Thermal Biomass Infrastructure to Economics

INTRO Thermal Biomass Infrastructure to Economics Residential ~ Commercial ~ Institutional Dave Frank of SunWood Biomass

Efficiency Vermont is a Registered Provider with The American Institute of Architects Continuing Education Systems (AIA/CES). Credit(s) earned on completion of this program will be reported to AIA/CES for AIA members. Certificates of Completion for both AIA members and non-aia members are available upon request. This program is registered with AIA/CES for continuing professional education. As such, it does not include content that may be deemed or construed to be an approval or endorsement by the AIA of any material of construction or any method or manner of handling, using, distributing, or dealing in any material or product. Questions related to specific materials, methods, and services will be addressed at the conclusion of this presentation.

Learning Objectives Application of a life cycle cost analysis Understanding efficiencies as they relate to thermal biomass Historical preservation compliance and guide to evaluating Fire & Building code challenges with early adoption of Biomass Sys.

Course Evaluations In order to maintain high-quality learning experiences, please access the evaluation for this course by logging into CES Discovery and clicking on the Course Evaluation link on the left side of the page.

Life Cycle Cost Analysis Town Hall Offices Client (site data) 12,300 Sq/Ft above grade with efficiency retro fit 130,000 btu/hr Pellet Boiler required after running energy modeling Average Annual Fuel Oil Consumption is 13,600. gallons (2012 price $3.61)

250 200 150 100 50 0 Pellet Bulk Pricing vs. Bag Pricing (wholesale) Historic Wood Pellet Prices ($ / ton by region of the US) NE US Bagged Premium Wholesale NE US Bulk Premium Wholesale Quarter and Year US Dollars ($) 1st Quarter 2000 2nd Quarter 2000 3rd Quarter 2000 4th Quarter 2000 1st Quarter 2001 2nd Quarter 2001 3rd Quarter 2001 4th Quarter 2001 1st Quarter 2002 2nd Quarter 2002 3rd Quarter 2002 4th Quarter 2002 1st Quarter 2003 2nd Quarter 2003 3rd Quarter 2003 4th Quarter 2003 1st Quarter 2004 2nd Quarter 2004 3rd Quarter 2004 4th Quarter 2004 1st Quarter 2005 2nd Quarter 2005 3rd Quarter 2005 4th Quarter 2005 1st Quarter 2006 2nd Quarter 2006 3rd Quarter 2006 4th Quarter 2006 1st Quarter 2007 2nd Quarter 2007 3rd Quarter 2007 4th Quarter 2007 1st Quarter 2008 2nd Quarter 2008 3rd Quarter 2008 4th Quarter 2008 1st Quarter 2009 2nd Quarter 2009 3rd Quarter 2009 4th Quarter 2009 1st Quarter 2010 2nd Quarter 2010 Data from the US Energy Information Administration (EIA)

Bulk Delivery Pellet Auger Truck Delivery Systems

Pneumatic Bulk Pellet Delivery. Lyme Green Heat Maine Energy Systems Newton Pellets Sandri Energy Vermont Renewable Fuels

$30.00 $25.00 $20.00 $15.00 $10.00 $5.00 $0.00 Data from the US Energy Information Administration (EIA) 1st Quarter 2000 2nd Quarter 2000 3rd Quarter 2000 4th Quarter 2000 1st Quarter 2001 2nd Quarter 2001 3rd Quarter 2001 4th Quarter 2001 1st Quarter 2002 2nd Quarter 2002 3rd Quarter 2002 4th Quarter 2002 1st Quarter 2003 2nd Quarter 2003 3rd Quarter 2003 4th Quarter 2003 1st Quarter 2004 2nd Quarter 2004 3rd Quarter 2004 4th Quarter 2004 1st Quarter 2005 2nd Quarter 2005 3rd Quarter 2005 4th Quarter 2005 1st Quarter 2006 2nd Quarter 2006 3rd Quarter 2006 4th Quarter 2006 1st Quarter 2007 2nd Quarter 2007 3rd Quarter 2007 4th Quarter 2007 1st Quarter 2008 2nd Quarter 2008 3rd Quarter 2008 4th Quarter 2008 1st Quarter 2009 2nd Quarter 2009 3rd Quarter 2009 4th Quarter 2009 1st Quarter 2010 2nd Quarter 2010 Northeastern Wood Pellet Prices Compared to Average National Fossil Heating Fuel Prices ($ / MMBtu) Residential Heating Oil Residential Propane Natural Gas Wood Pellets, Bagged Premium Wood Pellets, Bulk Standard

