Philippine Green Building Initiative Version 3.0 2021 PDF

Summary

This document is a guide on the 13 categories of the Philippine Green Building Initiative Version 3.0 from 2021. It details the concepts of resilience in response to climate change. It also includes requirements and strategies for passive systems in building construction.

Full Transcript

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 CATEGORIES
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Energy & the Sustainable & Material Indoor Water
Responsive Sites Environmental Efficiency
Environment Sustainability Quality

Construction Building
Waste Water Climate Change O &M Special
Resiliency Organization
Management & Management Credits
Management
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 Climate Change
Resiliency
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Adaptation Knowledge Provisions

Redundancy Preparedness Plan
Climate Change
Resiliency
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Climate Change
Resiliency
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Climate Change
Resiliency
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NEW CONSTRUCTION & MAJOR RENOVATION
CLIMATE CHANGE RESILIENCY
PREREQUISITES & CREDITS POINTS
CC-P1 Passive Systems REQUIRED

gr n
CC-P2 Soundness of Structure REQUIRED

CC-C1 Water and Wind Tightness 3
CC - C1.1 Building Envelope 1
CC - C1.2 Leak Testing 2

CC-C2 GREEEN
Spatial Flexibility 1

CC-C3 Food Storage 1

CC-C4 Edible Gardening 1
Climate Change
Resiliency
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NEW CONSTRUCTION & MAJOR RENOVATION
CLIMATE CHANGE RESILIENCY
CREDITS POINTS
CC-C5 Water Use Independence 3

gr n
CC-C6 Energy Use Independence 1

CC-C7 Safe Emergency Egress 1

CC-C8 Disaster Risk Management Plan 1

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Climate Change
Resiliency
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PASSIVE SYSTEMS
Climate Change
Resiliency
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PASSIVE SYSTEMS
 Climate Change
Resiliency
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CC-P1 Passive Systems
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
The In times of 1. RA 9729 Buildings shall exhibit at least 50% Refer to natural light
Philippin power failure Climate of total floor area of all habitable and air harvesting
es’ climate brought about by Change rooms provided with ample day methodologies or
offers the effects Act lighting and natural air systems:
o 2. PD 1096 movement REQUIRED 1.Light shelves,
massive
f National 1.Day lighting provided from clerestories, skylights,
opportunity to Building
extreme climate 8:00 AM to 4:00 PM, ample scoops, insulated
take advantage conditions, or Code
of passive enough for most human window systems,
some natural 3. Philippine
activities. Harvested natural overhangs, screens,
systems that disaster Green daylight shall at least meet baffles
allow buildings to occurrence, Building minimum lighting properties 2.Wall / window louvers,
operate even buildings shall Code values for working table
4. CIBSE operable windows, stacks,
without electro- be able to surfaces. non-motorized
mechanical provide Guidelines
2.Naturally ventilated and ventilators, cross-
ample support for Naturally
support. insulated habitable rooms ventilation systems
for continuity Ventilated
Passive systems shall maintain ample air 3.Insulation, insulated
of spaces
are integrated in movement, and acceptable and/ or reflective
operations, 5. ASHRAE
the design of 90.1- average ambient temperature building envelope
productivity components
buildings utilizing and 2016 and humidity, sustaining
minimum thermal comfort for 4.Wind flow study
natural means to comfort through 6. PSVARE
Standar occupants. 5.Sun path &
cool, warm or passively
ds building
light a designed Use EDGE Software to orientation
building. ventilation 7. ASHRAE calculate compliance to 6.Consult an HVAC
and 62.1 & natural ventilation Engineer
lighting systems. 62.2
7.Consult a Lighting
 Passive Design
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passive systems operate without any
mechanical parts or power supply and warm
cool and light buildings naturally
divided into three categories:
▪ passive heating systems
▪ natural lighting systems and techniques
▪ passive natural cooling systems

http://aglsolarenergy.com.au/site/media/solar-hot-water-diagram.png
 Passive Heating
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uses the energy of the sun to keep occupants
comfortable without use of mechanical
systems
Solar Water Heating
conversion of sunlight into heat for water
heating using a solar thermal collector

