROOM
ENTRE
KITCHEN
DININGAREA
LIVINGROOM
48 m²
LOBBY
3000
2850
2850
2850
21200WARM ROOF:SUSPENDED CELING IN WHICH WILLBE INSTALLED VENTILATION PIPESAND OTHER INSTALLATIONS
PRECAST SANDWICH ELEMENTSWITH DIFFERENT OPTIONS FOR
FACADE FINISHES
THREE LAYER WINDOWS WITHINSULATING GAS IN BETWEENTHE GLASING FOR LOWER U-VALUE
CONCRETE SLABS WITHDIFFERENTFLOOR FINISHES FOR DIFFERENTROOMS.WITH ENOUGHINSULATIONTO KEEP THE ENERGY FRAMELOWENOUGH TO REACH PASSIVEHOUSEDEMANDS
INSTU CAST FOUNDATIONALSO THE WHOLE BUILDINGWILL BE SUPPORTED BY PILLARSCASTED IN THE GROUND BECAUSEOF STABILITY NEEDS.THE BUILDING ISNEAR WATER LEVEL THAT DEMANDSDEEPER FOUNDATION
CONCRETE SLAB
INSULATION AND DRAIN LAYER
CONCRETE COLUMNS SUPPORTING MIDDLE OF THE BUILDINGIN THAT WAY HELPING FOR THE STABILITY OF THE BUILDINGBY THE MEMBRANE STURCURE
SLABS WILL BE SUPPORTEDON EACH FLOOR BY KB-BEAMSOR DELTA BEAMS ACROSSTHE WHOLE BUILDING ANDMAKING IT MORE STABLE
IN THE CENTER OFTHE BUILDINGTHERE IS AN INSIDEGARDENFOR THE RESSIDENTSTO ENJOY
OPENING THROUGHTHE WHOLE BUILDINGIN ORDER TO SEETHE INNER BUILDINGFROM EVERY FLOOROF THE BUILDING
THERMAL GLAZINGON TOP OF THE INNER GARDEN
SOLAR PANELS INSTALLED ON A LARGEAREA OF THE ROOF PROVIDINGEFFITIENTENERGY AND HEAT
Section Static analyses
2014
040
220
345
4512
40 40 40260
50
1
2
3
4
5
6
78
50
1. Floor joist (placed on 300 mm distance c/c)2. 180 mm Insulation3. Wooden flooring (parquet)4. Hollowcore slab5. Suspended ceiling wire(placed each 300 mm)6. Suspended ceiling7. Two layers of plasterboard (12,5 mm Knauf Profile)8. Insulation 120 mm9. Knauf aluminium profile(wall system: VE MR120 AA/AA M95)10. Hangers for the suspended ceiling
4035
4080
4425
4645
4685
4825
4845
ScaleChecked by
Drawn by
Date
Project name
1 : 5
Key point - Internal wall connection withceiling
Between Bridges
04.01.2012
Yavor Lechev
Checker
(22).5.3
Key point: wall
Isometric view
08
3rd BSc SemesterProject: Restaurant
Focus area:-Prefabricated elements-Assembly-Logistics-Planning-Execution
Semester project proposal for the restaurant named ,,Athens’’.Placement location will be Skalborg, nearby Storecenter. Plot area size is 2319 m2. Total area of the building is 669 m2. Height of the structure will be 8.4 m. Restaurant can accommodate Max. 100 guests and staff members. Building will be constructed mainly by prefabricated concrete elements.
Site plan: construction process Key point:Wall assembly
Element Stamp drawings Production drawing: wall element
Practical workProject: Renovation design of the old apartment
Focus area:-Redesign of the apartment-Furniture plan-Isometric views
09
Apartment is located in Tallinn, Estonia. Building where flat is located was constructed in the late 80s. Building have 9 floors and made from prefabricated elements. Apartment is located on the 1st floor. Former de-sign had 2 rooms,separate kitchen,WC and bathroom. New design pro-posal includes 3 rooms, where living room designed with kitchen and bathroom and WC are combined as one. Most of the proposed solutions were used during actual renovation.
Apartment Isometric view Floor plan
3D children room 3D Kitchen 3D Bedroom