Infrared heater webinar - energySMART for trade allies
Transcription
Infrared heater webinar - energySMART for trade allies
Infrared Unit Heater Fundamentals Special guest: Modine Presented by: Shonda Biddle, energySMART Jamie Tuinstra, Modine Manufacturing Company November 13, 2014 Infrared Unit Heaters - Fundamentals • energySMART overview • • Rebates for your infrared unit heaters Rebates and incentives for energy efficiency upgrades • Special Guest: Jamie Tuinstra, Product Manager, Modine Manufacturing Company • • • What are infrared unit heaters? What are ideal applications? How do they save energy? Nicor Gas service area • Nicor Gas serves over 2 million customers in 643 communities. About energySMART How are the programs funded? Residential and commercial Nicor Gas customers, based on consumption energySMART dates energySMART rebates are available through May 31, 2015* or until funds are exhausted. Please Note: Rebate must be submitted within 90 days of installation date or by June 30, 2015, whichever comes first. Rebates available Project Rebate Steam traps commercial (<15 psig) $50 per trap Steam traps industrial/process (≥15 psig) $300 per trap Boiler controls $0.50 per MBH, up to $1,500 Boiler tune-ups $0.40 - $0.50 per MBH up to $1,500 Pipe insulation $4.00 / linear foot – indoor $8.00 / linear foot - outdoor Ozone laundry $25 per pound of washer capacity Pool / spa covers $0.75 - $1.25 per sq. ft. Rebates available Project Rebate Programmable thermostats $50 per unit Condensing boilers (AFUE/TE ≥90%) $500 - $7,500 Non-condensing boilers (AFUE/TE ≥85%) $400 - $2,500 Furnaces (≥92%) $300 - $400 Storage water heaters $150 - $200 Condensing unit heaters $325 Infrared heaters $700 Rebates available – Commercial Food Services Project Rebate Pre-rinse spray valves $50 per unit Fryers $500 - $550 Ovens $400 - $1,400 Conveyor oven $500 – 1,000 per deck Infrared charbroiler $500 Other commercial food service equipment Varies Custom incentive • For natural gas-saving projects not addressed by rebates. • Incentives based on the amount of natural gas (in therms) saved in first year by completing the project. • Maximum incentive per project is $500,000 (cannot exceed 50% of the installed project cost). • Pre-approval required before any work starts Project Savings Incentive Amount 2,500 – 15,000 therms saved / year $0.75 / therm saved > 15,000 therms saved / year $1.00 / therm saved Incentive Cap $500,000 / year Technical assistance Opportunity Assessments Targeted assessment for specific energy saving opportunities Facility Assessments Complete analysis and report of energy-saving opportunities Includes prioritized savings opportunities and incentives available Other technical assistance available Jamie Tuinstra, Modine Manufacturing Company Infrared unit heaters Infrared unit heaters Infrared unit heaters •Basics – What is infrared – Why use infrared •Product features and benefits – High-intensity heaters – Low-intensity heaters •Design & applications Infrared unit heaters Types of heat transfer •Conduction - no motion – Handle on a pan •Convection - currents – Boiling water •Radiation - rays – Campfire Infrared unit heaters What is infrared? • Radiant energy travels in lineof-sight – Heats upon striking object – If not line-of-sight, object won’t be heated • Objects warmed by IR provide heat – Secondary effects • Conduction to other objects • Convection to air Infrared unit heaters Benefits •Quiet/clean – No air movement / blowing of dirt or dust •Low maintenance – Few moving parts •Installation – No ductwork •Excellent for zone or spot heating Infrared unit heaters Benefits • Energy cost reduction – Objects are heated, not the surrounding air – No air mover energy costs – Lower thermostat settings • Quick temperature recovery – Continues to heat objects when doors are open Infrared unit heaters Unit Specifics High intensity infrared Model MHR - Features • • • • • • • • Natural or Propane Gas 30,000 to 200,000 Btu/hr Unvented Operation Direct Spark and Millivolt 1- and 