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x - Green Building Council Indonesia
GREENSHIP Process & Overview Ir. Rana Yusuf Nasir Director Rating & Technology June 17th 2010 Balai Kartini Green Building : • Reduce the usage of natural resources : – Energy – Water – Material • Minimize environment impact : – Waste – Site • Improve indoor health & comfort : – Reduce SBS – Increase productivity Development Process of GREENSHIP Compare 8 Rating System : Rating Identification Rating Analysis Identifying benchmark & points 1. Steering Committee 2. Expert 3. TAG 4. Technical Advisor National Consensus Further discussion on benchmark & points Draft Greenship : Form, Process & Manual Developing the Rating Tools • Steering Committee : 9 • Technical Advisor – Dr. John Burnett – Developing BEAMS – Hkg – Chief Proffessor Polytechnic Uniersity – Hongkong – Monthly visit Discussion w/ Expert : 10 x Technical Advisory Group : Research Institution 4 times full day discussion TPIB Core Founder : 22 TPAK Industry : 26 University Association Total : 18 times discussion Industry since October 2009 Certified Green Buildings BREEAM UK 1990 HK-BEAM 1996 LEED US 1999 Green Star Australia CASBEE Japan Green Mark Singapore Green Building Index - Msia Esteedama Dubai + 20 or more 6 Developing Process : GREENSHIP Rating Tools 17th of June : Launching Greenship version 1.0 “New Building” Framework : -Last Revision - Last input “New Building” April Finalizing Draft May National Consensus June Jul Aug Training Greenship Proff Certification Process National Consensus Respondent List • • • • • • • • Government Research Institution NGO & International Organization Associations (Professionals & Companies) Companies (GBCI Member) Core Founder involve in TAG Universities & Educational Institution Others (Media, Banking, Insurance) National Consensus Government • Departemen Pekerjaan Umum • Dinas Pengawasan dan penertiban Bangunan • Kementrian Lingkungan Hidup • Departemen Energi dan Sumber Daya Mineral • Badan Standarisasi Nasional • Dewan Energi Nasional • Dewan Nasional Perubahan Iklim National Consensus Research Institution • Badan Pengkajian dan Penerapan Teknologi (BPPT) • Lembaga Ilmu Pengetahuan Indonesia • Puslitbangkim Bandung NGO • Wahana Lingkungan Hidup Indonesia • Yayasan Kehati • Urban and Regional Development Institute • Pusat Studi Urban Desain National Consensus Himpunan Desainer Interior Indonesia Himpunan Ahli Elektro Indonesia Persatuan Insinyur Indonesia Ikatan Arsitek Lansekap Indonesia REI Asosiasi Manajemen Properti Indonesia Asosiasi Ahli Teknik Hotel Seluruh Indonesia Ikatan Arsitek Indonesia Asosiasi Industri Luminer dan Kelistrikan Indonesia ASHRAE Himpunan Ahli Teknik Iluminasi Indonesia Ikatan Ahli Fisika Bangunan Indonesia Ikatan Ahli Sistem dan Konstruksi Mekanis Indonesia Ikatan Ahli Teknik Penyehatan dan Teknik Lingkungan Indonesia Ikatan Ahli Lingkungan Hidup Indonesia Asosiasi Kontraktor Indonesia HAKI GAPENSI Inkindo DKI Jakarta Perhimpunan Cendikiawan Lingkungan Indonesia Asosiasi AsuransiUmum Indonesia Research Institution National Consensus A Site D 0.39% 2.35% 2.75% 94.51% Setuju Ragu-ragu Tidak Tahu Tidak Setuju National Consensus Energy EC 0.00% Setuju 3.85% Ragu-ragu 1.54% Tidak Tahu 94.62% Tidak Setuju National Consensus Water AC 18.26% 0.00% 1.74% 80.00% Setuju Ragu-ragu Tidak Tahu Tidak Setuju National Consensus Material RC 1.48% 2.22% 5.19% 91.11% Setuju Ragu-ragu Tidak Tahu Tidak Setuju National Consensus Indoor HC 1.44% 11.51% 2.16% 84.89% Setuju Ragu-ragu Tidak Tahu Tidak Setuju National Consensus 2.50% Bldg E Mgmnt 2.50% 2.50% Setuju Ragu-ragu Tidak Tahu Tidak Setuju 92.50% National Consensus Overall Setuju Ragu-ragu Tidak Tahu 6% 1% 2% 91% Tidak Setuju National Consensus Most Commented Rating 1. ASD 2 Community