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Kero World Kerosene Heater Wick Chart, Dimensions: 0.05 x 8.5 x 11 in
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General Filters Oil Filter Cartridge, 10 gph, Filter Rating: 10, Filter Media Type: Wool Felt, Suitable for: 77B, 1A-25B, 1A-25A Fuel Oil Filters
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General Filters Oil Filter Cartridge, Filter Media Type: Microfiber, Suitable for: 77B, 1A-25B, 1A-25A Fuel Oil Filters
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Necessary for transfer of fuel from storage tank to heater. Easy to operate utilizing a large ball type siphon. Compatible with all types of kerosene heaters.
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Male pipe thread x left hand male thread.
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Plumb Pak Coin Air Valve, Metal, Satin Nickel, Dimensions: 2.94 in L x 2 in W x 2.06 in H
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Male pipe thread x left hand male thread.
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Male pipe thread x left hand male thread.
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10-micron wool felt. Center core bonded to prevent media migration.
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10-micron wool felt. Center core bonded to prevent media migration.
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1/8 x 27 NPT.
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Igniters are an important component of correct heater operation. By using an igniter you can avoid unnecessary dirt and damage caused by match lighting.
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Igniters are an important component of correct heater operation. By using an igniter you can avoid unnecessary dirt and damage caused by match lighting.
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Replacement part for most Mr. Heater tank top models. Proir to 2011.
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"Soft nose P.O.L. Most commonly used to connect 9/16"" female left hand thread to 7/8"" female P.O.L."
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1/4 in male pipe threat. Restricted flow, soft nose P.O.L. Most commonly used to connect 1/4 in female pipe thread to 7/8 in female P.O.L.
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End fitting for Type 1, QCC-1 gas grill systems. For appliances with 80,000 Btu or less. Threaded shut-off, excess flow safety.
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1/4 in male pipe thread x 1 in -20 female throwaway cylinder thread.
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1/4 in male pipe thread x 1 in - 20 male throwaway cylinder thread.
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Soft nose excess flow P.O.L x 1/4 in male pipe thread.
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"1/8"" angle MIP. Maximum operating pressure 5 PSI. Maximum pressure 10 PSI."
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60 psi non-shock hot water. 15 psi WSP. Hot water or low pressure systems.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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For use with "Buddy" heaters. Most commonly used with bulk cylinder and hose assembly.
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For: ARTURO A.P.I. YD818. CORONA SS-DK and SS-DX. COSY 200. FLAME-GLO 90. HENRY ISLAND RB-2. KERO-SOLAR KMI-80. KERO-SUN Omni 15 and Moonlighter (PRE H). KEYMAR KM-80 and Sundowner. KOGY 200. KOZY 200. MULTIPLEX (Yeih Tung) YD-818. NOBLE Queen. NORTHSTAR RB-2 Rainbow. PROSPERITY II HT-01 and CKH-3900. SAMARITAN S8700. SUNBEAM (NORTHERN) 3621. SUNNY 200/Cosy. TOYOSTOVE/TOYOTOMI RB2A and TSC15.
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For AMERICAN WICK AWHR-1100, 1101 and AWRF-1140. DURAHEAT DH1000-1011 and DH1100. DYNA-GLO 31494, 31495, CT1200, RMC-55R, 55R7, 55R7B and RMC-65F. ENVIROTEMP 30492 (CT1100), 31494, 31495 (CT1200,CT1300F) RMC-55R, RMC-65F and RF-1300. HEAT MATE HMHR1101 and HMRF1140. KERO-HEAT CT1100, CT1200, 1300F, 30492 and RF1140. KERO JET SCT1100. KERO-WORLD KW-11(B-F), KC1100-1104 SENGOKU CT1100. TOYOKUNI 26EU. MEGA 110. REDSTONE RMC-55R7, 557B.
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1/8 in angle MIP. Maximum operating pressure 1-1/2 psi. Maximum pressure 10 psi.
