ENERGY AUDIT for the Meadville Market House City of ...256E8AF9-2CF3-4525-A3F2... · Meadville Market House SAIC Audit Report # AU8820 City of Meadville Energy Audit CONFIDENTIAL

ENERGY

AUDIT

for the

Meadville Market House

City of Meadville, PA

Prepared by:

2002 Filmore Ave #5

Erie, Pennsylvania 16506

4 Peuquet Parkway

Tonawanda, New York 14150

www.bcsco.com

February 1, 2011


SAIC Audit Report # AU8820

City of Meadville Energy Audit

ENERGY AUDIT

for the


City of Meadville, PA

TABLE OF CONTENTS

Site Overview....................................................................................................................................... Section 1

Current Energy Summary .................................................................................................................... Section 2

Potential Energy Conservation Measures ........................................................................................... Section 3

Cost/Benefit Section............................................................................................................................. Section 4




**CONFIDENTIAL**

SECTION 1

SITE OVERVIEW

Market House: The Market House was originally built in 1870 as a single story building, with a second floor added in the early 1900’s, and a

renovation of the building in the 1970’s. The first floor is partitioned; one side is a market, while the other is a restaurant.

The second floor is divided into several rooms including a dance studio, theatre, and art gallery.

HVAC

The first floor of the Market House consisting of the restaurant and store is heated through a hydronic heating system. Hot

water is supplied through a gas fired boiler and circulated through overhead ¾” copper piping by a 1/12 HP pump. The hot

water is pumped through fan coil units located in each of the four corners of the market (only 3 were working) and one fan

coil unit supplying heat to the restaurant area. The top floors of the Market House building receive heat through a furnace

and small electric Reznor. The market house is cooled in the summertime by conventional air conditioning. The fan coil units

located in the store and restaurant use air cooled condensing units to provide the cooling. Fresh air ventilation is provided

mainly by perimeter and crack infiltration. The existing fan-coil units are not set up to supply fresh outside air to the space.

Lighting

The first floor of the market is predominantly illuminated by 400W standard quartz metal halide lamp and in-efficient

magnetic ballasts. The fixtures do provide a nice amount of indirect lighting but it is clear that the color and light quality has

degraded over time. The second floor primarily uses T12 fluorescent lamps and magnetic ballasts. Other sources of light for

the upstairs art gallery and main hallway include 75W and 90W halogen spotlights.

Domestic Hot Water

Domestic hot water is used sparingly at the market house and is primarily used for the kitchen and hand washing. Three

standard efficiency, natural gas, hot water heaters supply the domestic hot water to the entire facility.

Building Envelope

The building has very old masonry construction with large single pane windows on the first floor. The windows have been

retrofitted with Plexiglas sheets to reduce cold air drafts and to decrease their heat loss. The frame and molding of the

windows is where the majority of the heat loss appears to be occurring on the first floor. Several exterior doors also leak

significant energy due to poor perimeter seals and lack of weather stripping. The attic has loose fill insulation which varies

from 6” to 16” in depth.




**CONFIDENTIAL**

SECTION 2

CURRENT ENERGY SUMMARY

The current energy summary for the Meadville Market House includes one electric meter and three natural gas meters.

Electricity for the market is purchased and delivered to them through Penelec. Natural Gas is distributed and supplied to the

market through National Fuel.

In addition to the following summary table and cost analysis, charts are included that summarize consumption patterns and

trends as they vary annually and seasonally. These trends include a plot of Natural Gas consumption versus the Heating

Degree Days of the local climate.

The utility table below summarizes one year of current energy bills.

Meadville Market House: SUMMARY of UTILITY DATA

Electricity 2009-2010

Acct # 10004113667

Consumption KWH 146,994

KWH Cost $ $10,375

Blended Rate $/KWH $0.09

KW Cost $ $2,592

Highest Demand (KW) 51.40

Total Cost $ $12,966

Natural Gas 2009-2010

Acct # 6503608

Consumption CCF 150

Blended Rate $/CCF $2.60

Supply Charge $ $109.47

Delivery Charge $ $280.36

Total Cost $ $390

Acct # 6503313 02

Consumption CCF 3,648


Supply Charge $ $2,626.65


Total Cost $ $3,314

Restaurant Gas

Consumption CCF 2,155


Supply Charge $ $1,565.36


Total Cost $ $2,171

TOTAL 2009-2010

Energy Cost $ $18,841




**CONFIDENTIAL**

Meadville Market House Annual Cost Summary

$12,966

69%

$5,874

31%

Meadvil le Market House Electric $ Meadvil le Market House Gas $

The following charts were generated to analyze the utility tabulation:

• Electric Consumption and Demand Chart

• Natural Gas Consumption Chart

• Natural Gas Consumption vs Heating Degree Days

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**CONFIDENTIAL**

SECTION 3

POTENTIAL ENERGY CONSERVATION MEASURES

The Meadville City Market House is a historical structure, thus our proposed ECMs were specifically chosen to obtain the best

results without modifying its construction. Our in depth study of the building and its energy using systems has enabled us to

determine the exact upgrades and savings possible, which is presented in the list below.

Energy Conservation Measures:

ECM 1

Water Conservation

Currently the City Market House has 3 bathrooms in the facility. One bathroom located on the first floor and two located on

the second floor. In addition, the restaurant also uses water with sinks and dishwashing. These plumbing fixtures are

equipped with standard flow flush valves and normal flow faucet aerators. BCS proposes to install low flow aerators on sinks

and faucets to reduce not only water consumption but to save on natural gas used to heat the hot water. Implementing low

flow flush valves on the toilets will help to save on annual water and sewer costs. The kitchen sinks were not used in

determining savings due to the nature of the water usage in kitchens. Please refer to the water conservation survey table

show below:

Before Upgrades

Yearly Use

Toilets No. Use Rate Frequency Days (Kgal.)

3.5 gpf Tank Top Toilet 3 3.50 8 Flush/Day 365 31

Sink & Faucets No. Use Rate Frequency Days

Bathroom Sinks 3 2.20 4 Mins/Day 365 10

After Water Upgrades Savings

Yearly Use Water Water

Toilets No. Use Rate Frequency Days (Kgal.) (Kgal.) (Dollars)

1.0 gpf Tank Top Toilet 3 1.00 8 Flush/Day 365 9 22 $ 77

Sink & Faucets No. Use Rate Frequency Days

0.5 Gpm Aerator 3 0.50 5 Mins/Day 365 3 7 $ 24

Annual Savings @ $3.50 per KGAL $ 101

IA P M O

FO

U N D E D 1 9 2 6

U P C

F e a t u r e s• Stylish Contemporary Design

• 1.0 Gpf – 3.8 Lpf

• Two-inch Fully Glazed Trapway

• 12" rough-in

• Large Water Surface Area

• High Efficiency, Pressure-Assist Flushmate IV™Flushing Technology

• Outstanding Protection - The Mansfield® LimitedLifetime Warranty

• Available in White and Standard Colors(Consult Price Book for Specific Colors)

• Model 45 Left Hand, Chrome Plated Metal Trip LeverModel 49 Right Hand, Chrome Plated Metal Trip LeverModel 47 Chrome Plated Plastic Push Button Actuator(Consult Price Book for Additional Finishes)

• Upgrade with a Color-Matched SmartClose™ or Primo™ Toilet Seat

QuantumOneElongated Front, Pressure-Assist,Vitreous China, Two-Piece Toilet

Model 147-153Shown in White withSB1200 Primo™ Toilet Seat

M o d e l N u m b e r s

Order No. Description Net Wt.

147-153 Elongated front (1.0 Gpf/3.8 Lpf) two-piece, 93 lbs. (42 kg)pressure-assist toilet. 12” rough-in. Includestank trim and chrome plated metal trip lever.Less toilet seat and supply. Specify color.

147 Elongated front toilet bowl only. 12” rough-in. 51 lbs. (23 kg)Less toilet seat. Specify color.

153 Pressure-assist tank and cover only with left 42 lbs. (19 kg)hand, chrome plated metal trip lever.Less supply. Specify color.

153RH Same as model 153, except with right hand 42 lbs. (19 kg)trip lever.

154 Same as model 153, except with chrome 42 lbs. (19 kg)plated plastic push button actuator.

SB1175 Elongated, SmartClose™ toilet seat. 5.5 lbs. (2 kg)

SB1200 Elongated, Primo™ toilet seat. 5.5 lbs. (2 kg)

Model 154 TankShown with Model 47Push Button Actuator

Model 153RH TankShown with Model 49Right Hand Trip Lever

HIGH EFFICIENCY TOILET

®

QuantumOneElongated Front, Pressure-Assist,Vitreous China, Two-Piece Toilet

T e c h n i c a l I n f o r m a t i o n

Specifications

Material Vitreous China

Water Pressure Range 20 to 125 P.S.I.

Flush System Flushmate IV™ FlushingTechnology

Water Usage 1.0 Gpf/3.8 Lpf

Water Surface Area 9-7/8"x 12-1/4"

Trap Diameter 2"

Trap Seal 2-3/4"

Rough-In 12"

Shipping Dimensions Model 14729-1/4" x 15-3/4" x 15"(743 mm x 400 mm x 381 mm)Model 153/153RH/15421" x 11-3/8" x 17-3/4"(533 mm x 289 mm x 451 mm)

Shipping Weight Model 147 - 53.0 lbs. (24 kg)Model 153/153RH/15446.0 lbs. (21 kg)

Warranty Vitreous China - Limited LifetimeTank Trim & Vessel - LimitedOne Year

These dimensions are nominal and are subject to changewithout prior notice.

Fixture performance and specifications meet or exceed,ANSI/ASME A112.19.2M standards and CAN/CSA B 45standard, and other state and local codes. NOTE: Rough-in measurements may vary 1/4" (6.4 mm +-).

Toilet Trip Levers 45 and 49

Solid, durable front mount trip levers add attractivestyling to this toilet. Trip Lever 49 is the right handversion, used on Model 153RH tank. Both trip leversare available in the following finishes: Chrome Plated(CH) and Polished Brass (PB). Trip Lever 45 alsoavailable in Brushed Chrome (BC), Satin Nickel (SN)and Sicilian Bronze (SB) finishes.

Sloan Flushmate IV™ Vessel

The Sloan Flushmate IV™ pressure-assist vesselflushes on 1.0 gallons and 3.8 liters per flush. Thepressurized flushing action is second to none.Superior performance over conventional two-piece,gravity flush toilets.

F e a t u r e s a n d U p g r a d e s

Add a Toilet Seat

With a simple touch, Mansfield’s newest SmartClose™

toilet seat closes gently and quietly. Or upgrade yourtoilet with a popular Primo™ toilet seat. Made ofdurable, high impact, heavy-duty plastic. For allapplications - Get More, Get Mansfield®.

Push Button Actuator 47

Solid, durable, top mount, push button actuator addsfunctionality to this toilet. Push button actuator 47 isavailable in the following finishes: Polished Chrome(CH) and Polished Brass (PB).

HIGH EFFICIENCY TOILET

See our complete line of acrylic, vitreous china, cast iron and enameled steelbathroom and kitchen fixtures, plastic tank trim and plumbing products.

Mansfield® Plumbing Products LLC • Sales Services Toll Free 877-850-3060 • Fax 419-938-6234Website: www.mansfieldplumbing.com • Email: [email protected]

Form No. M147153 Printed in U.S.A. 8/04© 2004 Mansfield Plumbing Products LLC

Fini

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Finished Wall

3/8" (10 mm) N.P.S. Supply

9-1/4"(235 mm)

1/2"(13 mm)

5-1/2"(140 mm)

Typ.

31"(787 mm)

18-3/4"(476 mm)

13-1/4"(337 mm)

14-1/2"(368 mm)

10-3/8"(264 mm)

19"(483 mm)

18-7/8"(479 mm)

9-1/2"(241mm)

4-1/2"(114 mm)

28"(711 mm)

14 1/2"(368 mm)

12"(305 mm)

8"(203 mm)

Typ.

6"(152 mm)

Typ.




**CONFIDENTIAL**

ECM 2

Lighting Upgrades

General space illumination on the first floor of the market building is done through 400W standard quartz metal halide with

in-efficient magnetic ballasts. The fixtures are a low bay fixture with a high percentage of up lighting which provides an even

distribution of light. Adding new fixtures would increase costs and may reduce the ambience of the existing lighting. BCS

proposes to use the existing fixtures and retrofit new ceramic metal halide and electronic ballasts. The new lamps will provide

superior color rendering and light quality perfect for a retail application. The electronic ballasts operate the lamps more

efficiently than their magnetic counterparts, thereby increasing the maintained lumens and greatly improving the lamp life.