http://aglsolarenergy.com.au/site/media/solar-hot-water-diagram.png
Passive Lighting
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windows
light shelves
skylight
shoji screen
translucent concrete
light wells
atrium
roof monitor
light tubes
Passive Lighting
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sunlight transport
external reflectors
bottle walls
clerestory
Passive Cooling Methods
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Building Configuration, Site Planning
and Layout
a building can be
protected from direct
sunlight by placing it on
a location within the site
that utilizes existing
features such as trees,
terrain etc.
Passive Cooling Methods
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Building Orientation
in tropical countries such as the Philippines, it is best to
place service areas in the west and east facing sides
of the building because these sides are exposed to
direct sunlight
Passive Cooling Methods
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Façade Design
insulation
Passive Cooling Methods
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Façade Design
high efficiency
glazing
low-emissivity glass
(low-e glass)
double glazing
film
Passive Cooling Methods
Façade Design GREEEN

double façade
Passive Cooling Methods
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Wind & Natural Ventilation
Prevailing Wind in the Philippines :
Amihan (NE) November to April (Winter)
Habagat (SW) May to October (Summer)
Passive Cooling Methods
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Wind & Natural Ventilation
Cross Ventilation
circulation of fresh air through open windows, doors or
other openings on opposite sides of a room
Passive Cooling Methods
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Wind & Natural Ventilation
Stack / Chimney Effect
tendency of air or gas in a shaft or other vertical space
to rise when heated, creating a draft that draws in
cooler air or gas from below
Passive Cooling Methods
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Wind & Natural Ventilation
Wind Gradient
wind speeds increase with the height above the ground,
and the smoothness of the ground surface
Passive Cooling Methods
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Sun Shading Devices
Horizontal Types
generally used on the north
facing and south facing sides
of a building
Passive Cooling Methods
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Sun Shading Devices
Horizontal Types
generally used on the north
facing and south facing sides
of a building
Passive Cooling Methods
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Sun Shading Devices
Vertical Types
generally used on the east
facing and west facing sides
of a building
Passive Cooling Methods
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Sun Shading Devices
Egg Crate Types
combination of horizontal
and vertical shades
Principles of Passive Design GREEEN

continuous insulation
airtight construction
optimized windows
balanced ventilation
minimal dependence
on mechanical systems
vernacular traditions
Climate Change
Resiliency
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CC-P1 Passive Systems
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Reduced 1. ENERGY & THE ENVIRONMENT Category 1. Floor Plans, Roof
GHG 2. SR-C2 Connectivity & Density Plans, Building
emissions 3. SR-C5 Site Development: USA Elevations and
2. Reduced 4. SR-C6.1 Site Protection: Enhanced Site Ecology Sections and Details
threat to the 5. SR-C7 Neighborhood Daylight and Natural Ventilation showing provisions of
6. IE-P1 Basic Indoor Air Quality Performance
ozone layer daylighting and
7. IE-P2 Basic Indoor Lighting Quality
3. Reduced 8. IE-C2 Ventilation Effectiveness natural ventilation
contribution 9. IE-C5 Thermal Comfort 2. GB Code Spreadsheet
to global 10. IE-C6.1 System Controls: Lighting Calculation on
warming 11. IE-C7 Natural Lighting compliance to minimum
4. Reduced 12. IE-C8 Outdoor Views operable / fixed
energy 13. CC-C1 Water & Wind Tightness opening areas
consumption 14. CC-C5 Water Use Independence
5. Reduced 15. CC-C6 Energy Use Independence 3. EDGE Report on
power 16. CC-C8 Disaster Risk Management Plan Natural Ventilation
requirements 17. OM-P1 Building Operations & Maintenance requirements
Management compliance
6. Leads to
18. OM-C1 Building Management Organization
Zero Energy 4. Daylighting Simulation
19. OM-C2.1 Monitoring & Metering: Energy
/ Zero 20. OM-C5 Building As-Built Plans using DIALUX or any
Carbon 21. SC-C2 Re-use of Existing Building similar software
Building 22. SC-C6 Basement Natural Lighting & Ventilation 5. Photo Narrative (date
7. Health & Well- 23. SC-C8 Building Sustainability Promotion and time stamped) of
being 24. SC-C9 Health Risk Management building envelope
8. Living &
Climate Change
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SOUNDNESS OF STRUCTURE
Climate Change
Resiliency
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CC-P2 Soundness of Structure
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
The National Building should 1. National Various studies, reports, 1. Follow updated NBC,
Structural Code be structurally Structural calculators and design criteria NSCP, structural
of the capable to Code of shall be required to support the parameters, setbacks from
Philippines withstand the design and construction of waterways, bodies of
(NSCP), a Philippines water, radius of safety
from active
referral code various building. volcanoes and prescribed
of the stresses, 2. PD 1096 REQUIRED setback from fault lines
National based on Nation
al 1.Submit structural criteria and 2. Refer to PHIVOLCS,
Building establish analysis study, which should PAGASA data and to hazard
Code, was ed seismic, Buildin or thematic maps.
g show considerations of site
designed to floodwater
Code characteristics and potential 3. Overlay maps such as
ensure that flows and wind liquefaction
hazards with mitigation
buildings can pressure recommendations map, flood prone
3. RA 9729
withstand thresholds. areas, soil analysis,
Climate
tremors as Building should 2.Structural Certification issued slope, etc.
Change
high as also be Act by a Structural Engineer, 4. Refer to government line
magnitude 8. capable in indicating the building’s agencies and local
Compliance compliance to the NBC and government units for
protecting or
to this is NSCP various data on the area
reducing risks
therefore to its 5. Use Geographical
equated to Information System
occupants.
earthquake- (GIS)
resilient 6. Hire services of structural engineers
Climate Change
Resiliency
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SOUNDNESS OF STRUCTURE
Climate Change
Resiliency
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SOUNDNESS OF STRUCTURE
Climate Change
Resiliency
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SOUNDNESS OF STRUCTURE
Climate Change
Resiliency
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SOUNDNESS OF STRUCTURE
 Climate Change
Resiliency
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https://www.resilienceindex.org/

