building energy systems & integration minimum energy … · 2019-04-29 · automation optimum...
TRANSCRIPT
Building Green in a Hot, Humid Climate
Energy & AtmosphereUSGBC-LA Chapter IntroductionSustainable Design (First Cost)Building Energy Systems & IntegrationMinimum Energy PerformanceSustainable Operations (Life Cycle Cost)Sustainable Building Examples Standard 189 - 6 Disciplines of LEED EBOMEnhanced Commissioning – Continuous CommissioningMeasurement & Verification (IPMVP)Return on Investment vs. Return on Environment
1 Sustainable Sites2 Water Efficiency3 Energy & Atmosphere4 Materials & Resources5 Indoor Environmental Quality6 Innovative Design & Regional Priority
Greg Coates – USGBC-LA
Test
Innovation
ROE
EarthWise
Waste Reduction
Cost Neutral
Sustainability
ROI
Recycling
Efficient Design
LEED
Triple Bottom
Line
Energy Efficient Human
Integration
Natural Resources
Indoor Environmental
Quality
Economic Resources
High Performance
Buildings
Net Zero
Energy & Atmosphere Buildings consume 39% of the energy in
the U.S. and 71% of the electricity
National Center for Community RenewalShreveport, Louisiana
Renewal Concepts for a Green Building Project
National Center for Community RenewalShreveport, Louisiana
Renewal Concepts for a Green Building Project
Energy & Atmosphere Designers, owners and operators must look
beyond both the limits of the building and initial cost.
Context and life-cycle cost including operations and staffing must be evaluated and addressed.
National Center for Community RenewalShreveport, Louisiana
Renewal Concepts for a LEED Platinum Project
Energy & Atmosphere National Center for Community RenewalNational Center for Community Renewal
Shreveport, Louisiana
Goals for LEED GoldGold or PlatinumPlatinum
Energy & Atmosphere National Center for Community RenewalNational Center for Community Renewal
Shreveport, Louisiana 2006
Goals for LEED GoldGold or PlatinumPlatinumSustainable Sites (14 possible points – 11 to 14 points likely for CRI)
•Erosion and Sedimentation Control •Site Selection •Development Density •Brownfield Development •Alternative Transportation: Public transportation access •Alternative Transportation: bicycle storage and changing rooms •Alternative Transportation: alternative fuel vehicles •Alternative Transportation: Parking Capacity •Development Footprint•Restore Urban Fabric •Stormwater Management •Heat Island Effect •Light Pollution Reduction
Water Efficiency (5 possible points – 3 to 5 points likely for NCCR) •Water Efficient Landscaping •Innovative Wastewater Technologies •Water Use Reduction
Energy and Atmosphere (17 possible points – 8 to 14 points likely for NCCR)•Energy Performance •CFC Reduction in HVAC&R Equipment •Renewable Energy •Commissioning •Ozone Protection •Green Power
Energy & Atmosphere National Center for Community RenewalNational Center for Community Renewal
Shreveport, Louisiana 2006
Goals for LEED GoldGold or PlatinumPlatinum
Materials and Resources (7 to 10 points likely for CRI)•Storage and Collection of Recyclables •Building Reuse •Construction Waste Management •Resource Reuse •Recycled Content •Regional Materials •Rapidly Renewable Materials •Certified Wood
Indoor Environmental Quality (13 to 15 points likely for CRI)•IAQ Performance•Environmental Tobacco Smoke (ETS) Control •Carbon Dioxide (CO�) Monitoring •Ventilation Effectiveness •Construction IAQ Management Plan •Low-VOC-Emitting Materials •Indoor Chemical and Pollutant Source Control •Controllability of Systems •Thermal Comfort •Daylight and Views
Innovation & Design Process (2 to 5 points likely for CRI)•Innovation in Design •LEED Accredited Professional•EBOM Life-Cycle Operations and Maintenance – Evergreen Strategy
Energy & Atmosphere
Most places: People and organizations work in isolation trying their best
Strategic Planning: A few people try to sort it all out (but it often does not work)
Strategic Doing: A continuous process of aligning, linking and leveraging
Energy Efficiency NetworkingEnergy Efficiency NetworkingUSGBCUSGBC--Louisiana ChapterLouisiana Chapter
ASHRAESTANDARD 189
ASHRAESUSTAINABILITY
AIADESIGN
IESNALIGHTING
USGBCCONSERVATION
Standard 189
A new minimum green building standard that will serve as a baseline for sustainable building and potentially be incorporated into building code.