The market house also uses a good percentage of standard T12 fluorescent fixtures. These lamps are also powered by

inefficient magnetic ballasts and could use upgrading. Upgrading these fixtures with new low wattage T8 lamps and high

efficiency electronic ballasts will provide annual energy savings with out reducing the light quality in the space. Finally,

incandescent lamps and halogen spot lights that are used in the art gallery should be replaced with high efficiency compact

fluorescent lamps which provide superior light output at a longer life than their counterparts.

Please refer to the attached lighting survey for lighting inventories and energy savings.

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2010, November 3data subject to change

Lamp DescriptionMasterColor® CDM ED17 Protected

Range of protected, high-efficiency long life ceramic metalhalide lamps with a stable color over lifetime and a crisp,sparkling light to be used in open fixtures.

Benefits• Environmentally ResponsibleTCLP* CompliantALTO®

LampTechnology.• High lamp efficacy (up to 95 LPW)• Energy-efficient alternative to incandescent/halogen.

Features• Excellent Color Rendering.• Superior Color Stability Over Life.• Total Cost of Ownership Benefits.• FadeBlock–Lamps feature integrated UV blocking medium for

reduced fading of fabrics and paintings.• Available in 50,70,100, and 150 watt with 3000& 4000K color

temperatures.

Application• Ideal for general lighting, downlighting, and flood lighting.

Related products

Dimensional drawing

D

C

Compare table

Productnumber

Full product name Bulb BulbMaterial

BulbFinish

Base Oper-atingPosition

MainApplica-tion

ColorCode

ColorDesignation

Watts LampCurrent

134635 MasterColor CDM 150W/830 MedED17P CL ALTO+FB

ED17P Hard Glass Clear Medium Universal General Lighting 830 Warm White 150 1.8

134643 MasterColor CDM 150W/830 MedED17P CO ALTO+FB

ED17P Hard Glass Coated Medium Universal General Lighting 830 Warm White 150 1.8


ED17P Hard Glass Clear Medium Universal General Lighting 940 Deluxe CoolWhite

150 1.8


ED17P Hard Glass Coated Medium Universal General Lighting 940 Deluxe CoolWhite

150 1.8

233668 MasterColor CDM 70W/830 Med ED17PCL ALTO+FB


233676 MasterColor CDM 70W/830 Med ED17PCO ALTO+FB




70 0.8

360594 MasterColor CDM 70W/940 Med ED17PCO ALTO+FB


70 0.8





50 0.59







100 1.1



100 1.1

Compare table

MasterColor® CDM ED17 Protected 2


NPARR

Rectangle

Compare table

Productnumber

Full productname

InitialLumens

LampVoltage

Chroma-ticityCoordi-nate X

Chroma-ticityCoordi-nate Y

ColorRenderingIndex

RatedAv-gLife(SeeFamilyNotes)

LumenMainte-nance2000h

LumenMainte-nance5000h

Cap-BaseTemper-ature

BulbTemper-ature

134635 MasterColor CDM150W/830 MedED17P CL ALTO+FB

12900 95 440 400 85 16000 82 73 190 400

134643 MasterColor CDM150W/830 MedED17P CO ALTO+FB

11900 95 433 398 85 16000 86 79 190 400


12000 95 383 376 92 (min), 92(nom)

20000 90 78 190 400


11000 95 386 377 90 (min), 92(nom)

20000 88 78 190 400


5900 100 .419 (min), .428(nom), .437(max)

.392 (min), .398(nom), .404(max)

80 (min), 85(nom)

16000 81 74 190 400


5400 100 .421 (min), .430(nom), .439(max)

.394 (min), .400(nom), .406(max)

80 (min), 85(nom)

16000 81 74 190 400


5600 100 371 (min), 380(nom), 389(max)

369 (min), 375(nom), 381(max)

92 20000 83 73 190 400


5100 100 376 (min), 385(nom), 394(max)

369 (min), 375(nom), 381(max)

92 20000 84 74 190 400


4000 100 431 (min), 440(nom), 449(max)

394 (min), 400(nom), 406(max)

85 10000 73 67 190 400


3600 100 377 (min), 386(nom), 395(max)

369 (min), 375(nom), 401(max)

88 (min), 92(nom)

20000 78 69 190 400


8600 101 .421 (min), .430(nom), .439(max)

.386 (min), .392(nom), .398(max)

80 (min), 85(nom)

16000 86 79 190 400


7900 101 .421 (min), .430(nom), .439(max)

.386 (min), .392(nom), .398(max)

80 (min), 85(nom)

16000 87 78 190 400


8200 104 367 (min), 376(nom), 385(max)

361 (min), 367(nom), 373(max)

92 20000 90 81 190 400


7500 104 372 (min), 381(nom), 390(max)

369 (min), 375(nom), 381(max)

92 20000 91 81 190 400

Compare table



Compare table

Productnumber

Fullproductname

Lumi-nousEffi-cacyLamp

ColorTemper-ature

DesignMeanLumens

Mercury(Hg)Content

Pico-gramperLumenHour

134635 MasterColorCDM 150W/830 MedED17P CLALTO+FB

86 3000 9545 14.2 -

134643 MasterColorCDM 150W/830 MedED17P COALTO+FB

79.3 3000 8805 14.2 -


80 4000 9000 11.4 -


72 4000 8250 11.4 -


84 3000 4365 5.0 71.6


74.3 3000 3995 5.0 -


80 4000 4060 7.8 102.4


73 4000 3640 7.8 -


76 3000 2680 5.6 -


72 4000 2450 5.8 -

233684 MasterColorCDM 100W/830 Med

86 3000 6450 5.8 -

Compare table Compare table

Productnumber

Fullproductname

Lumi-nousEffi-cacyLamp

ColorTemper-ature

DesignMeanLumens

Mercury(Hg)Content

Pico-gramperLumenHour

ED17P CLALTO+FB


79 3000 5925 5.8 -


82 4000 6150 5.9 -


75 3900 5625 5.9 -


© 2010 Koninklijke Philips Electronics N.V.All rights reserved.

Specifications are subject to change without notice. Trademarks are the property of KoninklijkePhilips Electronics N.V. or their respective owners.

www.philips.com/lighting


2010, August 29data subject to change

Ceramic arc tubetechnology foroutstanding colorperformanceMasterColor® CDM ED28 Protected

Philips MasterColor Protected Pulse Start Ceramic MetalHalide lamps offer a range of protected high-efficiency longlife medium wattage lamps with a stable lumenmaintenance over lifetime and provides crisp, sparkling light.

Benefits• Sustainable lighting solution - ALTO Lamp Technology means low

mercury.• Excellent color rendering of 90 CRI.• No shut-off required.

Features• Higher lumen maintenance—Improved lumen maintenance increases

time between re-lamping.• Superior color stability over life: within ±200K for consistent look

and feel of the space.• Operates on metal halide pulse start ballasts.• Patented coil design offers protection for open fixture rating.• 250,320 Watt versions.

Application• Ideal for use in high-ceiling retail, distribution center or industrial

applications.

Related products

ED 23 1/2 CL 70W

ED 23 1/2 CL 150W

Compare table

Product number Full product name132910 MasterColor CDM 320W/942 PS ED28 CL V ALTO

145986 MasterColor CDM 400W/942 PS ED28 CL V ALTO

205831 MasterColor CDM 250W PS ED28 V ALTO

211144 MasterColor CDM 70W PS ED23 1/2 ALTO

211177 MasterColor CDM 150W PS ED23 1/2 ALTO 1SL

132563 MasterColor CDM 320W/942 PS ED28 CO V ALTO

205849 MasterColor CDM 250W PS ED28 V ALTO®

Compare table


© 2010 Koninklijke Philips Electronics N.V.All rights reserved.

Specifications are subject to change without notice. Trademarks are the property of KoninklijkePhilips Electronics N.V. or their respective owners.

www.philips.com/lighting

2010, August 29data subject to change

Philips T8 Fluorescent Lamps featuring ALTO II™ Technology 9

1) Based on wattage savings (7W) x rated average life (40,000 hours) x kWh rate ($ .10) ÷1000.


3) Starting voltage should be equal to or greater than 550V.These lamps are not recommendedfor use where the temperature in fixture is below 70ºF. Striations may occur where airmovement is present in fixture. For best operation, use ballast with anti-striation circuitry.

4) When compared to an industry standard T8 32W 4' lamp with 24,000 hours rated averagelife (12 hours per start on an instant start ballast), with 2800 lumens and 75 CRI.

5) Average life under specified test conditions with lamps turned off and restarted no morefrequently than once every 3 operating hours. Lamp life is appreciably longer if lamps arestarted less frequently.

6) Average life under engineering data with lamps turned off and restarted once every12 operating hours.

0 10,000 20,000 30,000 40,000 50,0000 10,000 20,000 30,000 40,000 50,000

Rated Average Life in HoursRated Average Life in Hours

BASED ON 3 HOURS PER START5

BASED ON 12 HOURS PER START6

Instant Start Ballast Programmed Start Ballast

36,000

40,000

40,000

46,000

Energy savings,extra long life,extra low mercuryPhilips Energy Advantage T8 25W and28W Extra Long Life lamps offer increasedenergy savings, are environmentallyresponsible and have extra long life.

Ideal for applications where energy savings and longer relampcycles would be beneficial

Outstanding energy savings• Save 4–7 watts per lamp instantly when compared

to a T8 32W lamp• Save $28 in energy costs over the rated average life

of the lamp1 with a 25W XLL lamp• Save $16 in energy costs over the rated average life

of the lamp2 with a 28W XLL lamp• Operates on any Instant Start and Programmed

Start Ballast3

• Dimmable• 97% lumen maintenance

Extra long life• Significantly reduce maintenance and recycling costs by

extending the relamping cycle• Up to 67% longer life than an industry standard T8 lamp4

• Warranty period: 48 months

Better for the environment• Only 1.7mg of mercury with ALTO II™ Technology• Reduced impact on the environment without

sacrificing performance

Rated Average LifePhilips Energy Advantage T8 XLL Lamps

See page 11 for ordering information.

* Fluorescent lamps that are TCLP compliant reduce theamount of pollutants released into the environment.

TCLPCOMPLIANT

*

10 Philips T8 Fluorescent Lamps featuring ALTO II™ Technology

Ordering, Electrical, andTechnical Data

* Fluorescent lamps that are TCLP compliant reduce theamount of pollutants released into the environment.

