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Development of green
university
Ilya Zavaleev, LEED AP, PMP
25 July 2013
Page 2
Overview
► Sustainability and Green university
► Planning process
► Discussion topics
► Construction
► Life and Ope...
Page 3
Concept and Idea
“Ogorod” – self-sufficient ecosystem
Minimum exchange with external
environment
► Simplification o...
Page 4
Concepts “Ogorod”
► Water – water well
► Food – growing plants and animals
► Electricity – photovoltaic panel
► Hea...
Page 5
Goal
Design and build
sustainable university
Arizona State University Biodesign
Institute, USA
Dubai Sustainable Ci...
Page 6
Sustainability and green building
Development of green university
Green building is the practice of creating
struct...
Page 7
Planning process
Focus on life cycle efficiency:
► Urban planning
► Construction
► Operations
► Renovation
Construc...
Page 8
Integrated design process
Conventional design
Source: McGraw Hill
Concept Design Specifications Construction
Develo...
Page 9
Integrated design process
Integrated design
Source: McGraw Hill
Concept Design Specifications Construction
Developm...
Page 10
Eco-Charrette
Source: http://www.ecy.wa.gov
Development of green university
► Think tank - in Knowledge
Industries...
Page 11
Eco-Charrette
Participants:
► University administration
► Architect and civil engineer
► Mechanical and electrical...
Page 12
Issues to consider
► CO2 – Global Warming
► Land
► Fossil fuel
► Resources
► Water
► Ozone depletion
► People heal...
Page 13
Location and Community
► Enclave VS in City
► Diverse communities
► Open University
► Greenfield VS Brownfield
► B...
Page 14
Location and Community
► Enclave VS in City
► Diverse communities (age, economic
level, handicapped, creative
clas...
Page 15
Transport
► Walkable street, bicycle, safety transport
► Reduce parking (transit storage, bicycle, pedestrian orie...
Page 16
Transport
► Metro
► Bus
► Shuttle bus
► Trolley bus
► Train
► Communications and
teleworking
► Car
► Shared use
► ...
Page 17
Building service utilities
► Water supply
► Sewerage
► Heating
► Electric power supply
► Waste
► Snow
► Mud
► Land...
Page 18
Building service utilities
► Water supply: efficient plumbing
► Sewerage: effective plumbing, separate water use (...
Page 19
Energy efficiency
► First - Do not waste
► Second - Use efficiently
► Third - Use alternative energy
► Building en...
Page 20
Landscape
► Landscape and hardscape
► Greening
► Protect habitat
► Heat struggling
► Light pollution
► Water use
►...
Page 21
Landscape
Landscape and hardscape – low impact development
► Park, pavements, ponds, recreation
Greening
► Biodive...
Page 22
Daylight and view, air quality
► Daylight
► Location and geometry
► Glazing
► Color of surroundings
► Air quality
...
Page 23
Responsible construction
► Major issues:
► Waste
► Noise
► Behavior
► Dust
► Chemicals
► Health and Safety
► Fire ...
Page 24
Responsible construction
Safe site access
► Light, fence, mud
► Gate, signs
► Marking in different languages
Happy...
Page 25
Information services
► User friendly building systems
► Internet
► Radio
► TV
► Message boards
► Mass events
► Acc...
Page 26
Life and Operations
► Water and waste water
utilization,
► Waste generation and
recycle content
infrastructure
► M...
Page 27
Results
Ideas
►Minutes
►Basis of design
►Program
requirements
Cost
Requirement Recommendations
Calculations Wishes...
Page 28
Thank you!
Ilya Zavaleev, LEED AP BD+C, PMP
Manager at Real Estate Advisory Services in EY
Tel. +7(495) 755 99 25
...
Page 29
End of presentation
Development of green university
Page 30
Global trends to sustainability
► Climate change► Energy price
76
78
80
82
84
86
88
90
Oil extraction
► People att...
Page 31
Market transition
High profile asset
►Well known
►High quality
►Long term lease
►Higher rental rates
Asset
►Short ...
Page 32
Overview of green building certification systems
LEED
Sustainable sites
Water efficiency
Energy and atmosphere
Mat...