Standard for the Design of High-Performance Green Buildings that will be designed to provide minimum guidelines for green building practices
Energy efficiency. Impact on the atmosphere. Sustainable sites. Water use efficiency. Materials and resources. Indoor environmental quality.
10
BioMedicalResearch
© 2008, Brian D. Thompson, UWM Research Foundation
Funds
Fluid Transport/ Civil & Ind. Engr.
Detection
Materials
Bioscience
Pumps/ Valves/
Components
Analysis/ Measuring/
Control
Water User
Consumer Products
Treatment/ Processing/ Softening
Utilities
Funding Agencies
CERT Academic Institutions
Private SectorPublic Sector
DOE
EPA
CST
USDA
DoD
SEFP
InternalBudgets
TRANEPACT
Foundations
EECBG
NOAA/DOC
Educational GRANTS
UWM
LA Tech
ULM-Monroe
BPCCLA Delta CC
Louisiana DeltaCommunity College
LA Trade and VocationLTCS
LSU/LSUHSCSouthern
Grambling
SBCOC SDDACity of
SHREVEPORT
LA-DNRCPEEC
BOSSIERPARISH
Municipalities
CERT
PRATTRecycleing Solutions
Hubble Building Automation
Optimum Energy • Variable Primary Flow
Gulf GeoExchange• GeoThermal Systems• Solar Thermal Systems
STORERBuilding Services• Solar Residential
TRANE• Solar Commercial• Solar Residential
USGBC-LA• Economical• Environmental• Social
SCHNEIDEREnergy Services
Wilhite Solar
CRI
CISCO SYSTEMSIntelligent Networking Utility Metering
Solutions• Water Conservation
AEPSWEPCO• Engineering services
CEET
EMONDMON
UMS• pumps
SiemensGE SMG
Entergy
OpportunitiesEnvironmental• Algae control (& exploitation)• Removal of PCBs from lakes & rivers• Storm water containment, • Road salt• Ship’s ballast – policy/enforcement• Aquaculture• Lake Michigan contamination• Policy issues – metering/incentives
Energy/Efficiency• Ethanol production efficiency• Tar sands water treatment• Elimination of boiler scaling• Increasing brewing efficiency• Increased efficiency of water heating• Speeding treatment for large volumes• Increasing treatment efficiency Processing/Treatment
•Municipal wastewater treatment–Storm water treatment–Reduced use of chemicals•Industrial wastewater treatment–Farm manure, food processing waste, metals–Utilizing sewer sludge•Residential Water Treatment–Residential water treatment, home filtration–Residential Water softening without salt
•Reverse Osmosis•Softening•Ships ballast - treatment•Treatment targets–PCBs in sewer pieps–Desalinzation–Radium in ground water–Pharmaceuticals–Phosphate
Monitoring/Detection• Water security• Real time monitoring • User detection systems• Real time sensing for life forms• Pharmaceuticals
• Joe Aldstadt – analytical methods• Peter Geissinger – detection• Alan Schwabacher– pharmaceuticals in water
• Carmen Aguilar – microbiology• David Petering –metal metabolism • Val Klump
• Rohatgi, Pradeep – adv. castings, lightweight, lead-free • Aita, Carolyn – advanced coatings• Gong, Sarah – polymer materials
• Chen, Junhong – nano materials, sensors
• Li, Jin – pollutant transport modeling• Bravo, Hector – hydraulic modeling• Christensen, Erik – pollutants in water• Amano, Ryoichi - CFD• Pillia, Krisna – porous media modeling• Kevin Renken- mass transfer• Sobolvev – biproducts utilization• Doug Cherkauer – groundwater hydrology
• Jim Waples – water aging• Tom Consi – aquatic robots• Tom Grundle - harbors
• Tim Ehlinger – aquatic systems
• Burlage – PCR environmental test
• Shangping Xu – safe drinking water
Partnerships• Sponsored Research Proj.• Shared equipment• Graduates• Workforce training• Subcontractor/supplier• Extramural grant support• Philanthropic support
Cluster Effects• Shared resources/equipment• Collaborative grants• Improved competitiveness• Translational science
Centenary
CONSERVATION NETWORKS ELECTRICTY… GAS… WATER
Integrative Design: Collaborative NetworkingIntegrative Design: Collaborative Networking
Core Team Expertise Networks Opportunities Outcomes
Efficient Design
Efficient Building Operations
PERFORMANCE BY DESIGNPERFORMANCE BY DESIGNIntegrative Design ProcessIntegrative Design Process
Link/Leverage
South View
… Filling Regional Forensic Science Needs…
…Project Information & ImpactsNorth Louisiana Forensic Sciences Center – Revised Project Scope…Shreveport, LouisianaAugust 16, 2011
