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MP-ECBC CELL
presentation by
Kaushal Lodaya MP-ECBC CELL Member
Let’s build ‘Tomorrow’
MP-ECBC CELL Lets build Tomorrow presentation by Kaushal Lodaya - - PowerPoint PPT Presentation
MP-ECBC CELL Lets build Tomorrow presentation by Kaushal Lodaya - - PowerPoint PPT Presentation
MP-ECBC CELL Lets build Tomorrow presentation by Kaushal Lodaya MP-ECBC CELL Member MP-ECBC CELL HOW TO DESIGN MP-ECBC COMPLIANT BUILDINGS MP-ECBC CELL BASIC DESIGN CONSIDERATION MP-ECBC CELL BUILDING Clients Requirement
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BASIC DESIGN CONSIDERATION
MP-ECBC CELL
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BUILDING can be of many possible shapes SITES can be of many possible shapes Client’s Requirement Building Operation Weather Details Location Architectural Drawings MEP Drawings
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Top View Floor Plan
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FRONT PRESPECTIVE VIEW SOLAR INSOLATION ANALYSIS
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REAR PRESPECTIVE VIEW SOLAR INSOLATION ANALYSIS
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SOLAR INSOLATION ANALYSIS Condition - 1
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SOLAR INSOLATION ANALYSIS Condition - 1
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SOLAR INSOLATION ANALYSIS Condition - 2
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SOLAR INSOLATION ANALYSIS Conclusion
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OPTIMIZATION OF ENVELOPE ELEMENTS BUILDING ENVELOPE
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EXTERNAL WALL Root Cause
Indoor Space
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BUILDING ENVELOPE BASIC SOLUTION
Indoor Space
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BUILDING ENVELOPE POSSIBLE ECMS’
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ROOF Root Cause
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ROOF BASIC SOLUTION
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ROOF POSSIBLE ECMS’
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FENESTRATION (Mandatory) Root Cause
(1)
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FENESTRATION (Mandatory) Root Cause
(1) (2)
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FENESTRATION (Mandatory) Basic Solution - I
(1)
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FENESTRATION (Mandatory) Basic Solution - I
(1) (2)
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MP-ECBC CELL
FENESTRATION (Mandatory) Basic Solution - I
(2) (1)
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MP-ECBC CELL
ROOF POSSIBLE ECMS’
Single Glazed Unit Double Glazed Unit
Vertical Fins Horizontal Chajjas Internal Louvers/Blinds External Louvers/Blinds Movable Shades
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MP-ECBC CELL
FENESTRATION (Mandatory) Basic Solution - II
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MP-ECBC CELL
ROOF POSSIBLE ECMS’
Single Glazed Unit Double Glazed Unit
Vertical Fins Horizontal Chajjas Internal Louvers/Blinds External Louvers/Blinds Movable Shades
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MP-ECBC CELL
ROOF VERIFY DAYLIGHTING CRITERIA
Caution! Minimum 10% - 40% of above Grade Floor Area needs to be Day-lighted
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MP-ECBC CELL
How to achieve Thermal Comfort COMFORT SYSTEM AND CONTROLS
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THERMAL COMFORT NATURAL VENTILATION MECHANICAL SYSTEM MIXED MODE
APPROACHS
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APPROACH FOR NATURAL VENTILATION
Parameters to be CONTROLLED Constraints
Heat Dissipating Bodies
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Stack Ventilation Earth Air Tunnel Earth Air Tunnel Night Flushing Radiative Cooling Evaporative Cooling
POSSIBLE ECMS FOR NATURAL VENTILATION
ADAPTIVE COMFORT (NBC-2016)
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MP-ECBC CELL
APPROACH VIA MECHANICAL VENTILATION
WITH CAUTION! Minimum Fresh Air Quantity Minimum Equipment Efficiency Controls: Timeclock, Temperature, Occupancy, Fan, Location of equipments Proper insulation at piping
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MP-ECBC CELL
APPROACH VIA MECHANICAL VENTILATION
WITH CAUTION! Minimum Fresh Air Quantity Minimum Equipment Efficiency Demand Control Ventilation Controls: Timeclock, Temperature, Occupancy, Fan, Dampers System Balancing Location of equipments Proper insulation at piping and duct work
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MP-ECBC CELL
APPROACH VIA MECHANICAL VENTILATION
WITH CAUTION! Minimum Fresh Air Quantity Minimum Equipment Efficiency Demand Control Ventilation Controls: Timeclock, Temperature, Occupancy, Fan, Dampers System Balancing Location of equipments Proper insulation at piping and duct work
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MP-ECBC CELL
APPROACH VIA MECHANICAL VENTILATION
WITH CAUTION! Minimum Fresh Air Quantity Minimum Equipment Efficiency Demand Control Ventilation Controls: Timeclock, Temperature, Occupancy, Fan, Dampers System Balancing Location of equipments Proper insulation at piping and duct work
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MP-ECBC CELL
APPROACH FOR SERVICE WATER HEATING
WITH CAUTION! Solar Hot Water System needs to be installed on –site with capability of 20% of total requirement capacity (as per NBC-2016) for building having built-up area less than 20,000 sq. m. Solar Hot Water System needs to be installed on –site with capability of 40% of total requirement capacity (as per NBC-2016) for building having built-up area is equal or greater than 20,000 sq. m.
- Necessary measures needs to be taken wherever necessary for insulation,
heat recovery, heat traps, and for swimming pools.
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Effective Lighting Designing LIGHTING AND CONTROLS
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DESIGNING WITH LIGHTINGS
WITH CAUTION! INTERIOR LIGHTING CONTROLS
- Automatic Lighting Shutoff
- Space Control
- Daylight Area Control
EXTERIOR LIGHTING CONTROL
- Astronomical controls
- Photo sensor controls
- Lamp efficacy should be more than 80 lumens per watt
ADDITIONAL CONTROLS
- Separate automatic/manual controls for lighting used for the purpose of
Display, Guest room, Task, Demonstration, etc.
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DESIGNING OF INTERIOR LIGHTINGS
(1) (2)
Luminaire Area not illuminated Illuminated area Illuminated area
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DESIGNING OF INTERIOR LIGHTINGS
To ensure enhanced designing of integrating internal artificial lighting with available daylight
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DESIGNING OF EXTERIOR LIGHTINGS
(1) (2)
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Efficient Utility Selection ELECTRICAL & RE SYSTEMS
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FULLFILING MANDATORY REQUIREMENTS
Selection of efficient Transformers (under process of upgradation) Minimize transformer losses Minimize Voltage Drop within 2% at feeders and 3% of branch circuit at design load Energy Efficient equipment (BEE certified) to be used such as Motors, DG sets, UPS Metering and monitoring needs to be done as per provision in the CODE for desired connected load To ensure that Power Factor will be maintained above 0.97 25% of total connected load of the building shall be provided with dedicated Renewable Energy Generating System; or if not possible than at-least on 40% of non-shaded roof area have to be installed with Solar Photovoltaic System
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MP-ECBC CELL
http://www.mprenewable.nic.in/ MP-ECBC Documents
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MP-ECBC CELL http://www.mprenewable.nic.in/noticeinfo.html
MP-ECBC Documents
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