Planning for Equipment Cost vs. Value of all Equipment Durability / Quality of components & Warranty Reliability Efficiency Ease of Operator Use Maintenance: frequency & difficulty of regular maintenance Parts & Mfg. Support availability User Experience talk to owner / operators & visit installs

Ultra High Efficiency Pellet Boiler Beyond Computer Control. Must have extensive diagnostic capabilities that is user friendly to all consumers true Triple pass Heat Exchanger Optional Condensing unit O2 Sensor & Temp Sensor Installer Friendly User Friendly Pneumatic Pellet Feed Built for Long Service Life HD Boiler Body Construction HD Motors and Components Drop Feed vs. Under Feed Auto Ignition Extensive Ash Holding Capacity P4 Condensing Unit The Future of Biomass Thermal Equipment 1.Reliability 2.Durability 3.Ease of Use

Pellet / Chip Boiler.5MM to- 1.7MMbtu

Advanced Climate Technologies (cut away)

Fröling FHG High Efficiency Gasification Cord Wood Boiler & Heat Storage types

Pellet Storage Systems

advanced Textile Pellet Bag Interior Storage Systems

Pellet Home Storage Flexibility

East Montpelier FD

VTC - Welcomes Biomass

Suction Trough Systems

Pellet or Chip Boiler in a Small / Micro Scale District Heating Network Shared Capitol Cost makes this more Affordable Legislative action for incentives Education & Successful Site Examples

vontrapp - District Heat

Containerized Pellet or Chip System BioBox 100,000btu to 1.7MM/btu Advanced Climate Technologies Pellet/Chip Boiler

Craftsbury - Driven Community

THANK YOU SunWood Biomass Waitsfield Vermont SunWoodBiomass.com 802-496-6666 Dave Frank Marc DiMario

KD1 Best-in-Class Community-Scale Biomass Systems Case Study Series New Developments in Biomass Thermal Energy: Observations from Upper Austria and Closer to Home Introduction 2012 Better Buildings by Design Conference February 8th, 2012 Burlington, Vermont Adam Sherman, Program Director Biomass Energy Resource Center

Slide 1 KD1 As I will be attending public meeting at Pittesfield, MA, I have deleted my name from the slide. Kamalesh Doshi, 10/12/2010

Best-in-Class Community-Scale Biomass Systems Case Study Series Biomass Energy Resource Center (BERC) Founded in 2001, BERC is a national not-for-profit organization working to promote responsible use of biomass for energy. BERC s mission is to achieve a healthier environment, strengthen local economies, and increase energy security across the United States by developing sustainable biomass systems at the community scale. Introduction BERC partners include communities, colleges and universities, local state and federal governments, businesses, utilities, schools, institutions, other conservation and energy nonprofits, energy offices, and federal organizations.

Best-in-Class Community-Scale Biomass Systems Case Study Series Presentation Overview Fuel availability, quality, and delivery Integration with other renewables Boiler configuration Thermal storage Introduction Emissions controls Containerized units Boiler design

Best-in-Class Community-Scale Biomass Systems Case Study Series Regional Pellet Production and Availability Fuel Supply

Best-in-Class Community-Scale Biomass Systems Case Study Series Traditional Pellet Delivery Fuel Supply

Best-in-Class Community-Scale Biomass Systems Case Study Series Bulk Delivery Advancements Use of pneumatic systems Reduced pellet breakage during delivery!!! Dust control systems for indoor storage bins are essential Fuel Supply On-board scales = accurate measure of every delivery Allows indoor storage for better aesthetics