2-Stage Gas Controls Tile temperatures Up To 1850°F 115V or 24V Supply (Except Millivolt) Indoor use only! High intensity infrared Model MHR - Features Polished Aluminum Reflector 16 Gauge Aluminized Steel Frame Full Perimeter Tile Retention Frame Serial Plate Spark Electrode Ceramic Burner Ignition Control & Gas Valve Note: Units must always be installed with controls on the bottom. High intensity infrared Model MHR - Features Burner Assembly Gas Orifices Manifold Spark Electrode Gas Valve Ignition Controller High intensity infrared Model MHR – Unit Mounting • Rigid mounting • 3/8” threaded rods • Where code allows, chain mounting • 0°-30° mounting angle • Manifold at bottom • Utilities not to cross over top 0° to 30° Low intensity infrared Model TLP - Features • • • • • • • • • Pressurized system Natural or propane 50,000 to 200,000 Btu/hr Input Indoor or outdoor Straight or U-tube systems (20-70’) Vented 115 V supply & 24 V controls Service friendly Conversion kits Low intensity infrared Model TLP – Burner Features 20 gauge aluminized steel casing, bakedon polyester powder coat paint 180° Rotate-able Gas Valve Combustion Blower Combustion Airflow Indicator Light Hot Surface Igniter & Flame Sensor Terminal Board Flame Sight Glass Enclosed Burner Compartment Hanging Access Doors Low intensity infrared LOW INTENSITY INFRARED Model TLP – Tube System Features • 16 Ga. darkened aluminized steel* tubes – Improved corrosion resistance for longer life – Heat treated for darkness (better heat transfer) – Doesn’t flake or scratch like painted tubes *For units rated 150,000 Btu/hr and up: – First tube is 16 Ga. Titanium Aluminized Steel (not heat treated) with stainless steel clamps Low intensity infrared Model TLP – Unit Mounting •Chain Mounting Sets with “S” Hooks – 20’ chain (MHR & TLP) – 40’ chain (TLP) Design and application High & low intensity infrared •Applications •Selection •Additional Considerations Design and application •When to use infrared: if impractical/costly to heat large air volumes – Where only people need to be warm – Small section within a large building – Near frequently opened doors – High ceilings Design and application Typical applications Our focus: • Partial building heat • Assembly line • Spot/area heating • Single work cell • Door coverage • Commercial/industrial Not our focus – will not discuss (See 9-200) • Total building heat • Entire space Design and application Typical applications • Aircraft hangars • High ceilings/air changes • Loading docks • Spot heating/open doors • Warehouses • High ceilings/limited occupancy • Manufacturing areas Design and application Typical applications • Fire stations • Open doors/air changes • Automotive service stations • Open doors/air changes • Car washes • Open doors/air changes Design and application Typical applications •Service counters •Outdoor Restaurant Seating •**Big Opportunity** Design and application Typical applications •Airplane hangers Design and application Typical applications •Factories (especially old drafty w/high ceilings) Design and application Typical Applications •Warehouses/cold storage Design and application Typical applications •Service bays Design and application Typical (Mis) applications Design and application Typical misapplication Greenhouses: • Dirt floors • Plants may be intolerant to infrared heat • Lack of uniform heat distribution • Clearance issues to house materials Design and application Typical misapplications Animal shelters/barns: • Animals cannot voice discomfort • May stress animals • Poor production Design and application High & low intensity infrared •Applications •Selection •Additional considerations Design and application Criteria for proper selections Application • Indoor or outdoor? – High intensity is indoor only • Spot heating or partial building area heating – Typical: spot=high intensity, area=low intensity Mounting height • Clearance to combustibles – Typical: more=high intensity, less=low intensity Building layout Design and application Criteria for proper