SOUNDNESS OF STRUCTURE
Climate Change
Resiliency
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CC-P2 Soundness of Structure
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Safety, 1. EE-P1 Mandatory Building Envelope Performance 1. Structural Analysis
community 2. EE-P2 Basic Building Systems Commissioning criteria, analysis and
resilience & 3. SR-P1 Sound Site Selection results showing
responsibility compliance of building
2. Health & Well- 4. SR-C1 Site Feasibility structural design to local
being 5. SR-C2 Connectivity & Density codes.
3. Living & 6. SR-C7 Neighborhood Daylight and Natural Ventilation
operations 2. Structural Design
7. MS-C3 Durable Materials
continuity Certification
8. SR-P1 Sound Site Selection by Licensed Structural
Engineer
9. SR-C1 Site Feasibility
10. CC-C1 Water & Wind Tightness 3. Test Results
11. CC-C5 Water Use Independence compressive and tensile
12. CC-C8 Disaster Risk Management Plan strength of materials
13. OM-P1 Building Operations & Maintenance
Management 4. OPTION: Building
14. OM-C1 Building Management Organization Resilience Index IFC
15. OM-C2.1 Monitoring & Metering: Energy software report showing
16. OM-C5 Building As-Built Plans minimum PASS grade for the
17. SC-C1 Redevelopment of Built-Up Sites project
18. SC-C2 Re-use of Existing Building
19. SC-C8 Building Sustainability Promotion
Climate Change
Resiliency
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WATER & WIND TIGHTNESS
Climate Change
Resiliency
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CC-C1 Water and Wind Tightness
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
The The whole building 1. RA 9729 Water and Wind Tightness Refer to:
effectiveness envelope shall be Climate 1.Building envelope shall PD 1096 National
of a building sealed, within Change Building Code
have complete
barrier and the acceptable limits, Act accessories for wind and ASHRAE 90.1
presence of from wind flow and water tightness, which can PSVARE Energy
openings can rain / storm 2. PD 1096 be based from the Efficiency Standards on
be tied to water. National Building Envelope
Building Philippine GB Code 1
building
This is to protect point Window, door, and roof
energy usage Code system suppliers and
the building users 2.Perform leak testing of
and the and occupants from 3. Philippi manufacturers as to their
users’ building envelope products air leakage /
the harmful effects ne (pressurized water leak
comfort. of exposure to water seepage ratings
Green test or any other
Waste of energy extreme climatic Building compared with accepted
is pinned methods that show minimum
conditions and the Code actual performance)
down to Complete air / water
building’s energy 2 points
leakage use. 4. ASHRAE tightness details for
an 90.1 fenestration, roof, wall and
d infiltration floor
through Commission building
unnecessary envelope
openings.
CREDIT
POINTS 3
Climate Change
Resiliency
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Building Envelope Testing