previous scope
Area Plan0 350’
Jackson
Little Rock
Baton Rouge State Police
Jefferson ParishAcadiana
Houston
Dallas
Edmond
Fort Worth
Oklahoma City
NLFSC
Regional Full Service Forensic Science Labs
• North Louisiana Forensic Sciences Center• Serves 29 North Louisiana Parishes – ½ Louisiana land area & ¼ population• Operations funded by service fees and add-on fees to district, municipal & mayor’s courts• Has served North Louisiana for over 40 years• New facility will meet growing demand currently filled by out-of-state fee for services
• New High performance “green” laboratory building• 82,000 square feet • LEED certification & Labs 21 • 50% more energy efficient than code required • Located within InterTech Science Park and LSUHSC campus
• Project costs of $30,000,000 - site development, building, furniture / fixtures & fees• State funding committed - $24,000,000• Federal funding requested - $6,000,000
• Operations funded from lab operations (no state or federal funds)• $4,500,000 annual operations impacting local economy• 60 well paying jobs – 42 forensic scientist and 18 support
• Double existing workforce• Average annual salaries of $70,000
• New services currently contracted out-of-state • Toxicology, Autopsies and Expert Testimony• $2,500,000 of operating revenue (stays in Louisiana)• Disaster related services for autopsy and body storage
• Current Services provided to 29 parishes of North Louisiana• 15,000 cases annually - DNA, firearms and controlled substances cases• 63% of cases are for rural North Louisiana• Backlog over 1,000 cases• Sheriff’s offices, judicial districts, police departments & coroner’s offices
• Services provided free to Federal Agencies: FBI, DEA, ATF, Barksdale AFB and Fort Polk• Services provided to state agencies: Fire Marshall, Probation & Parole, Wildlife &
Fisheries and State Police• Key Life Science Resource for InterTech Science Park companies and prospects
• Animal toxicology & pathology services currently contracted out-of-state• Asset to attract new companies to InterTech
• LSUHSC and Forensic Sciences Center association• New education & workforce opportunities for North Louisiana• Forensic Pathology Fellowships• Graduate studies in forensic sciences
Service Area for New NLFSC
NLFSC Project Information & Impacts… Filling Regional Forensic Science Needs…
Summary InformationNorth Louisiana Forensic Sciences Center – Revised Project Scope…Summary InformationShreveport, Louisiana August 16, 2011
Northwest View
North Louisiana Forensic Sciences Center – Revised Project Scope…Shreveport, LouisianaAugust 16, 2011
Previous scope
New High Performance “Green” Laboratory Building (82,000 square feet) Sustainable Design and Building Energy Efficiency & Conservation Features under consideration include:
Smart Growth Principles, Central Geothermal Heat Pump, Vegetated Roof, Water Conservation Strategies, Solar Orientation & Shading, Day Lighting, Building Integrated Photovoltaic, Natural Gas Powered Fuel Cell, Demand Control Ventilation, & Exhaust Heat Recovery.
Design will be compared to a baseline building that complies with the minimum requirements to meet ASHRAE 90.1, 2001 and 2007. Our design goal is to achieve 50% improvement over code. Comparing performance measures and cost to the baselines will guide our decision-making for building systems selections. Lifecycle cost of systems, optimizing performance and right-sizing design are important elements of how we will reach the best integration of architectural and engineering design. To organize our green lab design we will document our goals, strategies and performance using LEED criteria. A preliminary assessment indicates we could reach gold or platinum level certification. The following are guiding statements for each category:
LEED & Lab 21Sustainable Sites (SS). Incorporate features that promote use of alternative transportation (preference parking, bikes & public transit). Building and site design features and construction procedures will demonstrate practices that are low impact to the environment (e.g., storm water management, SRI >29, vegetated roof, and light pollution controls).