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Development of green university

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by Ilya Zavaleev, Manager at Ernst & Young Russia, Real Estate Advisory department

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Development of green university

  1. 1. Development of green university Ilya Zavaleev, LEED AP, PMP 25 July 2013
  2. 2. Page 2 Overview ► Sustainability and Green university ► Planning process ► Discussion topics ► Construction ► Life and Operations ► Results Development of green university
  3. 3. Page 3 Concept and Idea “Ogorod” – self-sufficient ecosystem Minimum exchange with external environment ► Simplification or utopia? Development of green university
  4. 4. Page 4 Concepts “Ogorod” ► Water – water well ► Food – growing plants and animals ► Electricity – photovoltaic panel ► Heat - wood ► Waste - compost ► Sewage – treated and infiltrated Development of green university
  5. 5. Page 5 Goal Design and build sustainable university Arizona State University Biodesign Institute, USA Dubai Sustainable City, UAE Development of green university
  6. 6. Page 6 Sustainability and green building Development of green university Green building is the practice of creating structures and using processes that are environmentally responsible and resource-efficient throughout a building's life-cycle from siting to design, construction, operation, maintena nce, renovation and deconstruction. This practice expands and complements the classical building design concerns of economy, utility, durability, and comfort. Green building is also known as a sustainable or high performance building. Green Building ► Productivity ► Physical and mental health ► Promotion of sustainable behavior ► Energy efficiency and operational savings ► Image, attractiveness and rating Green university benefits
  7. 7. Page 7 Planning process Focus on life cycle efficiency: ► Urban planning ► Construction ► Operations ► Renovation Construction Operation Construction Operation Life cycle cost analysis Conventional building Sustainable building Development of green university
  8. 8. Page 8 Integrated design process Conventional design Source: McGraw Hill Concept Design Specifications Construction Development of green university
  9. 9. Page 9 Integrated design process Integrated design Source: McGraw Hill Concept Design Specifications Construction Development of green university
  10. 10. Page 10 Eco-Charrette Source: http://www.ecy.wa.gov Development of green university ► Think tank - in Knowledge Industries ► Charrette - in Architecture ► Eco-charrette - in Green Building An eco-charrette is an interactive brainstorming and team- building exercise that generates and targets sustainability goals for a green building.
  11. 11. Page 11 Eco-Charrette Participants: ► University administration ► Architect and civil engineer ► Mechanical and electrical engineers ► Landscape designer ► General contractor ► Maintenance staff ► Students, professors, neighbors and officials Source: http://www.ecy.wa.gov Development of green university
  12. 12. Page 12 Issues to consider ► CO2 – Global Warming ► Land ► Fossil fuel ► Resources ► Water ► Ozone depletion ► People health and comfort ► Nature, forest, plants and animals ► Waste ► Safety and Security Development of green university
  13. 13. Page 13 Location and Community ► Enclave VS in City ► Diverse communities ► Open University ► Greenfield VS Brownfield ► Building footprint ► Community involvement in planning ► Access to services ► Housing and Job proximity (mix use) Development of green university
  14. 14. Page 14 Location and Community ► Enclave VS in City ► Diverse communities (age, economic level, handicapped, creative class, white collar, blue collar) ► Open University – open to community – open perimeter, crossing streets ► Adjustment, infill, redevelopment, buil ding foot print ► Community involvement in planning (public hearing, charrette) ► Housing (dormitory) and Job proximity (Lectures), mix use development, access to services Development of green university
  15. 15. Page 15 Transport ► Walkable street, bicycle, safety transport ► Reduce parking (transit storage, bicycle, pedestrian orientation) ► Real VS Virtual communications Development of green university
  16. 16. Page 16 Transport ► Metro ► Bus ► Shuttle bus ► Trolley bus ► Train ► Communications and teleworking ► Car ► Shared use ► Electrical car ► Alternative fuel ► Stroller ► Parking Simulation of transport flows Development of green university
  17. 17. Page 17 Building service utilities ► Water supply ► Sewerage ► Heating ► Electric power supply ► Waste ► Snow ► Mud ► Landscape maintenance ► Cleaning Development of green university
  18. 18. Page 18 Building service utilities ► Water supply: efficient plumbing ► Sewerage: effective plumbing, separate water use (rain water, black water, gray water) ► Heating (heat meters, radiator controls) ► Power supply (effective equipment, lighting, metering) ► Waste (separation, waste recycling, composting, second hand, fire safety and hygiene) ► Snow (pond, irrigation, cooling storage) ► Mud (topography, drainage, soil reinforcement) ► Landscape maintenance (No painting, durability) Development of green university