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For BANDO BK96. COMMANDER CH-96. EASY 2220 and 2000. FANCO RAD9600,CART100 and CART96. GEMINI III SYK10000. GOLD STAR 50-50. HEAT MATE K-5 and K-10. IMARFLEX 10000, 10500 and 11000. KERAY (Ker-O-Ray) Hawaiian. KERO-HEAT CT1400, CT1500, IT1000. KERO-SOLAR Master, KMI-81 and KMI-82. KERO-SUN Radiant 8, 10A-M and 22. LITWIN (Comforter) C110 and C150. LOUDI F960 Yukon. MULTIPLEX (Yeih Tung) HT-02 and YD-789. PORTA-HEAT SYK-10,000. PROSPERITY II HT-02 and CKH-4900. ROBESON 2601-32, 2602-32, R9600, R10500, RAD20. SAMARITAN S8200 and SR9600. SUNSTAR EZ2220. TOYOSET (BY KERO-SUN) R96. TOYOSTOVE/TOYOTOMI RSA10G, 10, RC11, RSA21, RSA23, RSA24, RSA50, RSA85, RSA25A, TSR22, RSA8Radiant 8. VAN WYCK (see also Robeson) 2601-32 and 2602-32 (RA R9600).
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For COMMANDER CH-100. ENVIROTEMP 30499 (R100 and RF110). KERO-SUN Radiant 36, SSTRM and R110. TOUCH & GLOW 2220 and 2850. TOYOSET (BY KERO-SUN) R100 and R110. TOYOSTOVE/TOYOTOMI RCA36, 36F, RCA37 and 37F.
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For ALADDIN J580 Mark II. ARTURO A.P.I. KF3200. ENVIROTEMP 30477 and 30487 (PTE-4). EVERGLO PTE4, 30477 and 30487. FUJIKA (Fujica) KF3200A, KS-4A and Mark II. FUTURA FH31/E4 Queen. HENRY ISLAND FH-31/PT-E4 Queen. KENROY (KERO HEAT) 10500 and 10-5R. LESLIE LOCKE (Warm up Squad) KH7. MEGA PTE4. SUN HOUSEWARES K102. YUASA Sunglow 30.
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For: ALADDIN B131 Temprite 8, S181 Tropic and S281 Temprite 7. ARTIFEX S100. FUJIKA (Fujica) KS-2A, KSG-175A and Young. KERAY (Ker-O-Ray) Survivor I, II and III. PERFECTION PSR-8 and 80W. RADIANT KING RK-70, 75 and 110. SHARP HSR-23F and 24F. SUNSHINE (Emerson) R-800. WESTERN AUTO/CITATION SCJ2012 and SCJ2013.
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For: ALADDIN B231, S471 Temprite 95, B331 Temprite 11, J480 Happy II, S481 and C481 Temprite 10. BOMBARDIER CR10 and R12. FUJIKA (Fujica) KSF225. KERAY (Ker-O-Ray) Tahitian DX. SHARP HSR-31F, 48D, 88F and 200. SUN HOUSEWARES K100. SUNSHINE (Emerson) R-1200. WESTERN AUTO/CITATION SCJ2015 and SCJ2016.
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For: AMERICANA AR100. AMERICAN WICK 30462. ARTIFEX S200. AVANTI KH10. CODEP 5700. COMFORT GLOW SR10. ENVIROTEMP 30462 (9500 BTU) and 30471 (SPR10). FLAME-GLO 920 and 926. GERALD GHR95, GH12 and GH14. HALLMARK HSC98. HAMAI HKS24 and HKF100. HANSON 5700. HEATMORE A7000, A9000 and A9600. KEROTECH Companion, Resident and Sable. KOZY 500. NORTHSTAR NS-95. SAGA 200. SANYO OHR85B, OHRG25, 25A, OHR261, OHR1010, OHR1020, OHR280, OHRG28H and 28. Sears 260011, 35001, 40220. Sunbeam 3601, 3602, 3603, 3606. SUNWISE SPR10, SPR95 and 30471. YUASA J10 and J20.