TCLPCOMPLIANT

*

Color Nom. RatedAverage Life (Hrs.)1 Approx.Product Ordering Pack. Temp. Length 12-hr on 12-hr on Initial Design LumenNumber Code Watts Qty. (Kelvin) (In.) Ins. Start Prog. Start Lumens2 Lumens3 CRI Maint.PhilipsT8 Lamps featuring ALTO II™Technology36791-2 F17T8/TL835/ALTO 17 25 3500 24 30,000 36,000 1400 1330 85 95%36793-8 F17T8/TL841/ALTO 17 25 4100 24 30,000 36,000 1400 1330 85 95%14123-4 F17T8/TL850/ALTO 17 25 5000 24 30,000 36,000 1325 1260 82 95%36814-2 F25T8/TL835/ALTO 25 25 3500 36 30,000 36,000 2225 2115 85 95%36825-8 F25T8/TL841/ALTO 25 25 4100 36 30,000 36,000 2225 2115 85 95%14124-2 F25T8/TL850/ALTO 25 25 5000 36 30,000 36,000 2150 2040 82 95%24667-8 F32T8/TL830/ALTO 32 25 3000 48 30,000 36,000 2950 2800 85 95%24670-2 F32T8/TL835/ALTO 32 25 3500 48 30,000 36,000 2950 2800 85 95%24671-0 F32T8/TL841/ALTO 32 25 4100 48 30,000 36,000 2950 2800 85 95%27229-4 F32T8/TL850/ALTO 32 25 5000 48 30,000 36,000 2850 2710 82 95%27252-6 F32T8/TL730 ALTO 32 25 3000 48 30,000 36,000 2800 2660 78 95%27249-2 F32T8/TL735/ALTO 32 25 3500 48 30,000 36,000 2800 2660 78 95%27248-4 F32T8/TL741/ALTO 32 25 4100 48 30,000 36,000 2800 2660 78 95%38351-3 F32T8/TL741/ALTO 32 10 4100 48 30,000 36,000 2800 2660 78 95%27268-2 F32T8/TL750/ALTO 32 25 5000 48 30,000 36,000 2700 2565 78 95%Philips PLUST8 Lamps featuring ALTO II™Technology14552-4 F17T8/TL830/PLUS/ALTO 17 25 3000 24 36,000 42,000 1400 1330 85 95%14553-2 F17T8/TL835/PLUS/ALTO 17 25 3500 24 36,000 42,000 1400 1330 85 95%14554-0 F17T8/TL841/PLUS/ALTO 17 25 4100 24 36,000 42,000 1400 1330 85 95%14555-7 F17T8/TL850/PLUS/ALTO 17 25 5000 24 36,000 42,000 1300 1235 82 95%38215-0 F17T8/TL865/PLUS/ALTO 17 25 6500 24 36,000 42,000 1275 1210 85 95%14556-5 F25T8/TL830/PLUS/ALTO 25 25 3000 36 36,000 42,000 2225 2115 85 95%14557-3 F25T8/TL835/PLUS/ALTO 25 25 3500 36 36,000 42,000 2225 2115 85 95%14558-1 F25T8/TL841/PLUS/ALTO 25 25 4100 36 36,000 42,000 2225 2115 85 95%14559-9 F25T8/TL850/PLUS/ALTO 25 25 5000 36 36,000 42,000 2150 2040 82 95%38258-0 F25T8/TL865/PLUS/ALTO 25 25 6500 36 36,000 42,000 2125 2020 85 95%36000-8 F32T8/TL830/PLUS/ALTO 32 25 3000 48 36,000 42,000 2950 2800 85 95%36001-6 F32T8/TL835/PLUS/ALTO 32 25 3500 48 36,000 42,000 2950 2800 85 95%36002-4 F32T8/TL841/PLUS/ALTO 32 25 4100 48 36,000 42,000 2950 2800 85 95%36003-2 F32T8/TL850/PLUS/ALTO 32 25 5000 48 36,000 42,000 2850 2710 82 95%38261-4 F32T8/TL865/PLUS/ALTO 32 25 6500 48 36,000 42,000 2750 2610 85 95%36004-0 F32T8/TL730/PLUS/ALTO 32 25 3000 48 36,000 42,000 2800 2660 78 95%36005-7 F32T8/TL735/PLUS/ALTO 32 25 3500 48 36,000 42,000 2800 2660 78 95%36013-1 F32T8/TL741/PLUS/ALTO 32 25 4100 48 36,000 42,000 2800 2660 78 95%36014-9 F32T8/TL750/PLUS/ALTO 32 25 5000 48 36,000 42,000 2700 2565 78 95%Philips AdvantageT8 Lamps featuring ALTO II™Technology20483-4 F17T8/ADV830/ALTO 17 25 3000 24 30,000 36,000 1500 1450 85 97%20484-2 F17T8/ADV835/ALTO 17 25 3500 24 30,000 36,000 1500 1450 85 97%20485-9 F17T8/ADV841/ALTO 17 25 4100 24 30,000 36,000 1500 1450 85 97%20487-5 F17T8/ADV850/ALTO 17 25 5000 24 30,000 36,000 1425 1380 82 97%20488-3 F25T8/ADV830/ALTO 25 25 3000 36 30,000 36,000 2380 2300 85 97%20490-9 F25T8/ADV835/ALTO 25 25 3500 36 30,000 36,000 2380 2300 85 97%20495-8 F25T8/ADV841/ALTO 25 25 4100 36 30,000 36,000 2380 2300 85 97%20498-2 F25T8/ADV850/ALTO 25 25 5000 36 30,000 36,000 2275 2210 82 97%13987-3 F32T8/ADV830/ALTO 32 25 3000 48 30,000 36,000 3100 3000 85 97%13988-1 F32T8/ADV835/ALTO 32 25 3500 48 30,000 36,000 3100 3000 85 97%13989-9 F32T8/ADV841/ALTO 32 25 4100 48 30,000 36,000 3100 3000 85 97%13990-7 F32T8/ADV850/ALTO 32 25 5000 48 30,000 36,000 3025 2875 82 97%

1) Average life under engineering data on programmed start ballast with lamps turned off and restarted once every 12 operating hours.

2) Approximate initial lumens.The lamp lumen output is based upon lamp performance after 100 hours of operating life, when the output is measured during operationon a reference ballast under standard laboratory conditions. For expected lamp lumen output, commercial ballast manufacturers can advise the appropriate ballastfactor for each of their ballasts when they are informed of the designated lamp.The ballast factor is a multiplier applied to the designated lamp lumen output.

3) Design lumens are the approximate lamp lumen output at 40% of the lamp’s rated average life.This output is based upon measurements obtained during lampoperation on a reference ballast under standard laboratory conditions. Design lumens rated at 3 hours per start on Instant Start ballast.

4) Industry standard T8 32W 4' lamp with 24,000 hour rated average life (12 hours per start on instant start ballast), with 2800 lumens and 75 CRI.

5) 36,000 rated average life compared to industry standard 24,000 rated average life.

6) 40,000 rated average life compared to industry standard 24,000 rated average life.



Philips T8 Fluorescent Lamps featuring ALTO II™ Technology 11

Upgrade from a Standard 32WT8 4'4 for:

LONGER LIFE

ENERGY SAVINGS

LUMENPERFORMANCE

Philips PLUS T8 Lamp:50% Longer Life5

Philips Energy Advantage T8 Lamp:Save $25 in Energy Costs7

Philips Advantage T8 Lamp:10% More Lumens

Philips T8 Extra Long Life Lamp:67% Longer Life6

Philips Energy Advantage T825W Extra Long Life Lamp:Save $28 in Energy Costs8 and67% Longer Life6

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Color Nom. RatedAverage Life (Hrs.)1 Approx.Product Ordering Pack. Temp. Length 12-hr on 12-hr on Initial Design LumenNumber Code Watts Qty. (Kelvin) (In.) Ins. Start Prog. Start Lumens2 Lumens3 CRI Maint.Philips Energy AdvantageT8 Lamps featuring ALTO II™Technology13781-0 F32T8/ADV830/XEW/ALTO 25 25 3000 48 36,000 42,000 2500 2425 85 97%13782-8 F32T8/ADV835/XEW/ALTO 25 25 3500 48 36,000 42,000 2500 2425 85 97%13783-6 F32T8/ADV841/XEW/ALTO 25 25 4100 48 36,000 42,000 2500 2425 85 97%13784-4 F32T8/ADV850/XEW/ALTO 25 25 5000 48 36,000 42,000 2400 2330 82 97%14732-2 F32T8/ADV830/EW/ALTO 28 25 3000 48 36,000 42,000 2725 2645 85 97%14733-0 F32T8/ADV835/EW/ALTO 28 25 3500 48 36,000 42,000 2725 2645 85 97%14734-8 F32T8/ADV841/EW/ALTO 28 25 4100 48 36,000 42,000 2725 2645 85 97%14735-5 F32T8/ADV850/EW/ALTO 28 25 5000 48 36,000 42,000 2675 2595 82 97%PhilipsT8 32W Extra Long Life Lamps featuring ALTO II™Technology15202-5 F32T8/TL830/XLL/ALTO 32 25 3000 48 40,000 46,000 2950 2800 85 95%15203-3 F32T8/TL835/XLL/ALTO 32 25 3500 48 40,000 46,000 2950 2800 85 95%15204-1 F32T8/TL841/XLL/ALTO 32 25 4100 48 40,000 46,000 2950 2800 85 95%15205-8 F32T8/TL850/XLL/ALTO 32 25 5000 48 40,000 46,000 2850 2700 82 95%Philips Energy AdvantageT8 25W Extra Long Life Lamps featuring ALTO II™Technology15206-6 F32T8/ADV830/XLL/ALTO 25W 25 25 3000 48 40,000 46,000 2400 2330 85 97%15207-4 F32T8/ADV835/XLL/ALTO 25W 25 25 3500 48 40,000 46,000 2400 2330 85 97%15208-2 F32T8/ADV841/XLL/ALTO 25W 25 25 4100 48 40,000 46,000 2400 2330 85 97%15209-0 F32T8/ADV850/XLL/ALTO 25W 25 25 5000 48 40,000 46,000 2350 2280 82 97%Philips Energy AdvantageT8 28W Extra Long Life Lamps featuring ALTO II™Technology23454-2 F32T8/ADV830/XLL/ALTO 28W 28 25 3000 48 40,000 46,000 2675 2595 85 97%23726-3 F32T8/ADV835/XLL/ALTO 28W 28 25 3500 48 40,000 46,000 2675 2595 85 97%16933-4 F32T8/ADV841/XLL/ALTO 28W 28 25 4100 48 40,000 46,000 2675 2595 85 97%16938-3 F32T8/ADV850/XLL/ALTO 28W 28 25 5000 48 40,000 46,000 2625 2545 85 97%

NPARR

Rectangle

eHID

Universal Lighting Technologies is a subsidiary ofPanasonic Electric Works Co., Ltd., a member of the Panasonic Group

Experience significant energy savings and increased lumen output vs. halogen lamps with ElectronicHigh Intensity Discharge (HID) ballasts from Universal Lighting Technologies. Vossloh-Schwabe (VS), alsoa Panasonic Lighting Company, recently merged its US operation into Universal. This merger combinesVossloh’s market leading high quality electronic HID product line with Universal’s extensive offering.

There are numerous advantages of using VS electronic HID ballasts. Operating HID lamps used in HIDlighting systems with electronic ballasts greatly increases system efficiency in comparison with magnetic

ballasts. These ballasts are designed to provide optimal lamp performance and maximum energy savings. With enhanced capabilities to downsize the form factor of luminaire housings and reduce wiring costs, VS electron-ic HID ballasts lead the way to electronic solutions for HID lighting. Micro-processor controlled intelligence offers superior lamp performance and the flexibility for proprietary value-added functions. VS electronic HID ballasts cover your HID needs with products for Metal Halide Lamps ranging from 20 Watts to 250 Watts.

VS electronic HID ballasts continuously monitors lamp characteristicsduring operation and adjusts the lamp current to optimize performance. This guarantees controlled operation in all modes of operation. The lamp color temperature is also stabilized by using VS electronic HID ballastsdue to its relatively constant output power characteristics in addition to

producing flicker free lighting that usually occurs at the end of the discharge lamp’s service life. The technology enhancements of VS electronic HID ballasts, allowing very small form factors and light weight designs, has enabled new, innovative luminaire designs.

ELECTRO

NIC H

ID

Less energy. Enhanced performances.

PAGE 6-2 FOR MORE INFORMATION CALL

1-800-BALLAST(225-5278)

Micro Series: The introduction of the smallest eHID ballasts in the market wascoordinated with the launch of the new miniaturized capsule MH lampsenabling the ultimate luminaire design flexibility. Extremely compactand aesthetically pleasing, luminaire designs are approachingthe form factor and size of low voltage halogen systems.

Mini Ballast Series: Two ideal form factors that are usedin millions of HID track light luminaires characterize the mini series of eHID ballasts. The mini-slim and mini-square units revolutionized track lighting by allowing significantly smaller and greatervariety of luminaire designs while providingenergy savings of 60-70%versus halogen systems.

Standard Case “Valued-added Series”: Millions of recessed, track-head and specialty luminaires have used the de facto industry standard enclosure since introduction. The significant energy savings and enhanced reliability of our ballasts promoted the rapid escalation of electronically ballasted MH luminaires for almost 15 years. Techno-logical advancements have now allowed the integration of multiple, value-added functions such as: a powersource for the self-heating thermal protectors, an electronic 277V step-down transformer, and an intelligent auxiliary lighting control for back-up lighting duringlamp hot restrike modes. Ideal for new, retrofit and replacementapplications in recessed luminaires.