Best-in-Class Community-Scale Biomass Systems Case Study Series Energy Integration Solar Hot Water Integration Roof top mounted solar hot water panels Typically covers woodchip storage roof Feeds directly in buffer tank storage and integrates with boiler fed hot water

Best-in-Class Community-Scale Biomass Systems Case Study Series Buffer/Accumulator Tanks Large hot water storage Range widely in size (1,000 10,000 gallons per MMBtu/hr of boiler capacity) Vertical alignment and stratified zone management Allows small boiler sizing and reduces boiler run time in idle/pilot mode Applicable from residential to large district heating plants Increasingly packaged with boilers by vendors Thermal Storage www.kwb.at

Best-in-Class Community-Scale Biomass Systems Case Study Series Boiler Configuration Coupled Boilers Typically two parallel boilers (generally 2 nd boiler = +/-½ capacity of 1 st ) Better load management in shoulder months and ability to run boilers at full capacity Results in better efficiency and cleaner emissions Apartment building in Wesenufer, Austria National Life, Montpelier, Vermont District heating plant in Kirchham, Austria Crotched Mountain Rehab Center, Greenfield, New Hampshire

Best-in-Class Community-Scale Biomass Systems Case Study Series Emissions Controls Electro-Static Precipitators Previously only cost-effective at very large scale Now cost-effective in the >3 MMBtu size range Control efficiency of 99% for particulates Far better the control efficiencies than cyclones Lower O&M costs than bag houses Wide spread use in Austria but catching on here in US for woodchip boilers

Best-in-Class Community-Scale Biomass Systems Case Study Series Emissions Controls Condensing Units Capture and heat recovery of water vapor in stack gases Boosts overall thermal efficiency by +/-10% Dramatically lowers fine particulate and VOC emissions Effective for green wood fuel What to do with the water afterwards? District heating plant in Eugendorf, Austria

Best-in-Class Community-Scale Biomass Systems Case Study Series Containerized Units Plug and play design Integrated fuel storage and boiler housing Not just for pellets chips too Considerably lower overall capital costs Can be architecturally blended

Best-in-Class Community-Scale Biomass Systems Case Study Series Boiler Design Boiler Design Features Vertical boiler tubes with continual mechanical cleaning (gravity based) in small boilers Water lined boiler walls (less boiler jacket loss) Longer refractory lined gas routing before heat exchange (longer gas residence time) Preheated primary and secondary air www.hargassner.at www.binder.at

Best-in-Class Community-Scale Biomass Systems Case Study Series What does it all mean? Higher quality fuel = better system performance, lower O&M costs, and lower emissions Buffer/accumulator tanks = more constant boiler loads, lower peak loads allowing smaller boiler sizing Solar thermal integration = lower heat loads allowing smaller boiler sizing and less wood fuel consumption Coupled boilers = better load management and higher efficiencies ESPs and Condensing Units = lower fine particulates and happy neighbors and air quality regulators Containerized systems = lower capital costs and faster paybacks Innovative boiler designs = high thermal efficiencies, cleaner emissions and less maintenance

Best-in-Class Community-Scale Biomass Systems Case Study Series Contact Information Adam Sherman Program Director (802) 223-7770 ext. 128 asherman@biomasscenter.org Biomass Energy Resource Center 43 State Street, Montpelier, VT 05601 www.biomasscenter.org

Best-in-Class Community-Scale Biomass Systems Case Study Series

Best-in-Class Community-Scale Biomass Systems Case Study Series Woodchip Quality Austrian Chip Contractor Aggregated large and small diameter chipwood Truck mounted chipper Passive solar chip drying bunkers Woodchip blower unit with hose discharge Mounted on a roll-off truck Preuner BioEnergie, Frankenburg, Austria

Best-in-Class Community-Scale Biomass Systems Case Study Series New Pneumatic Bulk Pellet Delivery Newton Pellets Vermont Renewable Fuels Fuel Supply Maine Energy Systems Sandri Energy

Best-in-Class Community-Scale Biomass Systems Case Study SeriesRigid V-bottom Hoppers in Fuel Storage Room Auger Delivery Vacuum Delivery

Best-in-Class Community-Scale Biomass Systems Case Study Series