selection •Area of coverage – High Intensity 30° 30° Design and application Criteria for proper selection •Area of coverage – Low intensity Design and application Criteria for proper selection • • • • Understanding tube temperature profile Typically around 1000°F at burner Typically around 350 to 400°F at vent end Radiant output is directly proportional to (∆T)4 Approximate Tube Temp Across Tube System 60 Foot Straight Tube 1000 1000 800 800 °F °F Approximate Tube Temp Across Tube System 30 Foot Straight Tube 600 600 400 400 200 200 0 5 10 15 20 Feet from Burner 25 30 35 0 10 20 30 40 Feet from Burner 50 60 Design and application Selection & layout • • • • Partial building heating Low intensity best suited Mount within recommended mounting height U-tube system recommended: Why? Let’s look at a 60’l assembly line example: Design and application Selection & layout • Using a 60 foot straight tube system: Approximate Tube Temp Across Tube System 60 Foot Straight Tube 1000 800 °F Not a good application 600 400 200 0 10 20 30 40 50 60 Feet from Burner Be prepared for service calls! It’s so nice and warm at work, I could handle cold fish all day. I agree, it’s so nice, I feel productive. It’s so freaking cold over here, that heater above is junk. Design and application Selection & layout • Using (2) – 30 foot straight tube systems: Approximate Tube Temp Across Tube System Qty (2) - 30 Foot Straight Tubes 1000 A fairly good application °F 800 600 400 200 0 10 20 30 40 50 60 Feet from Burner It’s so nice and warm at work, I could handle cold fish all day. It’s not bad, but I wish that heater worked better. I’m really happy my employee cares enough to keep me warm. DESIGN AND APPLICATION Selection & Layout • Using (2) – 60 foot u-tube systems: Approximate Tube Temp Across Tube System Qty (2) - 60 Foot U-Tubes 1000 A very good application °F 800 600 400 200 0 10 20 30 40 50 60 Feet from Burner It’s so nice and warm at work, I could handle cold fish all day. It’s really comfortable in here, I feel so productive. I’m really happy my employee cares enough to keep me warm. DESIGN AND APPLICATION Selection & Layout •Spot heating – High intensity @ 30° mounting angle – Low intensity u-tube @ 45° mounting angle – Typically uses 2 units where practical MHR 30 MHR 60 MHR100 MHR120 MHR160 Design and application Criteria for proper selection • Building layout – – – – – – Lighting Racked/stacked combustible material Clearance to combustibles based on 90°F over ambient Sprinkler heads – watch clearances!!! Overhead cranes Utility location Design and application High & low intensity infrared •Applications •Selection •Additional considerations Design and application Additional considerations • Low-intensity tube system expansion – Systems can expand/contract by 1-6” – Installation must accommodate to avoid alignment issues • Expansion remedies – – – – – Chain-mounting (min. Length per I&S manual) Flexible gas connectors Tighten tube clamps to 50 ft-lb. Overlap reflectors by 4” Every other joint screwed Design and application Additional considerations •Thermostat location – Never in line-of-sight – Can also use simple on/off switch •Multiple unit wiring to one thermostat (9-410) •Contaminated atmospheres – Never for hazardous areas!! •Negative pressure in space – High intensity – Low intensity with outside combustion air Design and application Additional considerations • Indoor vs. Outdoor defined – Outdoor: area ALWAYS exposed to outdoor ambient conditions (i.e. no door to structure) – Indoor: area SOMETIMES or NEVER exposed to outdoor ambient conditions (i.e. opening/closing door) Design and application Additional considerations •Indoor or outdoor? Questions? nicorgasrebates.com 877.886.4239 Shonda Biddle Nicor Gas energySMART Shonda.biddle@clearesult.com 312.607.3978 Jamie Tuinstra Product Manager j.m.tuinstra@na.modine.com 262-636-1850 Thank you! Shonda Biddle Nicor Gas energySMART Shonda.biddle@clearesult.com 312.607.3978 Jamie Tuinstra Product Manager j.m.tuinstra@na.modine.com 262-636-1850.