Features and Benefits:• Optimum lamp performance• Rugged, compact and lightweight design• High power factor• Enhanced color and CRI uniformity• Shut-down protection• Reduced wiring costs• Eliminates nuisance lamp cycling at end-of-lamp life (intelligent lamp sensing capabilities)• Constant lamp power• Reduced lamp dropouts due to improved line voltage dip withstand• Quiet operation• Durable performance for various applications • Fewer SKUs required in inventory• Broadens design flexibility for new applications and luminaries

Product OverviewEL

ECTR

ON

IC H

ID

PAGE 6-3 FOR MORE INFORMATION CALL

1-800-BALLAST(225-5278)

Order code Part # Lamp Wattage Lamp Type Input Voltage Input Power Mounting Lead Exit Dimensions Wiring

Micro Series

188514 M2012CK-7EUN 20 M/C156 120 24.5 No Feet Side 1 1

188882 M2012CK-7EUN-F 20 M/C156 120 24.5 Feet Side 2 1

188883 M2012CK-7EUN-J 20 M/C156 120 24.5 Studs Top 3 1

188574 M2212CK-7EUN 22 M/C175 120 26.5 No Feet Side 1 1

188884 M2212CK-7EUN-F 22 M/C175 120 26.5 Feet Side 2 1

188885 M2212CK-7EUN-J 22 M/C175 120 26.5 Studs Top 3 1

188635 M3912CK-7EUN 39 M/C130 120 45 No Feet Side 4 1

188776 M3912CK-7EUN-F 39 M/C130 120 45 Feet Side 2 1

188756 M3912CK-7EUN-J 39 M/C130 120 45 Studs Top 3 1

188757 MTm3912CK-7EUN 39Tm M/C179 120 45 No Feet Side 4 1

188777 MTm3912CK-7EUN-F 39Tm M/C179 120 45 Feet Side 2 1

188758 MTm3912CK-7EUN-J 39Tm M/C179 120 45 Studs Top 3 1

Mini-Slim Series




188774 M3927CK-6EUN-J 39 M/C130 277 44 Studs Top 7 1

188164 M7012CK-6EUN-F 70 M/C98, M/C139, M/C143 120 77 Feet Side 5 1

188703 M7027CK-6EUN-F 70 M/C98, M/C139, M/C143 277 77 Feet Side 6 1

188775 M7027CK-6EUN-J 70 M/C98, M/C139, M/C143 277 77 Studs Top 7 1

Mini-Square Series

188151 M2012CK-6EU-F 20 M/C156 120 23 Feet Side 8 1

188627 M2012CK-6EU-J 20 M/C156 120 23 Studs Top 9 1

188701 M2212CK-6EU-J 22 M/C175 120 26.5 Studs Top 9 1





188377 JM7012CK-6EU-F 70 M/C98, M/C139, M/C143 120 77 Feet Side 11 1

188628 M7012CK-6EU-J 70 M/C98, M/C139, M/C143 120 77 Studs Top 9 1

188895 M3912-27CK-6EU-F 39 M/C130 120-277 44 Feet Side 10 1

188896 M3912-27CK-6EU-J 39 M/C130 120-277 44 Studs Top 9 1

188897 M3912/27CK-6EU-JT3 39 M/C130 120/277 44/46 Studs Top 9 2a,2b,2c



188903 M2012/27CK-6EU-JT3 20 M/C156 120/277 24/26 Studs Top 9 2a,2b,2c

188939 M7012-27CK-6EU-F 70 M/C198,M/C139,M/C143 120-277 77 Feet Side 10 1

188940 M7012-27CK-6EU-J 70 M/C198,M/C139,M/C143 120-277 77 Studs Top 9 1

188941 M7012/27CK-6EU-JT3 70 M/C198,M/C139,M/C143 120/277 77/79 Studs Top 9 2a,2b,2c

Standard Series


188611 M2012/27CK-5EU-JT3 20 M/C156 120/277 24/26 Studs Top 13 2a, 2b, 2c

188156 M3912-27CK-5EU 39 M/C130 120-277 44 No Feet Side 14 1



188629 M3912/27CK-5EU-JT3 39 M/C130 120/277 44/46 Studs Top 13 2a, 2b, 2c

188630 M3912/27CK-5EU-JA3 39 M/C130 120/277 46/187 Studs Top 13 3a, 3b, 3c

188612 M5012-27CK-5EU-F 50 M148 or M110 120-277 56 Feet Side 12 1

188613 M5012/27CK-5EU-JT3 50 M148 or M110 120/277 56/58 Studs Top 13 2a, 2b, 2c

188165 M7012-27CK-5EU 70 M/C98, M/C139, M/C143 120-277 78 No Feet Side 14 1

188166 M7012-27CK-5EU-F 70 M/C98, M/C139, M/C143 120-277 78 Feet Side 12 1

188167 M7012-27CK-5EU-J 70 M/C98, M/C139, M/C143 120-277 78 Studs Top 13 1

188631 M7012/27CK-5EU-JT3 70 M/C98, M/C139, M/C143 120/277 79/81 Studs Top 13 2a, 2b, 2c

188632 M7012/27CK-5EU-JA3 70 M/C98, M/C139, M/C143 120/277 81/212 Studs Top 13 3a, 3b, 3c

188633 M10012/27CK-5EU-JT3 100 M/C90, M/C140 and M/C164 120/277 110/212 Studs Top 13 2a, 2b, 2c

188168 M10012-27CK-5EU 100 M/C90, M/C140 and M/C164 120-277 110 No Feet Side 14 1

188169 M10012-27CK-5EU-F 100 M/C90, M/C140 and M/C164 120-277 110 Feet Side 12 1

188302 M10012-27CK-5EU-J 100 M/C90, M/C140 and M/C164 120-277 110 Studs Top 13 1

188634 M10012/27CK-5EU-JA3 100 M/C90, M/C140 and M/C164 120/277 112/235 Studs Top 13 3a, 3b, 3c

188638 M15012-27CK-5EU-F 150 M/C102/E and M/C142/E 120-277 163 Feet Side 12 1

188639 M15012-27CK-5EU-J 150 M/C102/E and M/C142/E 120-277 163 Studs Top 13 1

Mid Wattage

188909 M21020-27CK-2EUN-F 210 C183 208-277 227 Feet Side 17 4a, 4b

188911 M25020-27CK-2EUN-F 250 (100V) M80/M168 208-277 277 Feet Side 17 4a, 4b

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The sustainable choiceOptanium® high-efficiency ballasts for today’s T8 lighting needs

Optanium High-Efficiency Ballasts�

1Source: Department of Energy/Energy Information Administration

Sustainable lighting solutions such as Philips Advance Optanium

high-efficiency electronic ballasts for T8 lamps can help businesses

significantly reduce their lighting costs. But they also help companies

meet the changing needs of today’s environmentally focused and

cost-conscious marketplace.

New legislation is requiring lighting systems to meet increasingly

strict performance levels, and regulations at the state and local

level are following suit. In addition, building a reputation for following

sustainable business practices that minimize environmental impact

can provide a company with a marketable advantage.

In short, sustainable lighting solutions like Optanium ballasts

for T8 lamps deliver the performance businesses demand in

today's marketplace.

A renewed focus on energyAcross the country today, businesses are taking a much closer look at

ways to conserve energy and save money. And, as lighting accounts for

up to 40% of a typical commercial facility’s electricity consumption1, it’s

not surprising that it’s one of the first places businesses turn to help

reduce their rising energy costs.

Optanium High-Efficiency Ballasts �

Optanium ballasts — The sustainable choice for T8 environmentsPhilips Advance Optanium high-efficiency electronic ballasts represent a breakthrough in fluorescent

T8 system components. Engineered to optimize lighting performance and maximize energy savings,

these innovative ballasts bring sustainable performance to recessed, direct/indirect, or strip lighting

applications in virtually any business setting.

Optanium ballasts for T8 lamps are part of our effort to

promote environmental responsibility through Smart

Solutions™ — energy-efficient products, lighting systems,

services, and expertise based on Philips Advance branded

ballast technology that help customers improve the

bottom line while reducing their carbon footprint.

All of the ballasts that comprise Smart Solutions are

designed to offer the highest energy efficiency, longest

system life, and lowest total cost of ownership in each

product family. To learn more about Smart Solutions, visit

www.philips.com/advance.

Choosing Smart Solutions like Optanium ballasts for T8

lamps means having confidence in lighting solutions that

are backed by 60+ years of industry experience and a

shared commitment to improving our planet.

Optanium High-Efficiency Ballasts�

Current-Fed vs. Voltage-Fed BallastsWhat’s the difference?

110

100

90

80

Inpu

t Po

wer

– W

atts

Current-Fed BallastsCurrent-fed ballasts, like

Optanium, provide the nominal

light output required to operate

the lamp, ensuring energy savings

are realized when paired with

energy-saving lamps.

Voltage-Fed BallastsUsing voltage-fed ballasts to

operate energy-saving T8 lamps

provides slightly higher light

output, but consumes additional

energy to do so.

32W 30W 28W 25W

120V 4' T8 Lamps

A versatile product family for every T8 applicationWith a broad range of models available, Optanium ballasts can

deliver sustainable performance anywhere T8 lighting is used —

offices, cubicle areas, hallways, classrooms, auditoriums, retail/big

box showrooms, healthcare, or industrial facilities.

As these different lighting applications can have varying

usage patterns, Optanium ballasts are offered with

two starting options. For applications involving long,

continuous burn hours, such as hallways, retail showrooms,

manufacturing areas, and security lighting, Optanium

instant start models deliver superior performance.

In situations with frequent on/off switching, such as

restrooms, supply areas, conference rooms, or anytime

occupancy sensors or motion detectors are incorporated,

Optanium programmed start models optimize lamp

life while providing the same efficiency as the instant

start models.

All Optanium ballasts are fully compatible with most major

lamp brands, reliably driving 1–� standard (17W, �5W,

��W) or energy-saving (�5W, �8W, �0W) lamps. And, for

additional flexibility, they are available in low, normal, and

high ballast factor versions.

Maximizes efficiency for the latest

lamp technologies

Optanium’s incorporation of constant-current design

maximizes energy savings by optimizing the regulation

and maintenance of the input watts consumed by the

lamp-ballast system (see chart below). And, as new lamp

technologies are introduced (most likely requiring fewer

input watts), Optanium’s use of constant-current design

also provides for future savings, enabling users to

immediately realize the potential of new energy-saving

lamps without reinvesting in new ballast technology.

Optanium High-Efficiency Ballasts 5

Setting industry standards for ballast efficiency

As a charter product in the NEMA Premium®

Ballast Program, Optanium ballasts are recognized

as supporting energy-efficient lighting objectives.

The National Electrical Manufacturers Association

(NEMA) has created this program to help lighting

professionals and end users recognize the market’s

highest-performing ballast products. For more

information on the NEMA Premium Ballast Program,

visit www.philips.com/advance and click on the

“Sustainability” tab.

As a licensee in the NEMA Premium Ballast Program, Philips Lighting Electronics has determined that these products meet the NEMA Premium specification for premium energy efficiency.

Helping businesses meet green building standardsWith public awareness of the need for sustainable lighting

solutions continuing to rise, the specification of energy-

efficient lighting and NEMA Premium components is

becoming more and more common among architects,

lighting designers, and facility managers alike.

Since Optanium ballasts can be used in such a variety

of applications throughout a facility, they can potentially

help businesses achieve their environmental and

sustainability goals, including LEED certification, meeting

ASHRAE standards, and complying with federal, state, or

local environmental regulations.

For more information on how the market is

moving toward energy-efficient solutions, visit

www.philips.com/advance and click on the

“Sustainability” tab at the top of the page.

Optanium High-Efficiency Ballasts6

Reduce energy costs with unsurpassed efficiencyOptanium’s energy efficiency is the result of extensive research and development by Philips Advance engineers

working with real-world lighting applications. State-of-the-art electronics enable Optanium ballasts to deliver the

ideal balance of light output and energy utilization.

SystemSystem watts

Annual costto operate2

Annual savings per fixture

�-lamp fixture with magnetic ballast and energy-savingT1� lamps

17� $68.80

�-lamp fixture with Optanium low watt electronic ballast and �5W T8 lamps

76 $�0.�0 $38.40

This replacement system also represents an estimated 56% reduction

in energy consumption.

Magnetic T12 vs. Optanium T8

It’s easy to see how these ballasts can deliver significant energy savings

while still providing the desired or required light output.

SystemSystem watts

Annual costto operate3

Annual savings per fixture

�-lamp fixture with standard electronic ballast and F��T8 lamps

11� $��.80

�-lamp fixture with Optanium low watt electronic ballast and �5W T8 lamps

76 $�0.�0 $14.40

Standard T8 vs. Optanium T8

Optanium ballasts also save energy costs over standard T8 electronic

ballasts, especially with lower-wattage energy-saving lamps.

This replacement system also represents an estimated 32% reduction

in energy consumption.