WATER & WIND TIGHTNESS
Climate Change
Resiliency
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CC-C1 Water and Wind Tightness
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Safety, 1. EE-P1 Mandatory Building Envelope Performance 1. Floor plans, Elevations,
community 2. EE-P2 Basic Building Systems Sections & Window
resilience & Commissioning Schedule
responsibility 3. IE-P1 Basic Indoor Air Quality Performance including window details
4. IE-C4 Pollutant-Free Indoor Environment showing compliance to
2. Health & Well-being 5. IE-C5 Thermal Comfort requirement
6. OM-P1 Building Operations & 2. GB Code Architectural
3. Living &
Maintenance Management Spreadsheet Air tightness
operations
7. OM-C1 Building Management Organization requirements compliance
continuity
8. OM-C2.1 Monitoring & Metering: Energy checklist
4. Reduced 9. OM-C5 Building As-Built Plans
energy 10. SC-C1 Redevelopment of Built-Up Sites 3. Leak Test Results of
consumption 11. SC-C2 Re-use of Existing Buildings building envelope
12. SC-C8 Building Sustainability Promotion
5. Reduced 13. SC-C9 Health Risk Management 4. Photo Narrative (date and
GHG time stamped) of building
emissions envelope components
showing compliance to
requirements
Climate Change
Resiliency
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SPATIAL FLEXIBILITY
 Climate Change
Resiliency
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CC-C2 Spatial Flexibility
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
During heavy rains, Interior 1. RA 9729 Provide flexible space where basic Consider in the
typhoons, storm spaces Climate necessities (sleeping, eating, toilet building design the
surges and flooding, shall Change and social activities) are accessible to following:
or even man-made be flexible to Act trapped building occupants 1.Zoning or
disasters such as accommodate 1 point centrally locating
riots, war or the 2. Disaster 1.Emergency plan indoor
terrorism, building differe Risk 2. Flexible space to be lived in for evacuation areas
occupants may not be nt needs Managem at least seven (7) continuous
able to travel or of ent days 2.Open-planned
commute home as trapped 3.Total area for flexible spaces to office space with
their lives may be in occupants, hold movable furniture
danger. especially least 50% of the total building (ex. Conference
during occupants at 1.80 sqm per room, classrooms,
Building users may multi- purpose halls,
need shelter and long- occupant
term 4. Flexible spaces can be etc.)
provisions for survival
and buildings should floodin divided and distributed among 3.Pantry or food
be able to provide for g and / the many areas or floors of a closet stocked
these temporary or building to total the required with food and
necessities. stormy need water good for 7
conditions 5.Location of flexible spaces for days within or
survival shall start from the adjacent to
second floor level or at designated
3.50 meters from ground floor level flexible spaces
CREDIT
Climate Change
Resiliency
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SPATIAL FLEXIBILITY
Climate Change
Resiliency
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CC-C2 Spatial Flexibility
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Safety, 1. EE-C5 Energy Efficient Lighting 1. Floor plans,
community 2. EE-C6 On-Site Renewable Energy Elevations, &
resilience & 3. EE-C7 Off-Site Renewable Energy Sections showing
responsibility 4. SR-C1 Site Feasibility location and details of
5. SR-C7 Neighborhood Daylight & Natural Ventilation designated
2. Health & Well- 6. IE-P1 Basic Indoor Air Quality Performance indoor evacuation space.
being 7. IE-C5 Thermal Comfort
8. IE-C7 Natural Lighting 2. CC Form 1 Description
3. Living &
9. IE-C8 Outdoor Views of
operations
10. CC-P1 Passive Systems indoor evacuation
continuity
11. CC-C3 Food Storage space and amenities
4. Reduced 12. CC-C5 Water Use Independence including calculator for
energy 13. CC-C6 Energy Use Independence required indoor
consumption 14. CC-C7 Safe Emergency Egress evacuation space
5. Reduced 15. CC-C8 Disaster Risk Management Plan 3. Photo Narrative (date
GHG 16. OM-P1 Building Operations & Maintenance and time stamped) of
emissions Management building envelope
17. OM-C1 Building Management Organization components showing
18. OM-C5 Building As-Built Plans compliance to
19. SC-C8 Building Sustainability Promotion requirements
20. SC-C9 Health Risk Management
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FOOD STORAGE
Climate Change
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CC-C3 Food Storage
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
Food is one of man’s Building 1. RA 9729 Provision of food storage Consider in the
basic needs. A occupa Climate 1 point building design the
human can survive nts who Change following:
for 3 weeks without become Act Food and water storage good for 1.Pantry or food closet
food. transients 2. Disaster 7 days for 50% of occupants stocked with food and
In cases of calamities in buildings Risk water good for 7 days
and people may be should Management Storage can be centrally within or adjacent to
stranded, provisions have located or in separate zones designated flexible
of food and water access to spaces
should be food
an 2.Potable water
available. storage tanks can
d water
provisions also help provide for
for the water provisions
sustenance