Accessibility 2. ASD 3 Public Transportation 3. ASD 5 Site Landscaping 4. ASD 6 Micro Climate 5. EEC 1 Energy Efficiency Measures 6. EEC 3 Ventilation 7. WAC 6 Water Efficiency Landscaping 8. MRC 2 Environmentally Processed Product 9. IHC 3 Chemical Pollutant 10. BEM Prasyarat-1 Basic Waste Management GREENSHIP CATEGORY • Appropriate Site Development (ASD) • Energy Efficiency Conservation (EEC) • Water Conservation (WAC) • Material Resources and Cycle (MRC) • Indoor Air Health and Comfort (IHC) • Building Environment Management (BEM) TOTAL : 45 CRITERIAS and 101 POINTS GREENSHIP Rating Tools Rating Calculation CritePoint ria Rating Category % Appropriate Site Development 8 17 16,8% Energy Efficiency and Conservation 7 26 25,7% Water Conservation 7 21 20,8% Material Resources and Cycle 7 14 13,9% Indoor Health and Comfort 8 10 9,9% Building Environmental Management 8 13 12,9% 45 101 100,0% TOTAL GREENSHIP Rating Tools Required Documents Crite- Bench e-docs Paper docs ria mark Rating Category Appropriate Site Development 8 24 5 9 Energy Efficiency and Conservation 7 13 6 11 Water Conservation 7 16 4 13 Material Resources and Cycle 7 12 10 23 Indoor Health and Comfort 8 10 3 8 Building Environmental Management 8 12 2 20 45 87 30 84 TOTAL GREENSHIP Rating Tools Criteria Difficulties Difficulties Rating Category Impleme ntation Cost Asses ment Appropriate Site Development - 3 - Energy Efficiency and Conservation - 1 1 Water Conservation - - - Material Resources and Cycle 3 3 1 Indoor Health and Comfort - 3 - Building Environmental Management 1 2 - 4 12 2 TOTAL GREENSHIP Rating Tools Low Hanging Fruits 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. ASD P1 ASD 5 ASD 6 EEC P1 EEC 4 WAC P1 MRC P1 IHC 2 IHC 4 IHC 6 BEM 1 BEM 5 BEM 6 BEM 7 - Basic Green Area - Site Landscaping - Micro Climate – Electrical Sub Metering – Climate Change Impact – Water Metering – Fundamental Refrigerant – Environmental Tobacco Smoke – Outside View – Thermal Comfort – AP as a Member of Project Team – Submission of Green Building Data for Database – Fit Out Guide – Occupant Survey GREENSHIP Rating Tools GREENSHIP Achievements (Total : 101 points) Min Point % Platinum 74 73% Gold / Emas 58 57% Silver / Perak 47 46% Bronze / Perunggu 35 35% Achievements Every Building could be a GREEN building!!! : - Owner’s commitment - Budget GREENSHIP Rating Tools Indonesia Context 1. ASD P - Basic Green Area Refer to Local regulation 2. ASD 5 - Site Landscaping Use Indigenous Plant 3. EEC P1 - OTTV Calculation Promote OTTV calculation in Indonesia 4. WAC 4 - Alternative Water Resources Rainwater, Wudhu water and Condensate Water 5. MRC 6 - Regional Material increase domestic economic growth 6. BEM 5 - Submission of Green Building Implementation Data for Database Collect Green Building database in Indonesia Category Reviews Green Building : • Reduce the usage of natural resources : – Energy – Water – Material • Minimize environment impact : – Waste – Site • Improve indoor health & comfort : – Reduce SBS – Increase productivity Irreversible Assets -Less Private Car -Public transportation - Not in greenfields -Within the city/ urban center - High Compact - Less Travel - High Density -Connectivity -Life Quality - Walking Distance Iwan P-VALUEWORKS /2010 Site Development Criteria Transport Means Private car based Urban Context Greenfields/Rural No of household/population Min density : 1 Large Landed Level of mix-integration Single use Transport Means Mass transport Urban Context Greenfileds/Rural No of household/population Medium High density Level of mix-integration Integrated Mix Use Development Transport Means Mass transport Urban Context Urban Peripheral No of household/population High density Level of mix-integration Integrated Mix Use Development Transport Means Mass