� Comparison based on a fixture with (�) F��T1� lamps and (1) magnetic ballast vs. (1) high-efficiency low watt electronic T8 ballast (IOPA-�P��-LW-SC) w/ (�) �5W energy-saving lamps. Savings based on $0.10 per kWh, �,000 hours/year.

� Comparison based on a fixture with (�) F��T8 lamps and (1) standard electronic ballast vs. (1) high-efficiency low watt electronic T8 ballast (IOPA-�P��-LW-SC) w/ (�) �5W energy-saving lamps. Savings based on $0.10 per kWh, �,000 hours/year.

If a facility has 1,000 4-lamp fixtures with magnetic ballasts and T12 lamps, that’s $38,400 in potential savings lost each year.

Put another way, that company is losing $105.20 each day it waits to upgrade.

Optanium High-Efficiency Ballasts 7

Delivering the performance today’s marketplace demandsFrom rising energy costs to increasingly strict efficiency

standards and the need to reduce their impact on the

environment, business owners and facility managers are

looking for economical and sustainable solutions to their

lighting needs.

Philips Advance Optanium T8 electronic ballasts deliver all

the benefits of the latest high-efficiency ballast technology

that help improve bottom-line profitability, meet new

energy regulations, and provide higher-quality light

throughout any facility.

Contact your Philips Lighting Electronics representative

today to learn more about our industry-leading Optanium

line of high-efficiency ballasts for T8 lamps or visit

www.philips.com/advance for more information.

Additional Optanium featuresOptanium ballasts include a variety of additional features that make integrating

sustainable lighting in any fixed-output T8 application quick and easy.

Feature Benefit

IntelliVolt® technologyAllows the ballast to operate at any input voltage from 1�0–�77V, 50/60 Hz, which simplifies ordering, inventory, and installation

Striation-reduction technologyReduces the likelihood of striation often associated with energy-saving lamps, ensuring consistent light output

Cold temperature lamp ignition using standard T8 lamps: • Programmed start = 0ºF (-18ºC) • Instant start = -�0°F (-�9ºC)

Brings energy-efficient T8 performance to a variety of new applications such as parking garages, warehouses, and cold storage areas

Operation between ��Hz and 5�HzEliminates interference with infrared systems, anti-theft devices, or other electronic equipment

Arc-reduction technology — UL Type CC*

Provides greater flexibility to meet end-user application requirements

*Not available in IOPA models

©�009 Philips Lighting Electronics.All rights reserved. “USGBC” and related logo is a trademark owned by the U.S. Green Building Council and is used by permission.

Form No. EL-�150-R0� 1/09

Philips Lighting Electronics10�75 W. Higgins RoadRosemont IL 60018Tel: 800-��-�086 Fax: 888-��-188�Customer Support/Technical Service: 800-�7�-��1OEM Support: 866-915-5886www.philips.com/advance




**CONFIDENTIAL**

ECM 3

Building Envelope

Due to the fact that the building is historical and has undergone renovations in the past, the building envelope is in need of

some upgrades. These upgrades are not comprehensive as the costs to completely revamp the building envelope would be a

huge capital undertaking by the city. During the BCS on-site surveys, we photographed the various envelope components

with a thermal imaging camera to investigate the potential heat gain or losses that occur throughout the space. Based on the

survey results and the concerns of the building occupants BCS focused on measures that would mitigate ice problems and

reduce excessive cold air infiltration.

The photo above was taken by BCS during the on-site survey of the market house. This image clearly shows the infiltration of

cold air (dark blue) into the space through the perimeter seals of the east entrance. The amount of infiltration through this

door is contributing to excessive heating costs through the unnecessary heating of cold outside air.

The picture above shows the effects that the 1970’s second floor renovation had on the existing envelope. Currently where

the metal decking from the second floor is mating to the existing brick exterior walls of the original market house, air is

allowed to infiltrate into the space as is evident in the cold spots (dark blue) shown. BCS proposes to use low expansion foam

around the perimeter of the first floor ceiling to prevent air infiltration and increase the overall insulation value of the

exterior walls. Additional weather stripping will be applied to the doors to reduce the infiltration. Finally the attic space at the

market house could use several weatherization measures to improve the insulation value and mitigate the ice problems in

the winter time.




**CONFIDENTIAL**

For the attic space, BCS proposes to add a new layer of blown-in insulation to increase the R value by a factor of 10. The attic

space should use ridge vents instead of allowing the attic ventilation to occur through the soffits. This interaction of cold air

from the outside and the relatively warmer air trapped in the attic will cause condensation and moisture problems. Installing

ridge vents and sealing the soffits will help to mitigate these losses. Finally, the gas fired furnace which serves the entire

south side of the 2nd

floor including the theater should have the major duct transitions and turns sealed in order to prevent

heat from escaping the unit.

The picture below shows the hot air escaping the unit while it is running in the attic. This major duct transition was noted to

only have a silicone caulking to prevent air leaks; it is evident that the seal has not held up since its installation. We estimate

that the insulation efforts outline here will contribute to an annual natural gas savings of 10% per year with the additional

benefit of reduced ice build up along the north and south facing soffits. This results in an annual cost savings 364 CCF or

approximately $340.00 a year.




**CONFIDENTIAL**

ECM 4

Pipe Insulation

The market house has over 550 feet of un-insulated ¾” copper pipe used in the hot water system. The heat is being rejected

into space but due to the location of the pipe along the ceiling, the heat tends to stratify and does not contribute to the

heating of the space very effectively. BCS proposes to add 1” thick closed cell foam pipe insulation to effectively reduce the

heat loss of the bare pipe. The picture below clearly shows the hot water pipes without any insulation. For reference BCS

used the ASHRAE 2009 Fundamentals handbook to determine realistic values of heat loss throughout the year. Please see the

calculation below for an explanation on natural gas savings.

CCFCCFBTUBTU

BTUBTU

BTUQ

hrftfthBTUQ

tLkQ

495)/100000/()49458750(

494587505.0*98917500

98917500

)5500(*)550(*)/7.32(

**

=

=

=

•=

=

Estimated Cost: $3,135

Savings:

yearCCF /460$)93.0($*)495( =

Simple Payback:

yearsyear 82.6)/460/($)135,3($ =

• Closed-cell, nonwicking• Microban® antimicrobial product protection• The IAQ Insulation™

• Reduces HVAC noise

Sheet & Roll Insulation

Superior Moisture Control on Large Jobs, Mold Resistant

FOR GREENER BUILDINGS

FMAPPROVED

AP/Armaflex®

Sheet & Roll Insulation

AP Armaflex Sheet and Roll Insulation is the original closed cell, fiber-free elastomeric foam and the world’s most recognized brand in flexible mechanical insulation.

• Proven: World’s first choice for insulating ductwork, large piping, fittings, tanks, vessels and curved or irregular surfaces

• Mold resistant: Made with Microban antimicrobial product protection

• Indoor Air Quality-friendly: Fiber-free, formaldehyde-free, low VOCs, nonparticulating

• Quiet: Noise blocking and vibration damage

• Durable: No fragile vapor retarder

Description

AP Armaflex Sheet and Roll Insulation is a black flexible elastomeric thermal insulation. It is furnished with a smooth skin on one side which forms the outer exposed insulation surface. The expanded closed-cell structure makes it an efficient insulation. It is manufactured without the use of CFC’s, HFC’s or HCFC’s. All AP Armaflex products are made with Microban® antimicrobial product protection for added defense against mold on the insulation. It is also effective for reducing HVAC noise.

• AP Armaflex Sheet is supplied in flat sheets 36˝ x 48˝ (.915m x 1.22) in nominal wall thicknesses of 1/8˝, 1/4˝, 3/8˝, 1/2˝, 3/4˝, 1˝, 1-1/2˝* and 2˝* (3, 6, 10, 13, 19, 25, 38 and 50mm)

• AP Armaflex Roll is supplied in 48˝ wide (1.22m) continuous rolls in nominal wall thicknesses of 3/8˝, 1/2˝, 3/4˝, 1˝, 1-1/2˝* and 2˝* (10, 13, 19, 25, 38 and 50mm). Also available in 60˝ (1.53m) in 1˝ thickness

Factory Mutual (FM) Approvals

AP Armaflex is approved through continuing supervision by Factory Mutual Approvals to consistently provide actual values on these key performance criteria for mechanical system insulation:

• Thermal Conductivity: 0.25 BTU-in/hr. ft2 °F

• Water Vapor Transmission: 0.05 perm-inch

• Fire Rating: will not contribute significantly to fire (simulated end-use testing)

As tested by ASTM E 84 “Method of Test for Surface Burning Characteristics for Building Materials”, AP Armaflex in wall thickness up to and including 2˝ (50mm) has a flame-spread index of less than 25 and a smoke-developed index of less than 50.

Note: Numerical flammability ratings alone may not define the performance of products under actual fire conditions. They are provided only for use in the selection of products to meet limits specified.

Armaflex Sheet and Roll Insulation www.armacell.com/usFor the latest document, please refer to our website.

AP Armaflex Sheet and Roll Insulation

Uses

• Retards heat gain and controls condensation drip from chilled-water and refrigeration systems. Efficiently reduces heat flow on hot systems

• Acceptable in wall thicknesses through 2˝ (50mm) for use in air plenums and conforms to NFPA 90A and NFPA 90B requirements

The recommended temperature usage range for AP Armaflex Sheet & Roll Insulation is -297°F to +220°F (-183°C to +105°C) according to method of application. With full adhesive coverage attachment, the surface to which it is applied may operate to a limit of 180°F (82°C). When used for pipe insulation with adhesive adhering seams and joints only, AP Armaflex Sheet can be applied to lines that will operate to a limit of 220°F (105°C). On cold systems, insulation thicknesses have been calculated to control condensation on the insulation outer surface, as shown in the table of thickness recommendations.

AP Armaflex Sheet and Roll Insulation meets the energy code requirements of International Energy Conservation Code (IECC) and ASHRAE for R-Value 4.2 at 1˝ wall thickness and R-Value 8 at 2˝ wall thickness.

Application

AP Armaflex Sheet and Roll is installed using one of our Armaflex adhesives: Armaflex 520, 520 Black or, where a low V.O.C. adhesive is required, Armaflex 520 BLV or Armaflex Spray Contact Adhesive. For application to large, flat or curved metal surfaces such as ducts, very large pipes, tanks and vessels, full adhesive coverage is used. For application as pipe insulation and fitting covers, only the seams and joints are adhered with Armaflex adhesive. 520 Adhesives are contact adhesives; therefore, in all cases, both surfaces to be joined are coated with adhesive. Exterior ductwork must be pitched to allow rainwater to run off the insulation.

For many applications, Armaflex needs no supplementary protection. Additional vapor-retarder protection may be necessary on very-low-temperature surfaces or piping where the insulation is exposed to continually high humidity conditions.

AP Armaflex is designed for installation above ground. Outdoors, a weather-resistant protective finish is to be applied and Armaflex WB Finish is recommended. Armaflex insulation products must be installed according to “Installation of Armaflex Insulations” brochure. Proper installation is required to assure Armaflex insulation performance.

Specification Compliance

AP Armaflex Sheet & Roll Insulation developed to meet:

ASTM C 534, Type II — Sheet Grade 1ASTM C 1534ASTM E 84, NFPA 255, UL 723CAN/ULC S102 NFPA 90A, 90B ASTM G21/C1338ASTM G22ASTM D 1056, 2B1

MIL-P-15280J, FORM SMIL-C-3133C (MIL STD 670B), Grade SBE 3MEA 107-89MUL 181UL 94 5V-A, V-0, File E 55798UL 84City of Los Angeles – RR 7642

ALL ARMACELL FACILITIES IN NORTH AMERICA ARE ISO 9001:2000 CERTIFIED.

Armaflex Sheet and Roll Insulation www.armacell.com/us

For the latest document, please refer to our website.