CREDIT
POINTS 1
Climate Change
Resiliency
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CC-C3 Food Storage
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Safety, 1. SR-C1 Site Feasibility 1. Floor plans, elevations
community and sections showing
resilience & 2. CC-C4 Edible Gardening location and details of
responsibility designated pantry/food
3. CC-C8 Disaster Risk Management Plan
storage.
2. Health & Well-
being
4. OM-P1 Building Operations & Maintenance 2. CC Form 1 Description of
3. Living &
Management indoor evacuation space
operations
and amenities including
continuity
5. OM-C1 Building Management Organization calculation of required food
storage capacity
6. OM-C5 Building As-Built Plans
7. SC-C8 Building Sustainability Promotion 3. Photo Narrative (date
and time stamped) of
food storage space and
containers, showing
compliance to
requirements
Climate Change
Resiliency
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EDIBLE GARDENING
Climate Change
Resiliency
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CC-C4 Edible Gardening
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
Urban forestry and urban To provide 1. RA 10611 Self-grown Consider including a
farming / agriculture has possibility Strengtheni edible plot for vegetation in
long been encouraged fo ng the vegetation the building design,
and supported by the r building Philippine 1 point within the structure
Department of occupants to Food such as decks, or
Agriculture. have an Safety a.located within within the open
building premises space as part of the
This not only helps in alternative Regulat
contributing to sustainable source of food, ory b.using sustainable unpaved surface
development, closer to them. System farming methodologies area
th This can also help 2. RA 9729 c.to supplement Consider organic
e reduction of pollution building occupants Climate building occupants farming and
and urban heat island to manage and Change emergency food sustainable method
effect, but also promotes select particular, Act requirement of irrigation
food supply self-reliance, edible vegetation
especially during times of and
calamities and crises. methodology of
farming.

CREDIT
POINTS 3
Climate Change
Resiliency
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EDIBLE GARDENING
Climate Change
Resiliency
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CC-C4 Edible Gardening
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Safety, 1. SR-C1 Site Feasibility 1. Site Development plan,
community 2. SR-C2.1 Connectivity & Density: Community floor plans, elevations
resilience & Continuity and sections showing
responsibility 3. SR-C5 Site Development: USA location and details of
4. SR-C6.1 Site Protection: Enhanced Site Ecology self-grown edible
2. Health & Well- vegetation planting area
being 5. WE-C2 Rainwater Harvesting
3. Living & 2. Plumbing and Sanitary
6. WM-C2 Air Conditioning Condensate Recovery & Re-use
operations Documents showing
7. WM-C3 Wastewater Effluent Recovery & Re-use
continuity layout, diagrams and
8. CC-C3 Food Storage details of
9. CC-C5 Water Use Independence irrigation system
10. CC-C8 Disaster Risk Management Plan 3. CC Form 2 Description
11. OM-P1 Building Operations & Maintenance of edible garden or
Management planting system,
12. OM-C1 Building Management Organization including summary of
13. OM-C3 Waste Disposal Best Practices proposed edible
vegetation to be planted
14. OM-C5 Building As-Built Plans
15. SC-C8 Building Sustainability Promotion 4. Photo Narrative (date
and time stamped) of
edible garden or planting
area as implemented
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WATER USE INDEPENDENCE
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CC-C5 Water Use Independence
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
Building occupants may not To provide a 1. RA 9729 Water Use Consider in the
be able to source basic reserve potable Climate Independence building design and
necessities such as water capacity Change 1 point operation the
food and water in times of for building Act following:
a.Dedicated Potable
natural or man-made occupant use water storage good 1.determination of
disasters. durin for at least 7 days for the storage tank
g calamities or min. 50% of building capacity
Man can survive only 3
times of crises. occupants
days without water. It is not 2.elevated or
only essential for survival but This is to support a.Recommended overhead water
for hygiene and sanitation building occupant that water storage for gravity or
as well. survivability. storage and down-fed water
Redundant water supply is distribution are distribution
therefore vital. independent of energy- 3.distribution outlet
use can be at or near
designated
evacuation space
within the building
development
CREDIT
POINTS 3
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Resiliency
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CC-C5 Water Use Independence
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Safety, 1. SR-C1 Site Feasibility 1. Plumbing & Sanitary
community Documents showing
2. SR-C5 Site Development: USA
resilience & layout, diagrams and
responsibility 3. SR-C6.1 Site Protection: Enhanced Site Ecology details of water storage
2. Health & Well- 4. WE-C2 Rainwater Harvesting and distribution system
being
3. Living & 5. WM-C2 Air Conditioning Condensate Recovery & Re-use 2. CC Form 3 Utilities
operations 6. WM-C3 Wastewater Effluent Recovery & Re-use systems narrative and
continuity calculation of capacities
7. CC-C3 Food Storage
3. Photo Narrative (date
8. CC-C8 Disaster Risk Management Plan
and time stamped) of
9. OM-P1 Building Operations & Maintenance water storage and
Management distribution system
10. OM-C1 Building Management Organization showing compliance to
11. OM-C5 Building As-Built Plans requirements