transport Urban Context Urban Downtown No of household/population High density Level of mix-integration Integrated Mix Use Development The Big Differences Icon Comm. Complex - Jakarta Grand Mall Grand Mall Mixed Use Mixed Use Private car allowed - limited parking area Private Car based – large parking structure MRT Station & City check - in No integration with mass transport system Iwan P-VALUEWORKS /2010 Icon Comm Complex - Hong Kong Connectivity PERUMAHAN SD, SMP, SMA AL AZHAR MASJID AL-AZHAR UNIV AL AZHAR PERUMAHAN KOMPLEKS DEP. PU TELKOM MEN PERA BPN WALI SETNAS KOTA JKT ASEAN SEL MABES POLRI LAP. POLRI MABES POLRI KANTOR PUSAT PLN PERURI PERUMAHA N KOMERSIA L KOMERSIAL TERMINAL BLOK M PUSAT PERDAGANGAN BLOK M JALUR MRT JALUR PEDESTRIAN UTARA Gedung Kementerian PU : • In radius 2 km, 7 public facility among 20 on the list Category Reviews Energy Consumption Energy consumption per Capita is Low, while Energy Intensity is high 600 index (Japan = 100) 500 400 300 200 100 0 Japan OECD Thailand Energy Intensity • Energy Intensity (toe per million US$, 1995 price) Japan : 90,31 Indonesia : 504,46 Indonesia Malaysia North America Energy per Capita Germany • Energy Consumption per Capita (toe per capita) Japan : 4,07 Indonesia : 0,535 40 Energy Eff Index Energy use in Office Building OFFICE Regional Typical Our Intensity *) Good practices **) Typical **) 200 KWH/m2.yr 250 KWH/m2.yr 97 KWH/m2.yr 178 KWH/m2.yr *) AMPRI Data 2004 **) Technical Notes Rule of Thumb 24/2003 : BSRIA - UK Market / Industry Transformation Energy Usage 22% 6% 60% 12% AC System Source: Green Building Index, 2010 Lighting Building Transport Others Current Approach Estimated Building Cooling Load Check figures – thumb rule – SQFT/TR APPLICATION LOWER FLOOR TOP FLOOR General Office 240 ~ 270 220 ~ 230 Executive Office 260 ~ 280 230 ~ 250 Meeting Room 180 ~ 200 165 ~ 180 Restaurant 170 ~ 190 150 ~ 170 Shopping Mall 150 ~ 170 130 ~ 150 Lobby 250 ~ 280 230 ~ 250 Function Room 150 ~ 170 130 ~ 150 Residence 330 ~ 350 300 ~ 320 Theatre / Cinema 0,003 ~ 0,004 per person Cooling Load’s component – Building Envelope – Lighting (Natural & Artificial) – People – Fresh air & infiltration – Other load/plug load Cooling Load Estimation Sheet ITEM AREA SUN GAIN/ETD FACTOR Btu/H SOLAR HEAT GAIN - GLASS Glass . . . . . . . . . . . . Sqft X . . . . . . . X . . . . . . . . . . . . . . . . Glass . . . . . . . . . . . . Sqft X . . . . . . . X . . . . . . . . . . . . . . . . . . . . . . . . . Sqft X . . . . . . . X . . . . . . . . . . . . . . . . Glass . . . SOLAR & TRANSMISSION GAIN – WALLS & ROOF Wall . . . . . . . . . . . . Sqft X . . . . . . . X . . . . . . . . . . . . . . . . Wall . . . . . . . . . . . . Sqft X . . . . . . . X . . . . . . . . . . . . . . . . Wall . . . . . . . . . . . . Sqft X . . . . . . . X . . . . . . . . . . . . . . . . . . . . . . . . . Sqft X . . . . . . . X . . . . . . . . . . . . . . . . Roof . . . Building Envelope TRANSMISSION GAIN – EXCEPT WALL & ROOF Glass . . . . . . . . . . . . Sqft X . . . . . . . Partition . . . X . . . . . . . . . . . . . Sqft X . . . . . . . X . . . . . . . . . . . . . . . . . . . . . . . . . . . . INTERNAL HEAT People . . . . . . . no. of people X . . . . . . . . . . . . . . . . Lights . . . . . . . HP / KW X . . . . . . . . . . . . . . . . Equipment . . . . . . . X . . . . . . . . . . . . . . . . OUTSIDE AIR . . . . . . . 