Water Efficiency (WE). Reduce water consumption (e.g., storing rain and gray water for site irrigation; reduce potable water use 30-40% over a LEED baseline; reduce lab process water and wastewater by 20-30%). Select HVAC systems that conserve water.
Energy & Atmosphere (EA). Reduce energy consumption through conservation measures to reduce load (e.g., orientation, day lighting, shading devices , insulation, materials & systems selection). Provide alternative energy options and peak demand management solutions.Right-size lab equipment and HVAC systems. Pursue ventilation efficiencies. A M&V plan will be used in commissioning the building to optimize performance. Evaluate possible elimination of refrigerants.
Materials & Resources (MR). Recycle construction debris and select materials with recycled content. Select regional materials within 500 miles of the project. Incorporate materials considered rapidly renewable and wood products that are certified FSCP&C. Develop a chemical and hazardous materials M&V management plan.
Indoor Environment Quality (EQ). Develop & implement an IAQ management plan for construction and preoccupancy. Optimize the building for comfort and performance as part of sustainable facility management procedures. Provide daylight and views to all regularly occupied spaces. Provide lighting controls to occupants. Select low-emitting materials (e.g., adhesives, sealants, paints, coatings, floor materials…). Use small control zones for laboratory hoods & optimize airflow.
Innovative Design (ID). Seek and document new strategies to enhance design outcomes.
Regional Priority (RP). Restore and protect natural habitats. Control the quantity & quality of storm water. Utilize on site renewable energy and manage construction waste.
$1M Energy & Efficiency Improvement over the 5-Yr Plan
Shreveport Convention Center, Shreveport, LA
This is an efficiently designed and installed building that had failed to perform effectively. We found operational ways to produce some really outstanding performance through continuous enhanced commissioning.
Sam Voisin
Sustainability Provision Savings ContributionBuilding Automation Services (BAS) 20% Preventive Maintenance and Inspection (PM) 30% Energy Retrofit Services (ERS) 10% Supervisory Building Services (SBS) 10% Software Support Services (SSS) 5% STORER Integration Services (SIS) 5% Energy Conservation Measures (ECM) 5% Enhanced Commissioning Services (ECS) 5% Remote Building Services (RBS) 5% Energy Measurement & Verification (EMS) 5%
Sutton Mitchell Beebe & Babin Architects
Webster Parish Schools, Minden, LA
$1M Energy & Efficiency Improvement in just 18 months
University of Louisiana at Monroe, Monroe, LA
We thought this building was beautifully sited. The plan and section seemed very coherent; there is an overall consistency here.Kevin Burke
There are a lot of teaching opportunities here for the kids, parents, and the public.Kath Williams
$1M Energy & Efficiency Improvement over the 2-Yr Plan
University of Louisiana at Monroe, Monroe, LA
We began this process by metering buildings within the Academic Sector. The Building Automation and Operations plan has been very successful; including HVAC and Lighting Projects to provide Energy Efficient Consistency here.Jason Roubique
There are a lot of teaching opportunities here for the kids, parents, and the public.Kath Williams
Louisiana Delta Community College, Monroe, LA
A+ Architecture, Monroe, Louisnana
We began this process with building operations, enhanced commissioning. The Building Automation and Operations plan has effectively modeled and delivered energy performance; including HVAC and Lighting Energy Efficient Strategies for Performance Consistency here.Michael Colvin
BNIM Architects & Lake Flato Architects
School of Nursing & Student Community Center, Houston, TX
ConAgra Facility Earns LEED Platinum CertificationA First Worldwide for a Large-Scale Frozen Food Manufacturing Plant
ConAgra Lamb Weston Delhi Processing Plant, Delhi LA
Among the steps taken to earn LEED platinum is producing biogas from wastewater to help power the plant, natural storm water control, on site re-cycling and energy controls and equipment that saves 40 percent of energy used at a comparable plant.
