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IGBC
06 October 2017
Sustainable and Smart Build IPD on BIM
Manish Shangari
Sustainable SmartBuild IPD
BIMPerformance Based Design
CAPEX & OPEX
IPD- Prerequisite for Sustainability
IGBC LEED
IPD
Smart build with BIM
Early engagement is key for BIM in IPD for sustaina ble and Smart Build
Early engagement of Stake holders with sustainable studies is key to Integrated Project Delivery that leads to efficiency and gains for smart build
Achieving Sustainable Design using IPD on BIM Appr oach
LOD 400 Construction
LOD 500 As-Built and FM, Record
Value Engineering & User Requirement
LOD 100/200 Concept & Scheme Design
LOD 300/350 Design Development
Only 2 Steps of Drawing ProductionSustainable studies part of Integrated process.Not pure certification exercise.Performance based design
Early engagement of Stakeholders and concurrent value engineering led to efficiency and gain
40% reduction in time
80% cost certainty
Near 100% cost certainty from Model
Shop Drawing if required or straight to Fabrication
Adobe Acrobat Document
• Zoning strategy• Prefabrication Strategy
• Review & optimise building and system designs at early concept stage.
E 117 kWh/m2/yr
$24/m2/yr
67 kWh/m2
74 kWh/m2
$11/m2/yr$12/m2/yr
E
CE
C68% daylit 90% daylit
87% daylitD
D
C
D
• Design Authoring – Preliminary Model• Code Validation• Sustainability Evaluation – Materials, Performance a nd
processes• Preliminary Energy Analysis• Improved coordination between various consultants• Preliminary Cost Estimate – Comparative cost analysi s
of various design solutions
Energy Analysis Result – Simulation Software (BIM)
Daylight Analysis
Building performance Analysis
Active Analysis Results
Various Energy Conservation Measures Monthly Energy ConsumptionsEnvironmental Analysis
• Detail Energy Analysis
• System Cost Estimates
• Clash Detection ( eg Architectural systems vs
Plumbing system)
• Program Validation
• Accelerate design review process by use of single
database
• Construction specifications – Materials & Finishes
• Detail Cost Estimates
• Sustainability Reporting – Reducing material waste
• Scheduling – Shortening production times
• Creation of “As built ” model
• Enhancing site safety
4D/5D Simulation for CAPEX OPEX control
Measurement of Performance based design and Smart build 7D
� VIRTUAL COMMISIONING� BUILDING MAINTENANCE SCHEDULING� BUILDING SYSTEM ANALYSIS� ASSET MANAGEMENT� SPACE MANAGEMENT / TRACKING� DISASTER PLANNING� EDMS ( Electronic Document Management System)
Applicability of IPD-BIM approach in IGBC Rating Sy stems
Sustainable Design Approach:•Integrated design approach
•Passive Architecture
Site Selection & Planning:•Low Emitting Vehicles
•Preserving Site Natural Conditions•Heat Island Reduction
•Outdoor Light Pollution Reduction•Universal Design
Water Conservation:•Water Efficient Plumbing Fixtures
•Water Metering•Landscape Design
Applicability of IPD-BIM approach in IGBC Rating Sy stems
Energy Efficiency:•Energy Performance
•Renewable Energy Analysis•Metering & Management
Building Materials & Resources:•Sustainable Building Materials
•Waste Management•Green Building Materials & Products
Indoor Environmental Quality:•Fresh Air Ventilation
•CO2 Monitoring•Daylighting & Views Analysis
•Low Emitting Materials•Occupant Well-being
Case Studies
Case 1 (Commercial ): TRIL IT Park , Gurugram ( 50 % Energy Savings)
PROJECT DETAILS:
•Project Name : - TRIL IT Park , Gurugram
•BUA :- 53 Lacs Sqft
•MEP + Sustainability+BIM :- AECOM
•Design to target cooling load of 490 Sqft / TR
•Tonnage reduction - 1400 TR
•Energy Performance Index – 70 kWh/m2 as against BEE 3 Star rated Energy benchmark for Air conditioned buildings
•Gross Capex Saving in HVAC - INR 25 /Sqft as against past project of same client
Case 1 (Commercial ): TRIL IT Park , Gurugram ( 50 % Energy Savings)
New Technologies
•DOAS(Dedicated out door air system) with Direct Indirect
Evaporative Cooling -Chiller Capacity reduced by 1215 TR.
•Stratified Chilled Water Tank – Chiller Capacity reduced by
1000 TR
•Elevated Chilled Water temperature – Power Saving &
Reduction of Electrical Connected load of 500 kW.
•Radiant floor Cooling for Common Corridor – Power Saving &
Reduction of Electrical Connected load of 70kW.
•-Condensate recovery to optimize HVAC System efficiency –
Reduction in Cooling tower Make up water 56 KLD
MEPF Package Costs (Commercial)
30 to 35%
Cap
ex C
ost
Ope
ratio
nal C
ost
for
3yrs
Base Industry Approach
600
IPD Approach
Case Study 2 – Proposed Hospital Building at Lucknow
Project details:•No. of Beds: 1000•Multi-speciality Hospital•Built up area: 1.4 Million Sqft•No. of OT’s: 35
Project Challenges:•Energy Efficiency: Highly energy intensive building typology•Low temperature chilled water supply to maintain OT indoor conditions•Achieving Daylight & Views in interior spaces
Daylight Optimization
Case Study 2 – Proposed Hospital Building at Lucknow
Low Temperature Chilled Water:•Design Case-1, Conventional approach: Common chilled water plant for entire building•Design Case-2, IPD approach: Separate chilled water plant for OT’s and rest of the building
Capex:•Increased by 5% of total building cost
7408
Energy Optimization
Case study 3 ECC DwarkaSEASONAL WIND PROFILE
SITE SOLAR SHADING
ECC Dwarka
SOLAR RADIATION ANALYSIS- SOUTH EAST FACADE
High Solar Radiation on South East Façade - 2000Wh/sqm
N SOLAR RADIATION ANALYSIS- NORTH EAST FACADE
Low Solar Radiation on North East Façade -1000Wh/sqm
N
SOLAR RADIATION ANALYSIS- NORTH EAST FACADE
Low Solar Radiation on North East Façade -1000Wh/sqm
N
ECC Dwarka
BIM Software and Process : Sustainable and Smart Build
Revit Architecture
Revit MEP
Ecotect
IES VE
dxf
IFC
gbXML
Revit Architecture
Plugin
Sefaira
gbXML
GBC eQUESTRevit Architecture
Daylight Analysis
Energy Analysis
Precise Daylight & Energy Analysis
Precise Daylight & Energy Analysis
Revit Architecture
DaysimIFC
Ecotect
Radiance
Revit Architecture
Revit Architecture
Revit Architecture
gbXML
Ecotectfbx
3ds Max
dxf
Ecotect
Daysim
Ecotect
Radiance
Revit Architecture
gbXML
GBC eQUEST
Revit Architecture
Plugin
Sefaira
Thank You