12. SC-C8 Building Sustainability Promotion
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ENERGY USE INDEPENDENCE
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CC-C6 Energy Use Independence
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
Typhoons, heavy To provide a 1. RA 9729 Building shall Consider in the
monsoon rains, reserve Climate exhibit capacity to building design and
earthquake, volcanic energy / power Change provide own operation the
activities, and other capacity for Act limited basic power following:
emergencies, bring a building service to its 1.use of back-up
high probability that occupant use occupants. power generators
power supply and during 1 point with the necessary
distribution may be calamities or 1.Emergency fuel storage
interrupted. times of provision of 5% of capacity
crises. power requirements,
With all the technology
at our disposal, energy This is to 10% of lighting 2.use of renewable
supply is fundamental support requirements for energy sources such
in building operations. building seven (7) days. as photovoltaic (PV)
occupant 2.Emergency power or wind turbines,
survivability, shall ideally be with battery storage
productivity, through means of
welfare and renewable energy
way of life. source
CREDIT
POINTS 3
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ENERGY USE INDEPENDENCE
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CC-C6 Energy Use Independence
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Safety, 1. ENERGY & THE ENVIRONMENT Category 1. Electrical Design
community 2. SR-C1 Site Feasibility Documents showing
resilience and 3. SR-C2.1 Connectivity & Density: Community load schedule, layout,
responsibility Continuity diagrams and details of
4. SR-C5 Site Development: USA emergency power
2. Health & Well- generator set and
being 5. SR-C6.1 Site Protection: Enhanced Site Ecology
distribution system
3. Living & 6. SR-C7 Neighborhood Daylight & Natural Ventilation
operations 2. CC Form 3 Utilities
7. SR-C8 Site Potential for Renewable Energy
continuity systems narrative and
8. IE-C7 Natural Lighting calculation of capacities
9. CC-P1 Passive Systems 3. Photo Narrative (date
10. CC-C5 Water Use Independence and time stamped) of
11. CC-C8 Disaster Risk Management Plan emergency power
generator set and
12. OM-P1 Building Operations & Maintenance
Management distribution system
showing compliance to
13. OM-C1 Building Management Organization
requirements
14. OM-C4 Emergency Power Generator
Maintenance
15. OM-C5 Building As-Built Plans
16. SC-C8 Building Sustainability Promotion
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SAFE EMERGENCY EGRESS
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CC-C7 Safe Emergency Egress
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
In critical Occupants 1. RA 9729 National Building Code and Fire Code 1. Refer to Codes.
events such shall, have Climate Standards. Provisions should be substantially 2. Design should
as typhoons, unimpeded Change more than the minimum requirement. be more than
heavy access to the Act 1 point minimum
monsoon exit of 2. PD 1096
rains, structures in
earthquake, case of Nation 1.Corridor and doorway widths (at standards
volcanic emergency al least 10% wider than the minimum 3. Refer to local
activities, whether natural Buildin required in PD 1096), disaster
and other or man made. g 2.Width of stairway shall be 10% coordinating
emergencies, Code wider than the minimum standard, or councils
This means
survivability of 3. Fire Code additional stairway, (DCC) or
going beyond
building of the more than that required as with the
the minimum
occupants is Philippines per Total Occupant Load in barangay
standards or
also PD 1096) coordinating
practices set
dependent on 3.Shortest possible travel distances (at least councils (BCC)
forth in the
their capacity 25% shorter than the minimum or with the
national and
to exit required in PD 1096) from occupied barangay and
local codes,
buildings spaces going municipality to
ordinances
safely and towards safe outdoor spaces. discuss
and
easily. 4.Major exit ways shall lead to procedures
local outdoor collector or transition areas which and means for
development shall be safe as practicable from egress and
authorities. flood, falling debris and for easy evacuation.
Climate Change
Resiliency
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CC-C7 Safe Emergency Egress
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Safety, 1. SR-P1 Sound Site Selection 1. Electrical Design
community 2. SR-C1 Site Feasibility Documents showing
resilience & 3. SR-C2 Connectivity & Density: Community load schedule, layout,
responsibility Continuity diagrams and details of
4. SR-C5 Site Development: USA emergency power
2. Health & Well- 5. SR-C6.1 Site Protection: Enhanced Site Ecology generator set and
being 6. SR-C7 Neighborhood Daylight & Natural Ventilation distribution system
7. MS-C3 Durable Materials
3. Living &
8. IE-C2 Ventilation Effectiveness 2. CC Form 4 Checklist
operations
9. IE-C6 System Controls of key safety / egress
continuity
10. IE-C7 Natural Lighting requirements from the
11. CC-P1 Passive Systems National Building
12. CC-P2 Soundness of Structure Code, and related
13. CC-C6 Energy Use Independence codes,
14. CC-C8 Disaster Risk Management Plan including
15. OM-P1 Building Operations & Maintenance calculator for
Management capacities
16. OM-C1 Building Management Organization
17. OM-C4 Emergency Power Generator 3. Photo Narrative (date
Maintenance and time stamped) of key
18. OM-C5 Building As-Built Plans building elements
19. SC-C1 Redevelopment of Built-Up Sites showing compliance to
20. SC-C2 Re-Use of Existing Buildings requirements
21. SC-C8 Building Sustainability Promotion
Climate Change
Resiliency
GREEEN