Specifications Values Test Method

Thermal Conductivity, Btu • in./h • ft2 • °F (W/mK) 75°F Mean Temperature (24°C) 90°F Mean Temperature (32°C)

0.25 (0.036) 0.256 (0.037) ASTM C 177 or C 518

Water Vapor Permeability, Perm-in. [Kg/(s•m•Pa)] 0.05 (0.725 x 10–13) ASTM E 96, Procedure A

Flame Spread and Smoke Developed Index through

2˝ (50mm)* 25/50ASTM E 84 CAN/ULC S102

Mold Growth Fungi Resistance Bacterial Resistance

UL181 ASTM G21/C1338 ASTM G22

Meets requirements Meets requirements Meets requirements

Water Absorption, % by Volume 0.2% ASTM C 209

Upper Use Limit 1 180/220°F (82/105°C) —

Lower Use Limit 2 -297°F (-183°C)** —

Ozone Resistance GOOD —

Sizes – Sheet Width and Length Thickness (nominal)

36˝ x 48˝ (.915m x1.22m) 1/8˝, 1/4˝, 3/8˝, 1/2˝, 3/4˝, 1˝, 1-1/2˝ & 2˝ (3, 6, 10, 13, 19, 25, 38 & 50mm)

—

Sizes – Roll Width Thickness (nominal) x Length

48˝ (1.22mm) and 60˝ (1.53m)†

3/8˝ x 100´ (10mm x 30.5m)1/2˝ x 70´ (13mm x 21.4m)3/4˝ x 50´ (19mm x 15.2m)1˝ x 35´ (25mm x 10.7m)1-1/2˝ x 25´ (38mm x 7.6m)2˝ x 18´ (50mm x 5.4m)† 1˝ thickness only

—

Density, Typical Range 3 3.0 - 6.0 lbs./ft.3 ASTM D 1622 or D 1667

Notes When AP Armaflex Sheet is installed by adhering butt joints and seams only, the upper temperature limit is 220°F (105°C) using 520, 520 black, or 520 BLV Adhesive. AP Armaflex Sheet adhered with complete adhesive coverage on flat or curved metal surfaces may be applied to surfaces that will operate as high as 180°F (82°C) using 520, 520 Black, 520 BLV or Armaflex Low VOC Spray Contact Adhesive.

At temperatures below -20°F (-29°C), elastomeric insulation starts to become less flexible. However, this characteristic does not affect thermal efficiency or water vapor permeability of Armaflex insulation.

Reference only.

Though 1˝

* 1-1/2˝ and 2˝ available in 25/50 and non 25/50.

** For applications of -40°F to -297°F (-40°C to -183°C), contact Armacell.

Performance approved through continuing supervision by Factory Mutual Approvals.

Physical Properties

Thickness RecommendationsFor Controlling Outer Insulation Surface Condensation(Based upon available manufactured thicknesses and not intended to supercede any state or local building codes.)

Ducts/Tanks/Vessels/Equipment Metal Surface Temperature

50°F (10°C) 35°F (2°C) 0°F (–18°C)

BASED ON NORMAL DESIGN CONDITIONS AP Armaflex in the thicknesses noted and within the specified temperature ranges will control outer insulation surface condensation indoors under normal design conditions, a maximum severity of 85°F (29°C) and 70% RH. Armacell research and field experience indicate that indoor conditions anywhere in the United States seldom exceed this degree of severity.

Nom 3/8˝ (10mm) Nom 3/4˝ (19mm) Nom 1-1/2˝ (38mm)

BASED ON MILD DESIGN CONDITIONS AP Armaflex in the thicknesses noted and within the specified temperature ranges will control outer insulation surface condensation indoors under mild design conditions, a maximum severity of 80°F (27°C) and 50% RH. Typical of these conditions are most air-conditioned spaces and arid climates.

Nom 1/8˝ (3mm) Nom 1/4˝ (6mm) Nom 1/2˝ (13mm)

BASED ON SEVERE DESIGN CONDITIONS AP Armaflex in the thicknesses noted and within the specified temperature ranges will control outer insulation surface condensation indoors under severe design conditions, a maximum severity of 90°F (32°C) and 80% RH. Typical of these conditions are indoor areas in which excessive moisture is introduced or in poorly ventilated confined areas where the temperature may be depressed below ambient.

Nom 1˝ (25mm) Nom 1-1/2˝ (38mm) Nom 2˝ (50mm)

For VERY SEVERE DESIGN CONDITIONS which Armacell would consider temperatures above recommended insulation 90°F (32°C) and/or above 80% RH.

Consult Armacell for recommended insulation thickness

➀

➁

➂

➃

➃

Air-drying contact adhesives that are excellent for joining seams.Armaflex 520, 520 Black & 520 BLV Adhesive

© 2008 Armacell LLC Printed in United States of America

ARMACELL LLC TEL: 1 800 866-5638 FAX: 919 304-3847 [email protected] www.armacell.com/us 7600 Oakwood Street Extension • Mebane, NC 27302

Armacell provides this information as a technical service. To the extent the information is derived from sources other than Armacell, Armacell is substantially, if not wholly, relying upon the other source(s) to provide accurate information. Information provided as a result of Armacell’s own technical analysis and testing is accurate to the extent of our knowledge and ability, as of date of printing, using effective standardized methods and procedures. Each user of these products, or information, should perform their own tests to determine the safety, fitness and suitability of the products, or combination of products, for any foreseeable purposes, applications and uses by the user and by any third party to which the user may convey the products. Since Armacell cannot control the end use of this product, Armacell does not guarantee that the user will obtain the same results as published in this document. The data and information are provided as a technical service and are subject to change without notice.

Microban is a registered trademark of Microban Products Company.

015 001 07 08 NA NA




**CONFIDENTIAL**

ECM 5

High Efficiency Heating Boiler

The existing hot water boiler is an aged Weil McLain fueled by natural gas. The boiler has a standard combustion efficiency of

80% but due to the open air construction of this vintage boiler, the cast iron sections reject a large amount of heat into the

boiler room up on the second floor. The boiler does have a motorized combustion damper to cut down on off cycle flue

losses but the boiler lacks any significant controllability and turn down. BCS proposes to furnish and install a new high

efficiency condensing boiler that will have sufficient turn down capability in order to modulate its operation to meet low and

high periods of heating demand. This will dramatically reduce the gas costs related to the heating of the building and will

provide a new modern intelligent boiler that will demand less maintenance over the life of the boiler. In addition the new

condensing boiler will have a substantially higher combustion efficiency that is capable of reaching 99% in some instances.

This efficiency upgrade results in a direct improvement on the annual gas costs for the market house. Please refer to the BIN

hour analysis included in this report for natural gas cost savings.

Design Load (BTU/hr) 366,000

BTU per CCF 103,000

CCF Unit Cost 0.93$

OAT (°F) Hours % LoadBuilding Load

(BTU)

Combustion

Efficiency (%)

Additional

Standby

Losses (%)

Required Input

(BTU)

Natural Gas

Consumption

(CCF)

Combustion

Efficiency (%)

Additional

Standby Losses

(%)

Required Input

(BTU)

Natural Gas

Consumption

(CCF)

CCF Saved

-20.0 0.04 100% 366,000 78% 2.00% 478,615 0.19 88.0% 1.00% 420,068 0.16 0.02

-15.0 0.80 100% 366,000 78% 2.00% 478,615 3.72 88.5% 0.98% 417,612 3.24 0.47

-10.0 1.16 100% 366,000 78% 2.00% 478,615 5.39 89.0% 0.96% 415,184 4.67 0.71

-5.0 4.96 100% 366,000 78% 2.00% 478,615 23.05 89.5% 0.94% 412,783 19.88 3.17

0.0 13.48 92% 336,720 78% 2.00% 440,326 57.63 90.0% 0.92% 377,575 49.42 8.21

5.0 34.72 84% 307,440 78% 2.00% 402,037 135.53 90.5% 0.90% 342,770 115.55 19.98

10.0 95.74 77% 281,820 78% 2.00% 368,534 342.55 91.0% 0.88% 312,418 290.39 52.16

15.0 170.48 68% 248,880 79% 2.00% 321,339 531.86 91.5% 0.86% 274,339 454.07 77.79

20.0 305.85 61% 223,260 79% 2.00% 288,260 855.96 92.0% 0.84% 244,712 726.65 129.31

25.0 440.18 42% 154,452 79% 2.00% 199,419 852.23 92.5% 0.82% 168,344 719.43 132.80

30.0 656.66 34% 124,440 79% 2.00% 160,669 1,024.32 93.0% 0.80% 134,877 859.88 164.44

35.0 835.92 28% 102,480 79% 2.00% 132,316 1,073.85 93.5% 0.78% 110,459 896.46 177.38

40.0 689.34 23% 84,180 79% 2.00% 108,688 727.41 94.0% 0.76% 90,234 603.90 123.51

45.0 695.06 16% 58,560 80% 2.00% 74,664 503.85 94.5% 0.74% 62,427 421.27 82.58

50.0 667.24 10% 36,600 80% 2.00% 46,665 302.30 95.0% 0.72% 38,804 251.37 50.93

55.0 683.70 4% 14,640 80% 2.00% 18,666 123.90 95.5% 0.70% 15,437 102.47 21.43

60.0 741.74 0% - 80% 1.80% - - 96.0% 0.68% - - -

65.0 805.26 0% - 80% 1.60% - - 96.5% 0.66% - - -

70.0 810.86 0% - 80% 1.40% - - 97.0% 0.64% - - -

75.0 630.34

80.0 337.54

85.0 118.67

90.0 18.38

95.0 1.72

100.0 0.16

TOTALS 5,295 6,564 5,519 1,045

1,045

971.75$

500.00$

1,471.75$

Boiler Analysis

EXISTING PROPOSED

ECM METRICS

Estimated Annual Maintenance Savings per Year($)

TOTAL ANNUAL SAVINGS ($)

Total Natural Gas Savings(CCF)

Total Cost Savings ($)




**CONFIDENTIAL**

ECM 6

New Breaker Panels

The market house is currently equipped with aged breaker panels that have overloaded circuits or failing breakers. The

wasted electricity turns into excess heat from which the customer is being billed for. BCS surveyed the breaker panels with a

FLIR camera to identify any breakers which are failing. The image shown below clearly identifies “hot spots” where the

breakers are in need of replacement. BCS proposes to upgrade the breaker panels to new panels. In addition, measures such

as the lighting upgrades will reduce this wasted electricity. Although this measure will not generate significant energy savings

it is highly advised to replace the panels due to the threat of failure. The first floor lighting circuits are shown below:

The savings from this measure were determined using the following methodology. BCS estimated the material properties at

approximately 4oz of copper for the contact material and a specific heat of 0.10 BTU/lb•°F for the breaker material. The

average temperature rise in the panel was recorded at 15°F. The remaining equations outline the savings calculation.

Q (BTU) = (.25lb) x (0.10 BTU/lb•°F) x (15 °F)

Q (BTU) = 0.375 BTU

Q (KW) = (3,285 BTU) x (1KW/3.412 BTU)

Q (KW) = 0.11 KW

KWH = (0.11 KW) x (8760 Hrs) X (.50)

KWH = 481.5 KWH per year per breaker

TOTAL KWH savings = (481.5 KWH) x (10 breakers)

TOTAL KWH savings = 4,815 KWH

TOTAL Cost Savings = $ 385.00

ESTIMATED COST

- replace 3 complete breaker panels

$ 18,000

SIMPLE PAYBACK

46.75 years




**CONFIDENTIAL**

ECM 7

HVAC Upgrades

The heating and cooling units in the market building are a fan coil type unit with a hot water coil for heating and a direct

expansion coil for cooling. Air cooled condensing units located outside of the market provide for summer time cooling and a

constant volume circulating pump supplies the hot water for the heating coils. Currently only three out of the four units on

the first floor were observed to be running however hot water was still being pumped through the water coil of the unit not

in operation. In addition, the unit that was not in operation had a flue section of pipe that was being vented through the attic

to the outside. The units were observed to operating at a run time fraction of approximately 25% or 15 minutes of fan cycling

for every 1 hour of time elapsed. Energy savings from this measure result from upgrading the 3/4hp fan motors to new

Electrically Commutated DC motors. Additional savings will result in isolating the hot water coil which is not being used,

sealing off the flue section that is being vented to the outside and slowing the water flow down through the radiator that is

located in the closet adjacent to the east side staircase. Please refer to the attached worksheet which outlines the gas and

electric savings from this measure.