ConAgra Facility Earns LEED Platinum CertificationA First Worldwide for a Large-Scale Frozen Food Manufacturing Plant
ConAgra Lamb Weston Delhi Processing Plant, Delhi LA
Energy & Atmosphere ConAgra Lamb Weston Processing FacilityConAgra Lamb Weston Processing Facility
Delhi, Louisiana 2011
LEED PlatinumLEED Platinum
Sustainable Sites – Protecting the Environment• Landscape and Stormwater Re-Use• Native Landscaping on more than 100 acres • Wetland protection in all surrounding areas • Priority Parking for low-emission, fuel efficient vehicles. • Lighter colored roofing and abundant landscaping • Stormwater Management to replace irrigation• Heat Island Effect Reduction• Light Pollution Reduction
Water Efficiency• Eliminated irrigation with Stormwater Re-use• Plant projects annual water savings of 60% compared to the LEED baseline • A projected yearly savings of 396,000 gallons of water!• High-efficiency bathroom fixtures such as toilets, low-flow showerheads and faucets• About 60% of the potable water that would be used by equivalent standard fixtures.• Water Efficient Landscaping • Innovative Wastewater Technologies
Energy & Atmosphere ConAgra Lamb Weston Processing FacilityConAgra Lamb Weston Processing Facility
Delhi, Louisiana 2011
LEED PlatinumLEED Platinum
Energy and Atmosphere• Energy-saving equipment provides 40% reduced energy consumption • By identifying and recovering wasted energy in building systems and processes• Lighting controls dim or turn off lights when not needed throughout the plant• Biogas, produced by treating process waste water, is used to produce steam• This process will offset 20% of the annual energy demand of the plant•CFC, methane, and greenhouse gas eliminated from entering the atmosphere.•Reduction in HVAC&R Equipment Energy Demand•Renewable Energy
Materials and Resources• Onsite recycling includes sending materials to be reused or reprocessed• Landfill Reduction included box cardboard, roll cores, totes, polyethylene, metals
(cans), light bulbs, batteries, pallets, shredded office paper and cooking oil.•Offices used wood sourced from sustainably managed forests•More than 70% of the construction waste was recycled by the contractor•Wood waste from pallets was used to prevent soil erosion on site•Over 300 tons of waste entering the landfill•Storage and Collection of Recyclables
Energy & Atmosphere ConAgra Lamb Weston Processing FacilityConAgra Lamb Weston Processing Facility
Delhi, Louisiana 2011
LEED PlatinumLEED PlatinumIndoor Environmental Quality
• Climate controlled plant increased worker productivity, safety and comfort• Adjustable controls to customize the temperature of workspaces• Custom controls at the process workstations• Occupant satisfaction impacts productivity and fewer sick days.• High efficiency air filtration system•IAQ Performance, low solvent paints and glues.•Environmental Tobacco Smoke (ETS) Control •Daylight and Views
Innovation & Design Process• The Delhi processing facility was designed with the environment in mind• Emphasis on water conservation and native landscaping• Energy conservation with renewable energy systems• Minimized global warming impact through the use of biogas (methane)• Construction efficiency with recycling and materials selection and reuse• Education – Achieving a LEED rating was a unifying goal during design• Integrated collaboration with consultants to optimize sustainability • Fisher and Sons educated more than 45 sub-contractor firms and 30 vendors• A comprehensive Green Education Program was implemented• Employee and visitor education about the green Delhi Plant• Importance of environmental stewardship.
On-Site Renewable EnergyEnergy & Atmosphere
Summer / Cooling Winter / Heating
Closed Loop Horizontal
Closed Loop Vertical
Open Loop Vertical
On-Site Renewable EnergyEnergy & Atmosphere
On-Site Renewable EnergyEnergy & Atmosphere
Energy & Atmosphere
““Private IndustryPrivate Industrycan perform can perform these activitiesthese activitiesmore effectivelymore effectively!!””