DISASTER RISK MANAGEMENT PLAN
Climate Change
Resiliency
GREEEN
CC-C8 Disaster Risk Management Plan
RATIONALE INTENT BASIS REQUIREMENT STRATEGY
Disaster risk Use of an 1. United Commercial buildings of 1. Refer to the
management acceptable Nations more than three (3) National Disaster
as defined by document, Office for storeys, and/ or gross Coordinating
UNDRR is the a Disaster Disaster floor area of more than Council (NDCC) for
application of Risk Risk 3,000 sqm shall format, consider
Reduction implement a design and
disaster risk Management (UNDRR) Disaster Risk Management situation of building
reduction Plan featuring Plan, acceptable to the 2. Refer also to ISO
policies and how building 2. RA 9729 local Disaster
Climate 9001 format
strategies to occupants Coordinating Council
prevent new shall adapt, Change Act (DCC)
disaster risk, and how 1 point
3. PD 1096
reduce existing buildings 1.Details of emergency
National
disaster risk shall be
Building Code procedures on the egress
and manage managed of the building occupants
residual risk, during 4. Fire Code of
contributing to emergency 2.Description of
the
the situations emergency provisions,
Philippines
strengthening their capacities, use and
of resilience 5. ISO 9001: distribution
and reduction 2015 3.Evacuation plan
of disaster
losses.
CREDIT
Climate Change
Resiliency
GREEEN

DISASTER RISK MANAGEMENT PLAN
Climate Change
Resiliency
GREEEN
CC-C8 Disaster Risk Management Plan
BENEFITS GREEEN SYNERGIES SUBMITTALS
1. Safety, 1. SR-P1 Sound Site Selection 1. Disaster Risk
community 2. SR-C1 Site Feasibility Management
resilience & 3. SR-C2.1 Connectivity & Density: Community Manual including building
responsibility Continuity organization, policies,
4. SR-C5 Site Development: USA roles
5. SR-C6.1 Site Protection: Enhanced Site Ecology and responsibilities,
2. Health & Well- 6. SR-C7 Neighborhood Daylight & Natural Ventilation
procedures and protocols,
being 7. MS-C3 Durable Materials
8. IE-C2 Ventilation Effectiveness drills, emergency
3. Living & 9. IE-C5 System Controls
operations contact details, risks
10. IE-C7 Natural Lighting and hazards
continuity 11. WE-P1 LWUA Connection identification with degree
12. WE-C2 Rainwater Harvesting System of
13. WM-C2 Air Conditioning Condensate Recovery & Re-Use priorities, mitigation and
14. WM-C3 Wastewater Effluent Recovery & Re-Use
15. CLIMATE CHANGE RESILIENCY Category prevention
16. OM-P1 Building Operations & Maintenance
Management 2. Evacuation plan showing
17. OM-C1 Building Management Organization indoor and outdoor
18. OM-C4 Emergency Power Generator evacuation
Maintenance spaces, egress routes
19. OM-C5 Building As-Built Plans
20. SC-C1 Redevelopment of Built-up Sites
21. SC-C2 Re-Use of Existing Buildings
22. SC-C8 Building Sustainability Promotion
23. SC-C9 Health Risk Management
BUILDING RESILIENCE GREEEN

ability to absorb or avoid damage without
suffering complete failure
an objective of design, maintenance and
restoration for buildings, infrastructure, and
communities
ability to respond and adapt to, as well as
recover in a disruptive event

https://www.resilienceshift.org/work-with-us/faqs/
COMPONENTS OF
BUILDING RESILIENCE GREEEN