FAN MOTOR SAVINGS

Fan Motors HP KW/hp TOTAL KW

3 0.75 0.746 0.5595

Old Efficiency Old Motor KW New Efficiency New Motor KW

70.00% 0.80 89.00% 0.63

Annual Hours Usage ΔKW KWH Savings

8760 60.00% 0.171 896.85

$/KWH (Blended) Savings $

$0.08 $71.75

GAS SAVINGS FROM REDUCED HOT WATER

Current GPM ΔT average Heating Hours BOILER % Efficiency ANNUAL HEAT LOSS (KBTU)

2 7 3500 83% 295.18

Proposed GPM ΔT average Heating Hours BOILER % Efficiency ANNUAL HEAT LOSS (KBTU)

0.5 7 3500 93% 66.22

GAS SAVINGS (CCF) 114.48

COST SAVINGS @ $0.93/CCF 106$

expected real savings is 50% less than calculated based on calculated heat loss that is contributing to the

real heating demand of the space

Vari-Green Motor

Vari-Green M

otor

ELECTRICALLY COMMUTATED | CONTROLLABLE | EFFICIENT

Start saving now — with the new, low-cost, easy to control, electronically-commutated motor that offers high reliability and low maintenance.

The Greenheck Vari-Green motor blends technology, controllability and energy-efficiency into a low maintenance package that is changing the way the industry designs, specifies and operates air movement equipment.

®

Vari-Green Motor

Advantages

Better than a PSC

• Potentiometer dial pre-mounted on motor for speed control

• 80% usable turndown vs. 30%

• No speed controller to wire

• 20%-70% energy savings

• Full speed range for better adjustment

Easier than VFDs

• 0-10 volt control wires pre-installed in motor

• No VFD to buy or install

• 30% energy savings

• Lower up-front cost

• Eliminates stray current and carrier frequencies

More Efficient than Belts

• Potentiometer dial pre-mounted on motor for speed control

• No belt and pulley losses

• Higher efficiency motor

• 40% energy savings

• Lower up-front cost

• No maintenance required

Greenheck’s new high-efficiency Vari-Green motor is ideal for specification on Greenheck centrifugal fans, rooftop and sidewall exhaust fans, and inline exhaust and supply fans.

THE FUTURE OF AIR MOVEMENT

600

500

400

300

200

100

00 350

50% 75% 100%

1750FAN SPEED (RPM)

INPU

T PO

WER

(WAT

TS)

CUE-121with PSC

CUBE-121Single Phase*

Not recommended

Energy SavingsEE

CUE-121 with

* CUBE is a belt driven fan

Energy Saved Using a Vari-Green Motor Versus a PSC

Payback 1 year or less

Operating at 1/2 Full Speed

Operating at 3/4 Full Speed

Motor Size 5,000 hrs/yr 5,000 hrs/yr

1/4 $ 130 $ 99

1/2 $ 202 $ 148

3/4 $ 273 $ 188

Assumes energy cost of $0.08/kW-hr

ELECTRICALLY COMMUTATED | CONTROLLABLE | EFFICIENT

VARI GREENMotor

Length of each curve indicates the practical turndown range. Data is for 1/2 hp motorswith load of 0.35 Bhp at full speed.

Speed Control OptionsMotor mounted dial

Control wire inputs (0-10V)

Remote mounted dial

1 2 3

Direct Drive Fan Models

Available with Vari-Green

Motors

Mod

els

Location Mounting Airflow Application Performance

Outd

oor

Indo

or

Base

/Flo

or

Hang

ing

Wal

l

Exha

ust

Supp

ly

Gene

ral/

Clea

n Ai

r

Cont

amin

ated

Air

Max

imum

Vol

ume

(cfm

)

Max

imum

Sta

tic P

ress

ure

(in

. wg)

AMCA

Sou

nd &

Air

UL/c

UL 7

05 L

iste

d

Max

imum

Fan

Siz

e

Centrifugal exhaust G 2,875 1.5 143

Centrifugal upblast & sidewall exhaust

CUE 5,000 2.25 180

CW inline exhaust & supply SQ 2,400 1.375 160

ReliabilityWith industry leading technology comes a new standard in motor reliability

• No shaft grounding required regardless of the turndown

• Bearing life is greater since the motor runs cooler the further it is turned down

• No voltage or current spikes as in VFD controlled motors

Electronic CommutationElectronic commutation uses electronic circuitry to control the motor’s functions:

Solid state circuitry controls the output of power and the speed of rotation

Internal circuitry converts 115 volt single phase AC power to DC voltage for increased efficiencies and full controllability of speed

Motor and Fan SizesVari-Green motors come in three fractional horsepowers; 1/4, 1/2, 3/4 and are available in both 50 and 60 Hz power on models G, CUE, CW, and SQ.

1

2

3

Vari-Green M

otor

P.O. Box 410 | Schofield, WI 54476-0410 USA

Phone 715.359.6171 | Fax 715.355.2399

greenheck.com

Vari-Green Motor Brochure | June 2010 RG | Copyright © 2010 Greenheck Fan Corp.

green — It’s not just what we make.It’s where we work. How we work. Who we are.

for better air — specify Greenheck fans.To learn more about the Vari-Green Motor, contact your nearby Greenheck representative or visit our Web site to view the video at greenheck.com/library.

LEED

Greenheck is driving the fan industry in the Green Building and LEED charge. As one of the first manufacturers in the air movement industry to join the United States Green Building Council in 2005, we have been actively researching how our products can be applied. This commitment to the green movement continues with product development that qualifies within the LEED rating system—it’s prerequisites and credits. The Vari-Green motor is equipped to play a large role in the green building movement, specifically Prerequisite Two; Minimum Energy Performance and Credit One; Optimize Energy Performance.

EC Motor Specification

Motor to be a DC electronic commutation type motor (ECM) specifically designed for fan applications. AC induction type motors are not acceptable. Examples of unacceptable motors are: Shaded Pole, Permanent Split Capacitor (PSC), Split Phase, Capacitor Start and 3 phase induction type motors. Motors shall be permanently lubricated with heavy duty ball bearings to match the fan load and pre-wired to the specific voltage and phase. Internal motor circuitry shall convert AC power supplied to the fan to DC power to operate the motor. Motor shall be speed controllable down to 20% of full speed (80% turndown). Speed shall be controlled by either a potentiometer dial mounted at the motor or by a 0-10 VDC signal. Motor shall be a minimum of 85% efficient at all speeds.

Prepared to Support Green Building Efforts

®




**CONFIDENTIAL**

ECM 8

Solar Photovoltaic

The use of Solar Photovoltaic cells is becoming more and more acceptable as a renewable energy source due to advances in

research, development, and innovations in current technology. The Meadville Market House has a substantial amount of

south facing roof top area that could be used to take advantage of this renewable energy supply. Installing solar panels will

allow the Market House to generate electricity onsite, lowering their peak demand while reducing the annual consumption.

Solar panels require very little maintenance, are totally silent and can be grid-tied to sell back electricity that is not being used

by the building.

Under this measure, the installation of a 20 KW Solar PV system would be installed on the south facing rooftop. Solar panels

are modular based and a larger system can be achieved easily by adding more solar panels at a later date.

The solar panels recommended are Suntech Ud modules which are rated from 205-210 Watts. The dimensions of one panel

are 4.86 x 3.253 x .1148 Ft2. Therefore the rooftop area that the panel would consume would be approximately 15.8 Ft

2. In

order to design a 20 KW system the market house would need to install approximately 97 modules. The proposed 20 KW

system would be a fixed tilt array type with an array tilt of 20˚. The measure would produce an estimated 21,056 KWH

annually resulting in a cost savings of approximately $1,685 a year.

Figure 1: Suntech Ud Module Figure 2

* * * * *

AC Energy

&

Cost Savings

* * * * *

City of Meadville, PA Solar Estimation

Station Identification

Cell ID: 0256369

State: Pennsylvania

Latitude: 41.5 ° N

Longitude: 80.3 ° W

PV System Specifications

DC Rating: 20.0 kW

DC to AC Derate Factor: 0.770

AC Rating: 15.4 kW

Array Type: Fixed Tilt

Array Tilt: 20.0 °

Array Azimuth: 180.0 °

Energy Specifications

Cost of Electricity: 8.0 ¢/kWh

Results

Month

Solar Radiation

(kWh/m2/day)

AC Energy (kWh)

Energy Value

($)

1 2.03 973 77.84

2 2.89 1272 101.76

3 4.16 1980 158.40

4 4.81 2155 172.40

5 5.48 2442 195.36

6 5.90 2472 197.76

7 5.75 2451 196.08

8 5.26 2271 181.68

9 4.42 1870 149.60

10 3.28 1480 118.40

11 2.06 890 71.20

12 1.73 799 63.92

Year 3.99 21056 1684.48

STP210 - 18/UdSTP205 - 18/Ud

www.suntech-power.com©Copyright 2010 Suntech Power EN-NA-STD-Ud-NO1.01-Rev 2010

High module conversion efficiency (up to 14.3%), through superior manufacturing technology

Guaranteed 0-5W positive power output tolerance ensures high reliability

Three bus-bar design enhances cell reliability and reduces series resistance for large fill factor

Excellent performance under low light environments (mornings, evenings and cloudy days)

Entire module certified to withstand high wind loads (2400 Pascal) and snow loads (5400 Pascal) *

POLYCRYSTALLINE SOLAR MODULE210 Watt

0-5W

2400Pa 5400Pa

Features

3 bus bar

Weak light

14.3%

• World’s leading manufacturer of crystalline silicon photovoltaic modules• Unrivaled manufacturing capacity and world-class technology• Rigorous quality control meeting the highest international standards :

ISO 9001: 2008 and ISO 14001: 2004• Certification and standards: IEC 61215, IEC 61730, conformity to CE

* Please refer to Suntech Standard Module Installation Manual for details.** Please refer to Suntech Product Warranty for details.

Industry-leading warranty

Trust Suntech to Deliver Reliable Performance Over Time

• 25 year transferrable power output warranty: 5 year/95%, 12 year/90%, 18 year/85%, 25 year/80% **

• Based on nominal power• Warrants 6.7% more power than the market

standard over 25 years• 5 year material and workmanship warranty

SUNTECH +6.7%

Textured surface and silicon nitride anti-reflection coating improves light absorption for more current production

Suntech’s reputation is founded on more than 1.5 gigawatts of high-performing solar modules installed around the world

STP210 - 18/UdSTP205 - 18/Ud

EN-NA-STD-Ud-NO1.01-Rev 2010www.suntech-power.com | E-mail: [email protected]

Current-Voltage & Power-Voltage Curve (210-18)

Specifications are subject to change without further notification

Electrical CharacteristicsSTC STP210-18/Ud STP205-18/Ud

Optimum Operating Voltage (Vmp) 26.4 V 26.3 V

Optimum Operating Current (Imp) 7.95 A 7.80 A

Open - Circuit Voltage (Voc) 33.6 V 33.5 V

Short - Circuit Current (Isc) 8.33 A 8.23 A

Maximum Power at STC (Pmax) 210 W 205 W

Module Efficiency 14.3% 13.9%

Operating Temperature -40 °C to +85 °C -40°C to +85°C

Maximum System Voltage 600 V DC 600 V DC

Maximum Series Fuse Rating 20 A 20 A

Power Tolerance 0/+5 W 0/+5 W

STC: lrradiance 1000 W/m2, module temperature 25 °C, AM=1.5

NOCT STP210-18/Ud STP205-18/Ud

Maximum Power (W) 153 W 150 W

Maximum Power Voltage (V) 24.0 V 23.9 V

Maximum Power Current (A) 6.39 A 6.27 A

Open Circuit Voltage (Voc) 31.2 V 31.1 V

Short Circuit Current (Isc) 6.75 A 6.64 A

Efficiency Reduction(from 1000 W/m2 to 200 W/m2) <4.5% <4.5%

NOCT: Irradiance 800 W/m2, ambient temperature 20 °C, wind speed 1 m/s

Mechanical CharacteristicsSolar Cell Polycrystalline 156 × 156 mm (6 inches)

No. of Cells 54 (6 × 9)

Dimensions 1482 × 992 × 35 mm (58.3 × 39.1 × 1.4 inches)

Weight 16.8 kgs (37.0 lbs.)

Front Glass 3.2 mm (0.13 inches) tempered glass

Frame Anodized aluminium alloy

Junction Box IP67 rated

Output Cables

H+S RADOX® SMART cable 4.0 mm2 (0.006 inches2),symmetrical lengths (-) 1000 mm (39.4 inches) and (+) 1000 mm (39.4 inches), H4 connectors (MC4 compatible)

Packing ConfigurationContainer 20’ GP 40’ GP 40’ HC

Pieces per pallet 26 26 26

Pallets per container 6 14 28

Pieces per container 156 364 728

Dealer information box

Temperature CharacteristicsNominal Operating Cell Temperature (NOCT) 45±2°C

Temperature Coefficient of Pmax -0.47 %/°C

Temperature Coefficient of Voc -0.34 %/°C

Temperature Coefficient of Isc 0.045 %/°C

Note: mm [inch]

9

8

7

6

5

4

3

2

1

0

240

210

180

150

120

90

60

30

0

Curr

ent (

A)

Pow

er (W

)

Voltage (V)

0 10 20 30 40

1482

[58.