LALA--FP&C FP&C -- ORMORM
On-Site Staffing &
Supervision
HVAC Asset Life Cycle
CostsContinuous
Commissioning
Lighting Retrofits
Software &ControlsSystems
HVAC AssetRenewal
RemoteSupportServices
TechnicalOperational
Improvement
Energy Management& Training
EmergencyRepairs &
Replacements
Financial Performance
M&V
PreventiveMaintenance
SBS CONSERVATION
Model
““ConservationConservation is the is the most sustainable sourcemost sustainable sourceof alterative energyof alterative energy!!””
LALA--DNR, USDNR, US--DOEDOE
Perpetual Energy Conservation Engine
““Public/Private Public/Private Partnerships will dig LA Partnerships will dig LA of out of the Deferredof out of the DeferredMaintenance HoleMaintenance Hole!!””
VFA VFA –– The SHAW GroupThe SHAW Group
On-Site Renewable Energy
Enhanced Commissioning Credit 3:
Energy & Atmosphere
FMOFMO--Facility Manager OverloadFacility Manager Overload
Facility Manager
1. HVAC/Facility Preventive Maintenance
2. HVAC/Facility Service Warranty Coordination
3. HVAC/Filter, Water Treatment and Peripherals
4. HVAC/Facility Mechanical and Technical Repairs
5. HVAC/Facility Training, Parts, Materials Supplies
6. HVAC/Facility Mechanical and Technical Operations
7. HVAC/Facility Management and Improvement Measures
8. Technical Controls Upgrade & Integration (Tracer 100)
9. HVAC/Facility Energy Measurement, Verification and Reporting
10. Retro-Commissioning, Re-Commissioning and Continuous Commissioning
Energy & Atmosphere Enhanced Commissioning
Credit 3:
IntentBegin the commissioning process early during the design process and execute additional activities after systems performance verification is completed.
RequirementsImplement, or have a contract in place to implement, the additional commissioning process activities in addition to the requirements of EA Prerequisite 1 and in accordance with the LEED-NC 2.2 Reference Guide
Enhanced Commissioning Credit 3:
Potential Technologies & StrategiesAlthough it is preferable that the CA be contracted by the Owner, for the enhanced commissioning credit, the CA may also be contractedthrough the design firms or construction management firms not holding construction contracts.
The LEED-NC 2.2 Reference Guide provides detailed guidance on the rigor expected for following process activities: • Commissioning design review • Commissioning submittal review • Systems manual
Energy & Atmosphere
Measurement & Verification Credit 5: 1 point
Energy & Atmosphere
Measurement & VerificationMeasurement & VerificationMeasurement & Verification
• Define baseline model• Measure performance• Verify statistically• Re-evaluate regularly
Comply with International Performance Measurement and Verification Protocolwww.evo-world.org
Measurement & Verification Credit 5: 1 point
IntentProvide for the ongoing accountability of building energy consumption over time.
RequirementsDevelop and implement a Measurement & Verification (M&V) Plan consistent with Option D: Calibrated Simulation (Savings Estimation Method 2), or Option B: Energy Conservation Measure Isolation, as specified in the International Performance Measurement & Verification Protocol (IPMVP) Volume III: Concepts and Options for Determining Energy Savings in New Construction, April, 2003.
The M&V period shall cover a period of no less than one year of post-construction occupancy.
Energy & Atmosphere
Measurement & Verification Credit 5 1 pointProvide for the ongoing accountability of building energy consumption over time.
RequirementsDevelop and implement a Measurement & Verification (M&V) Plan consistent with Option D: Calibrated Simulation (Savings Estimation Method 2), or Option B: Energy Conservation Measure Isolation, as specified in the International Performance Measurement & Verification Protocol (IPMVP) Volume III: Concepts and Options for Determining Energy Savings in New Construction, April, 2003.
The M&V period shall cover a period of no less than one year of post-construction occupancy.
Energy & Atmosphere
Measurement & Verification Credit 5: 1 point
Potential Technologies & StrategiesDevelop an M&V Plan to evaluate building and/or energy system performance. Characterize the building and/or energy systems through energy simulation or engineering analysis. Install the necessary metering equipment to measure energy use. Track performance by comparing predicted performance to actual performance, broken down by component or system as appropriate. Evaluate energy efficiency by comparing actual performance to baseline performance.