  19. 19. Page 19 Energy efficiency ► First - Do not waste ► Second - Use efficiently ► Third - Use alternative energy ► Building envelope ► Building management system (BMS) ► Electricity ► Equipment ► Lighting ► Heating ► Ventilation ► Air Conditioning Energy simulation Development of green university
  20. 20. Page 20 Landscape ► Landscape and hardscape ► Greening ► Protect habitat ► Heat struggling ► Light pollution ► Water use ► Safety and security Development of green university
  21. 21. Page 21 Landscape Landscape and hardscape – low impact development ► Park, pavements, ponds, recreation Greening ► Biodiversity, non invasive, green roof Protect habitat Heat struggling ► Green, shadow and white Light pollution ► Lighting control Water use ► Efficient irrigation Safety and security ► Alarm, open space, lighting Development of green university
  22. 22. Page 22 Daylight and view, air quality ► Daylight ► Location and geometry ► Glazing ► Color of surroundings ► Air quality ► Location – wind rose ► Ventilation ► Source of pollution ► Tobacco smoke ► Volatile organic compounds (VOC) Development of green university
  23. 23. Page 23 Responsible construction ► Major issues: ► Waste ► Noise ► Behavior ► Dust ► Chemicals ► Health and Safety ► Fire safety ► Social responsibility ► How to control? Development of green university
  24. 24. Page 24 Responsible construction Safe site access ► Light, fence, mud ► Gate, signs ► Marking in different languages Happy neighbors ► Notification ► Noise restriction ► Information board and book of complaints ► Light protection ► Behavior of workers in the neighborhood Ecology ► Chemical spoil protections ► Rain water protection ► Proper material storage Working environment ► Separate toilets, shower, lockers, smoking place ► Clean construction site ► HSE policies implementation (instructions, helmets, glasses, Badge, first aid kid) ► Contact information (Police, Ambulance)Development of green university
  25. 25. Page 25 Information services ► User friendly building systems ► Internet ► Radio ► TV ► Message boards ► Mass events ► Accountability of the management company ► Surveys on the quality of services ► Single information portal Development of green university
  26. 26. Page 26 Life and Operations ► Water and waste water utilization, ► Waste generation and recycle content infrastructure ► Management and Reporting ► User friendly and manuals ► Energy management ► Commissioning and audit ► Pest management ► Cleaning ► Maintenance ► Painting ► Public involvement ► Occupant survey ► Purchasing policy ► Waste policy ► Air quality control (CO2, Smoking, VOC) ► Promotion Development of green university
  27. 27. Page 27 Results Ideas ►Minutes ►Basis of design ►Program requirements Cost Requirement Recommendations Calculations Wishes Eco-charrette Initiation of integrated design process Development of green university
  28. 28. Page 28 Thank you! Ilya Zavaleev, LEED AP BD+C, PMP Manager at Real Estate Advisory Services in EY Tel. +7(495) 755 99 25 Mail: ilya.zavaleev@ru.ey.com http://www.ey.com/cis/reas Development of green university
  29. 29. Page 29 End of presentation Development of green university
  30. 30. Page 30 Global trends to sustainability ► Climate change► Energy price 76 78 80 82 84 86 88 90 Oil extraction ► People attitude Development of green university
  31. 31. Page 31 Market transition High profile asset ►Well known ►High quality ►Long term lease ►Higher rental rates Asset ►Short term ►Typical ►Moderate demand Green building certification International investor’s requirements Implementation change Тип сертификации Operational expenses Market Value ROI Occupancy Rental rates LEED NC -13.6% +10.9% +9.9% +6.4% +6.1% Source: McGraw Hill Construction (2010). Green Outlook 2011: Green Trends Driving Growth Development of green university
  32. 32. Page 32 Overview of green building certification systems LEED Sustainable sites Water efficiency Energy and atmosphere Materials and resources Indoor environmental quality Innovation and design process Regional priority credits TOTAL BREEAM Management Energy use Health and well being Waste Transport Land use & ecology Pollution Materials Water TOTAL DGNB International topics for certification: Ecological Quality 22.5%, Economical Quality 22.5%, Social Quality 22.5%, Technical Quality 22.5%, Quality of Process 10%, Location Quality (separately) Max. points 26 10 35 14 15 6 4 110 Weighting 12% 19% 15% 7.5% 8% 10% 10% 12.5% 6% 100% LEED-NC 2009 rating Points Platinum 80+ Gold 60-79 Silver 50-59 Certified 40-49 DGNB rating % Gold 80% Silver 65% Bronze 50% BREEAM rating % Outstanding ≥ 85% Excellent ≥ 70% Very good ≥ 55% Good ≥ 45% Pass ≥ 30% Development of green university

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