Robustness
ability to maintain critical operations and functions in the
face of crisis
Resourcefulness
ability to skillfully prepare for, respond to and manage a
crisis or disruption as it unfolds
Rapid recovery
ability to return to and/or reconstitute normal operations as
quickly and efficiently as possible after a disruption
Redundancy
back-up resources to
support the originals in
case of failure
RESILIENT DESIGN GREEEN

intentional design of buildings, landscapes,
communities, and regions in order to respond
to natural and manmade disasters and
disturbances, as well as long-term changes
resulting from climate change, including sea
level rise, increased frequency of heat waves
and regional drought
RESILIENT vs.
GREEN BUILDINGS GREEEN

“many of the strategies needed to achieve
resilience are exactly the same strategies we
have been promoting for years in the green
building movement”
“solutions are largely the same, but the
motivation is one of life-safety, rather than
simply doing the right thing”
Alex Wilson
BuildingGreen, founder
resiliency is part of sustainable design
sustainable design = green buildings
RESILIENT DESIGN STRATEGIES GREEEN

design and construct (or renovate) buildings
to handle severe storms, flooding, wildfire,
and other impacts that are expected to result
from a warming climate
locate critical systems to withstand flooding
and extreme weather events
model design solutions based on future
climatic conditions as much as possible,
rather than relying on past data
RESILIENT DESIGN STRATEGIES GREEEN

create buildings that will maintain livable
conditions in the event of extended loss of
power or heating fuel through energy load
reductions
create durable buildings using such features
as rainscreen details, windows that can
withstand hurricane (typhoon) winds, and
interior finish materials that can dry out if they
get wet and not require replacement
RESILIENT DESIGN STRATEGIES GREEEN

create beautiful buildings that will be loved
and maintained
rely on passive lighting, heating and cooling
strategies (passive survivability)
reduce dependence on complex building
controls and systems
▪ provide manual overrides in case of malfunction or
temporary power outages
optimize the use of on-site renewable energy
RESILIENT DESIGN STRATEGIES GREEEN

carry out water conservation practices and
rely on annually replenished water resources,
including, potentially, harvested rainwater, as
the primary or back-up water supply
provide redundant water supplies or water
storage for use during emergencies
▪ deep-well pumps
▪ gravity-fed water storage
RESILIENT DESIGN STRATEGIES GREEEN

consider an option for human waste disposal
in the event of non-operating municipal
wastewater system
▪ composting toilets
▪ waterless urinals

use locally available products and skill-sets
specify products and materials that will not off
gas or leach hazardous substances in the
event of flooding or fire damage
RESILIENT DESIGN STRATEGIES GREEEN

rely on vernacular design practices that were
prevalent before the advent of air conditioning
and central heating
combine these design strategies with modern
materials to optimize resilient design
provide redundant electric systems with at
least minimal back-up power capacity
fuel-fired electric generator
solar-electric system with islanding capability
Climate Change
Resiliency
GREEEN

NEW CONSTRUCTION & MAJOR RENOVATION
CLIMATE CHANGE RESILIENCY
PREREQUISITES & CREDITS POINTS
CC-P1 Passive Systems REQUIRED

gr n
CC-P2 Soundness of Structure REQUIRED

CC-C1 Water and Wind Tightness 3
CC - C1.1 Building Envelope 1
CC - C1.2 Leak Testing 2

CC-C2 GREEEN
Spatial Flexibility 1

CC-C3 Food Storage 1

CC-C4 Edible Gardening 1
Climate Change
Resiliency
GREEEN

NEW CONSTRUCTION & MAJOR RENOVATION
CLIMATE CHANGE RESILIENCY
CREDITS POINTS
CC-C5 Water Use Independence 3

gr n
CC-C6 Energy Use Independence 1

CC-C7 Safe Emergency Egress 1

CC-C8 Disaster Risk Management Plan 1

GREEEN CATEGORY POINTS 10
GREEEN
 CATEGORIES
GREEEN

Energy & the Sustainable & Material Indoor Water
Responsive Sites Environmental Efficiency
Environment Sustainability Quality

Construction Building
Waste Water Climate Change O &M Special
Resiliency Organization
Management & Management Credits
Management
GREEEN