Energy & Atmosphere
Measurement & Verification Credit 5: 1 point
Energy & Atmosphere
Existing Building Commissioning
Retro Commissioning: -not previously commissioned
Enhanced Commissioning: -Previously Commissioned
Continuous Commissioning: -ongoing plan to sustain optimized performance
Measurement & Verification Credit 5: 1 point
Energy & Atmosphere
Where Does The Energy Go?Where Does The Energy Go?
0
5
10
15
20
25
30
35
Chiller CRAC PDU Switchgear/Generator
% S
hare
Tota
l Ele
ctric
al E
nerg
y U
seHVAC Systems
Fans, Pumps etc
Lighting & Other
Chiller Humidifier CRAC HVAC PDU MiscSwitchgear/Generator
Lighting
Electrical and Building Systems
55% 45%
Source: American Power Conversion, Implementing Energy Efficient Building Operations, Neil Rasmussen, White Paper 114
HVAC Equipment
About 55% Total Energy Spent On Heating & CoolingAbout 55% Total Energy Spent On Heating & Cooling
Measurement & Verification Credit 5: 1 point
Energy & Atmosphere
Average Retail Energy Prices forLA Commercial Customers
4
5
6
7
8
9
10
11
12
13
2003 2004 2005 20068 2007 2008 2009 2010
Year
Price
LA Electricity Price(Cents/kWh)
National Electricity Price
(Cents/kWh)
What do we have coming?What do we have coming?
Potential TechnologiesDetermine the energy needs of the building and investigate opportunities to engage in a green power contract. Green power is derived from solar, wind, geothermal, biomass or low-impact hydro sources. Visit www. green-e.org for details about the Green-e program. The power product purchased to comply with credit requirements need not be Green-e certified. Other sources of green power are eligible if they satisfy’ the Green-e program’s technical requirements. Renewable energy certificates (RECs), tradable renewable certificates (TRCs), green tags and other forms of green power that comply with Green-e’s technical requirements can be used to document compliance with EA Credit 6 requirements.
Energy & Atmosphere Green Power
Credit 6: 1 point
Measurement & Verification Credit 5: 1 point
Energy & Atmosphere
Short-term municipal bonds
S&P high technology
composite
Long-term municipal
bonds
S&P 500 composite
NYSE composite
Latin America stock composite
Comprehensive energy retrofits
0%
5%
10%
15%
20%
25%
Historical Average Return (%) for Common Investments
Building and Energy Retrofit Service is a turnkey approach to implementing bundled, self-funding facility improvements
ROI Might You Expect?ROI Might You Expect?
Show Me the Money!!!
Conceptual Energy Operations & Maintenance Conceptual ROI for 200,000 Square Feet
Energy Savings Energy Savings –– Electricity Electricity $ 200,000$ 200,000Energy Savings Energy Savings –– GasGas $ 75,000$ 75,000Operational Cost Avoidance (In Sourced O&M)Operational Cost Avoidance (In Sourced O&M) $ 50,000$ 50,000Operational Cost Avoidance (Outsourced O&M)Operational Cost Avoidance (Outsourced O&M) $ 75,000$ 75,000Deferred MaintenanceDeferred Maintenance Cost Avoidance: Cost Avoidance: $ 50,000$ 50,000**To be Benchmarked based onTo be Benchmarked based on ““ASHRAE Equipment LifecyclesASHRAE Equipment Lifecycles””
Total Annual Savings and Cost AvoidanceTotal Annual Savings and Cost Avoidance $ 450,000$ 450,000
Total Annual Sustainability Program Costs Total Annual Sustainability Program Costs $ 250,000$ 250,000
Sustainable Positive Annual Contribution Sustainable Positive Annual Contribution $ 200,000$ 200,000
* Capital and Operational Improvements become an * Capital and Operational Improvements become an ““Associated BenefitAssociated Benefit””
Show Me the Money!!!
Measurement & Verification Credit 5: 1 point
Energy & Atmosphere
www.ashrae.orgwww.bocxa.orgwww.cacx.orgwww.peciwww.eere.energy.govwww.aceee.orgwww.energystar.gov/indexwww.newbuildings.orgwww.energycodes.govwww.advancedbuildings.orgwww.doe2.comwww.iea-shc.orgwww.dsireusa.org
Energy & Atmosphere