3]12

02[4

7.3]

702[

27.6

]

2-Ø5.1[Ø0.2]

14×9[0.55×0.35]

942[37.1]Junction box

(Back View)

1.5

35

35

11Section A-A

Ground holes2 places

Mounting slots 8 places

Drainage holes

A A

992[39.1]

(Front View)

Hazardous electricity can shock, burn or cause death.

Do not touch terminals.

Model NumberRated Maximum PowerOutput ToleranceCurrent at PmaxVoltage at Pmax

Maximum Series Fuse RatingCell TechnologyApplication Class A

(Pmax

)

(Imp )(Vmp )(Isc )

All technical data at standard test conditionAM=1.5 E=1000W/m2

Tc=25℃

Customer Service Hot Line: +86 400 8888 009 Fax: +86

510 8534 3321Add:

17-6 ChangJiang South Road, New District Wuxi, China 214028

Manufactured in China

jklm

abcdef

1000 W/m2 800 W/m2 600 W/m2 400 W/m2 200 W/m2




**CONFIDENTIAL**

SECTION 4

COST/BENEFIT ANALYSIS

This section outlines the various energy savings measures and their potential energy and cost savings potential. Specific

attachments and supporting documentation has been included within section 3 to provide a reference on the savings

calculations. The following table outlines the proposed measures estimated cost, energy savings and simple payback. It is

clear that some measures provide a good payback over other measures. Important factors to consider are the annual run

time hours of the system in question, the age, the existing efficiency and the costs to retrofit or upgrade the system. Finally,

this section includes summary sheets related to the ACT 129 electrical efficiency incentive programs.


Baseline ECMs

Installed

Hard

Costs $

Annual

Electric

Savings

$

Annual

Natural

Gas

Savings $

Annual

Water

Savings $

Annual

Maintenance

Savings $

TOTAL

COST

SAVINGS

Simple

Payback

(years)

1 Water Conservation $520 $101 $101 5.15

2 Lighting Upgrades $10,335 $839 $839 12.32

3 Building Envelope $12,000 $340 $340 35.29

4 Pipe Insulation $3,135 $460 $460 6.82

5 High Efficiency Heating Boiler $18,500 $972 $500 $1,472 12.57

6 New Breaker Panels $18,000 $385 $385 46.75

7 HVAC Upgrades $1,720 $72 $106 $178 9.66

8 Solar Photovoltaic $90,000 $1,685 $1,685 53.41

Baseline Project Summary $154,210 $5,460 28.24

1 Rev13e

How Do I Apply for Incentives? Please review the Business Program Terms and Conditions and application requirements.

Step 1: Review program materials to confirm the energy efficiency measures meet program requirements. Visit www.energysavePA.com, review our Participant’s Manual, and/or contact us at 1‐866‐554‐4430 with questions.

Step 2: Complete the program application and the supplemental HVAC spreadsheets and attach supporting technical documentation required to verify that proposed equipment meets program efficiency levels, such as manufacturers’ cut sheets. If applying for RCC, please provide technical documentation for eligible equipment as detailed on page 5 of this application. Please note that the information requested on the form is state mandated documentation required before your application can be reviewed by the program.

Sign the application form and submit a complete application package to the program manager for consideration, review and approval. Incomplete applications will not be considered and will be returned to the applicant for completion.

A complete application package includes:

• A signed application form, with all proposed and existing equipment information requested in the supplemental HVAC spreadsheets and, if applying for RCC, page 5 of this application.

• Manufacturers’ specification (cut) sheets for each HVAC unit to verify that the equipment meets the program efficiency requirements or RCC requirements.

Complete application packages must be returned via email, fax or hardcopy to:

Mail: FirstEnergy HVAC Incentives for Business Program 6059 Allentown Blvd. PMB #573 Harrisburg, PA 17112

Fax: 610‐743‐8629 Email: [email protected]

Step 3: The program manager will notify the applicant via email when the review is complete and funds have been reserved. Upon receipt of program pre‐approval, participants may purchase and install their energy efficient equipment.

Step 4: Once the project is complete, you should review your approved application for any changes to the project that occurred during installation and make the needed corrections. Resubmit the application, along with a dated proof of purchase, to the program for incentive payment.

Applications and supporting technical documentation will be reviewed by program staff, and an onsite inspection to verify the installation may be conducted. Upon receipt and verification of all required documentation, the incentive check will be processed and mailed to the applicant or to an authorized representative, if requested on the application. Following the review and approval, applicants will be required to submit a W‐9 with Tax Identification associated with the incentive recipient to enable processing W‐9s are not required until approved

HVAC Incentives for Business Program FirstEnergy’s HVAC Incentives Program offers incentives and information to encourage participants to install high‐efficiency heating and air‐conditioning equipment. Also, as a part of the HVAC Tune‐Up, the program offers incentives for refrigerant charge correction (RCC) for existing equipment up to 20 tons. The program is funded by Met‐Ed, Penelec and Penn Power nonresidential electric utility customers in Pennsylvania in accordance with Act 129 of 2008.

Effective Dates To qualify for incentives, equipment must have been purchased or refrigerant charge correction performed on or after October 28, 2009.

Eligible Participants HVAC Incentives are available to commercial and industrial retail customers of Met‐Ed, Penelec and Penn Power.

Eligible Measures To qualify for an incentive, HVAC equipment must

‐ Be used for ambient cooling only;

‐ Exceed the minimum efficiency rating required for the equipment type and cooling capacity shown in Table 1 – Minimum Efficiency Requirements – on page 3 and 4 of this form;

‐ Be installed in a facility owned by a commercial or industrial retail customer of Met‐Ed, Penelec or Penn Power;

‐ Meet additional technical requirements outlined in Table 2 on page 4 of this form.

Projects that include process cooling, cold storage or other conditioning applications not eligible for this program should apply under the Custom Incentives for Business program. HVAC maintenance other than RCC for existing equipment up to 20 tons is not eligible for this program.

Existing Facilities and New Construction Both existing facilities and new constructions projects are eligible for incentives under this program. Building addition projects that increase a facility’s footprint are considered new construction and are also eligible.

Pre‐Approval Requirements Program pre‐approval is not required for projects that were purchased and installed before March 31, 2010.

Projects to be completed (installed) after March 31, 2010 require program pre‐approval before the purchase and installation of equipment if the total incentive requested is greater than $3,000.

All participants are encouraged to seek program approval of their equipment prior to purchase to ensure it meets program requirements and is eligible for incentives.

Questions? If you have questions, please review the FAQ section of the program website – www.energysavePA.com. This information is being updated regularly. Specific questions can also be sent to program representatives via email at [email protected].

1Rev7e

Non‐StandardLightingIncentivesforBusinessProgram

FirstEnergy’sNon‐StandardLightingIncentivesforBusinessProgramoffersincentivesandinformationtoencourageparticipantstoinstallhigh‐efficiencylightingequipment.TheprogramisfundedbyMet‐Ed,PenelecandPennPowernonresidentialelectricutilitycustomersinPennsylvaniainaccordancewithAct129of2008.

EffectiveDatesToqualifyforincentives,equipmentmusthavebeenpurchasedonorafterOctober28,2009.

EligibleParticipantsTheNon‐StandardLightingIncentivesforBusinessProgramisavailabletocommercialandindustrialretailservicecustomersofMet‐Ed,PenelecandPennPower.Inadditiontoretrofits,newconstructionprojectsandtheportionofbuildingadditionprojectsthatincreaseafacility’sfootprintareeligibleforNon‐StandardLightingincentives.

Pre‐ApprovalRequirementsNon‐Standardlightingprojectscompleted(installed)afterMarch31,2010willrequirepre‐approvalbeforethepurchaseandinstallationofequipmentifthetotalincentiverequestedisgreaterthan$3,000.

Allparticipantsareencouragedtoseekprogramapprovalfortheirproposednewlightingequipmentpriortopurchasetoensureitmeetsprogramrequirementsandiseligibleforincentives. ExistingFacilitiesvs.NewConstructionExistingfacilitiesandnewconstructionprojects,asdefinedabove,areeligiblefortheseincentives.Existingfacilitiesshouldconsidertheexistingequipmentwhencalculatingbaselineenergyusage.Newconstructionprojectsshouldfollowapplicablebuildingenergyconstructioncodeswhencalculatingbaselineenergyusage.

LimitationsThisprogramdoesnotreplacetheStandardLightingProgramforfixedincentivemeasuressuchasCFLs,LEDexitsignsandoccupancysensors.AllincentivesavailablefromanyFirstEnergyBusinessprogramarelimitedtothetotalequipmentcost.Questions?Ifyouhavefurtherquestions,pleasereviewtheFAQsectionoftheprogramwebsite–www.energysavePA.com.Thisinformationisbeingupdatedregularly.

Specificquestionscanalsobesenttoprogramrepresentativesviaemail–[email protected].

HowDoIApplyforIncentives?PleasereviewtheBusinessProgramTermsandConditionsandapplicationrequirements.

Step1: Reviewprogrammaterialstoconfirmtheenergyefficiencymeasuresmeetprogramrequirements.Visitwww.energysavePA.com,reviewtheParticipantManual,and/[email protected] 1‐866‐554‐4430withquestions.

Step2: CompletetheprogramapplicationandtheFirstEnergyNon‐StandardLightingCalculatorspreadsheet.Attachsupportingtechnicaldocumentationrequiredtoverifyequipmentenergyuse,suchasmanufacturers’cutsheets.PleasenotetheNon‐StandardLightingCalculatorspreadsheetisstatemandateddocumentationrequiredbeforeyourapplicationcanbereviewedbytheprogram.

Signtheapplicationformandsubmitacompleteapplicationpackagetotheprogrammanagerforconsideration,reviewandapproval.Incompleteapplicationswillnotbeconsideredandwillbereturnedtotheapplicantforcompletion.

Acompleteapplicationpackageincludes:

• Asignedapplicationformwiththesummaryinformationfieldsenteredonpagethree.

• AnelectroniccopyoftheNon‐StandardLightingCalculatorspreadsheet,asanExcel(xls)file,showingbothannualkWhandkWdemandreduction.

• Manufacturers’specification(cut)sheetsforeachinstalledfixturetypethatisnotontheWattageTableintheNon‐StandardLightingCalculatorspreadsheet.

Completeapplicationpackagesmustbereturnedviaemail,faxorhardcopy:

Mail: FirstEnergyNon‐StandardLightingIncentivesforBusinessProgram6059AllentownBlvd.PMB#573Harrisburg,PA17112

Fax: 610‐743‐8629Email: [email protected]

Step3:Theprogrammanagerwillnotifytheapplicantviaemailwhenthereviewiscompleteandfundshavebeenreserved.Uponreceiptofprogrampre‐approval,participantsmaypurchaseandinstalltheirenergyefficientequipment.

Step4:Oncetheprojectiscomplete,youshouldreviewyourapprovedapplicationforanychangestotheprojectthatoccurredduringinstallationandmaketheneededcorrections.Resubmittheapplication,alongwithadatedproofofpurchase,totheprogramforincentivepayment.

Applicationsandsupportingtechnicaldocumentationwillbereviewedbyprogramstaff.Anonsiteinspectionmaybeconductedtoverifytheinstallation.Uponreceiptandverificationofallrequireddocumentation,theincentivecheckwillbeprocessedandmailedtotheapplicantortoanauthorizedrepresentative,ifrequestedontheapplication.Followingthereviewandapproval,applicantswillberequiredtosubmitaW‐9withTaxIdentificationassociatedwiththeincentiverecipienttoenableprocessing.W‐9sarenotrequireduntilapproved.

Documents

ENERGY AUDIT for the Meadville Market House City of ...256E8AF9-2CF3-4525-A3F2... · Meadville Market House SAIC Audit Report # AU8820 City of Meadville Energy Audit **CONFIDENTIAL**

ENERGY AUDIT for the Meadville Market House City of ...256E8AF9-2CF3-4525-A3F2... · Meadville Market House SAIC Audit Report # AU8820 City of Meadville Energy Audit CONFIDENTIAL