1,09 . . . . . . . . . . . . CFM X . . . . (TD – F) X SUB-TOTAL Safety Factor . . . . % . . . . . . . . . . . . . . . . . . . . . . . . ROOM SENSIBLE HEAT . . . . . . . . . . . . LATENT HEAT People . . . . . . . no. of people X . . . . . . . . . . . . . . . . Appliances . . . . . . . X . . . . . . . . . . . . . . . . OUTSIDE AIR . . . . . . . CFM X . . . . (w – grain/lb) X 0,68 . . . . . . . . . . . . SUB-TOTAL Safety Factor . . . . % ROOM LATENT HEAT Safety Factor GRAND TOTAL HEAT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . % (ducting & pipng loss) . . . . . . . . . . . . . . . . . . . . . . . . = . . . TR Other Market / Industry Transformation Cooling Load Building Envelope Lighting People Fresh Air Others Source: SNI 03-6389-2000 tentang Konservasi Energi Selubung Bangunan pada Bangunan Gedung OTTV Calculation OTTVi = a.[(Uw x (1 – WWR)] x TDEk + (SC x WWR x SF) Heat Conduction through Walls + Heat Conduction through Windows + (Uf x WWR x DT) + Solar Heat Gain through Windows OTTV total = ( OTTV 1 x A1) + (OTTV2 x A2) + .......+ (OTTVi x Ai) A1 + A2 +.....+ Ai Building Envelope Building Envelope OTTV Simulation Parameter Unit Base Bldg Designed Building OTTV = 35 KWH % OTTV = 40 KWH % OTTV = 30 KWH % Main AC Plant Estimated Building Cooling Load Ton Ref 435 407 6,3% 380 12,7% 352 19,0% AC Unit (Chiller, Unitary, Split) KW/TR 0,676 0,676 Same 0,676 Same 0,676 Same Chill Water Pump -CHWPP (primary) KW/TR 0,097 0,097 Same 0,097 Same 0,097 Same Chill Water Pump -CHWPS (secondary) KW/TR - - - - - - - Condenser Water Pump -CWP KW/TR 0,061 0,061 Same 0,061 Same 0,061 Same Cooling Tower -CT KW/TR 0,039 0,039 Same 0,039 Same 0,039 Same Total AC Plant KW/TR 0,873 0,873 Same 0,873 Same 0,873 Same Total AC Plant Energy Consumption KWH/year 987.338 924.806 6,3% 862.275 12,7% Air Distribution (AHU, Indoor Unit) KWH/year 101.739 101.739 Same 101.739 Same Artificial Lighting W/m2 19,0% 101.739 Same 15 Same 15 Same 15 Same KWH/year 390.000 390.000 Same 390.000 Same 390.000 Same Vertical Transportation (lift, escalator) KWH/year 198.000 198.000 Same 198.000 Same Car Park Ventilation KWH/year Other KWH/year Summary Unit 15 799.744 - - 343.916 Base Bldg - 343.916 Same Designed 198.000 Same 343.916 Same Designed 343.916 Same Designed Chiller Plant KWH/year 987.338 924.806 6,3% 862.275 12,7% 799.744 19,0% Air Distribution KWH/year 101.739 101.739 Same 101.739 Same 101.739 Same Lighting KWH/year 390.000 390.000 Same 390.000 Same 390.000 Same Lift & Escalator Lift & Escalator KWH/year 198.000 198.000 Same 198.000 Same 198.000 Same Carpark MV KWH/year Others KWH/year 343.916 343.916 Same 343.916 Same 343.916 Same Total Building Energy Consumption KWH/year 2.020.993 1.958.461 3,1% 1.895.930 6,2% 1.833.398 9,3% 202 196 3,1% 190 6,2% 183 9,3% Total EEI % of Improvement KWH/m2.year % - - 3,1% - 7,3% 6,2% - 18,1% 9,3% Architect - Shifting of Design Paradigm • Recently : – Design iconic, unique, monumental building – Focus on esthetics, function, room organization • Shifting to : – Responsibility on climate change – First step - building envelope energy – Cooling load and natural lighting What Next ?? Should they perform the same? NEW ‘Green’ Buildings EXISTING Grey Building New Building vs Existing Building New Building : Existing Building : • Start from “zero” • “Grey” building - is fixed • Design • Operation & Maintenance • Promise • Improvement • Most on “paper” • Actual Performance • Fill-in the gap • Energy, Water & Indoor Air Quality • Transform the practices • Continuity from NB The gap Regulation Implementation Design As Built Promise Achieved Non-standard Based Standar based Building Industry Player • Still digesting about green concept • Green label as a marketing tools • Less concern of green performance. Green Building Concept • It is not only a technology or engineering issue • Nor a trend, • It is a change of : – mindset – behavior, – a way of life – culture • It is a future GLOBAL FUTURE TREND TODAY, sustainability is . . . TOMORROW, it is . . . . . . . • Nice to have • MUST HAVE • An area of interest • A mandate for action • A project in individual building • A strategy for an entire portfolio • A business case to justify • A standard & code