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For: COMFORT TEMP (Golden Glo) GG8420. HEAT BUSTER HB-105. KEROVIC 98-KV01. KNAPP MONARCH 18-2616-58, 18-2619-91 and 18-2614-91. NOVA Nine. ROBESON 2602-38, 2602-49, 2609-04, 2604-38, 2614-91, 2602-35, 2605-38, 2609-58, 2611-58, 2619-91, 2616-58, RAD10800 and 2610-58. TOSHIBA KSE-2150 and KSR28FE. TURCO 2000, 2001, 2005, 2006, 2007, 2008, 2010, 2016. VAN WYCK (see also Robeson) 2602-38 (RAD 10500).
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For COSY 260 and 500. KERO-SUN Omni 85D, 85E, 85F, 85G and 85H. NORTHSTAR KSA-851. SAMARITAN S1300. TOYOSTOVE/TOYOTOMI KSA85D, KSA851D and KSA851E.
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Replacement wick, fits models Kero-World KC1208, Dyna Glo RMC-11C, 11C7, DuraHeat DH1050.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2.00 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2.00 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2.00 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2.00 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2.00 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Neither truly a hollow or solid nozzle. The nozzles frequently can be used in place of either solid or hollow cone nozzles between 0.4 and 8 GPH, regardless of the burner's air pattern. The lower flow rates tend to be more hollow. Higher flow rates tend to be more solid.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2.00 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Mainly used on burners with a hollow cone air pattern and for throughputs up to 2 GPH. The droplet distribution is concentrated on the outside of the cone and results in good ignition and low-noise combustion.
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Produce a spray that distributes droplets fairly uniformly throughout the complete pattern. The spray pattern becomes progressively more hollow at higher flow rates. Provides smooth ignition and efficient combustion, particularly in larger burners.
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3/8 in male pipe thread x 3/8 in female flare. Most commonly used to hook a low pressure regulator to an appliance.
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For: ALOHA JY1120. ARTURO A.P.I. JY1120. COMFORT TEMP (Golden Glo) GG8445. CORONA 11DK, A, 17DK, B, C and SL11DK. KEYMAR KM-180 and Sunfire. SUN AIR GLOW US-18-7.
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For: ALADDIN B431, B531, B631, Temprite 15, S331 Supra 300, S431 Supra 400, S571 Temprite 15, TR5000, S681 Equator II, TR7000, Temprite 16, B631 and Temp. 20. BOMBARDIER C20 and R15. RADIANT KING RK420 and 450. SUNSHINE (Emerson) C-1500. WESTERN AUTO/CITATION SCJ2017 and SCJ2020.
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Replacement wick. Fits KeroWorld KW-12, KC1211. DuraHeat DH1051 and Redstone WK11C8 kerosene heater models.
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For: ALADDIN TR6000 (TR6020). ALOHA JY1130. ARTURO A.P.I. JY1130. COMFORT GLOW C22600. COMFORT TEMP (Golden Glo) GG8440. CORONA 22DK, A, B, C, XLDK and 30465. ENVIROTEMP 30465 (22DK). HEAT MATE 2200. HENRY ISLAND Magnum. KERAY (Ker-O-Ray) Husky 2. KERO-WORLD KW-23. LOUDI E196 Husky. MAGNUM 22 and 23. NORTHSTAR NS-22. SEARS 35111. SUN AIR GLOW US-23-5. TEKNIKA 2000.
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For: AMERICANA AC200, AR140 and HSC180. ARTIFEX S300. AVANTI KH20. CODEP 5800. COMFORT GLOW SR14. COSY 420 and 510. EGAWA HKS-50 and HK-350. Energy Star EKS146C. ENVIROTEMP 30464 (18000 BTU) (AC30). FLAME-GLO 942,950. GERALD GHR180, GH16, GH18. HALLMARK HSC180. HAMAI HKS50 and HKS60. HANSON 5800. HEAT GLOW SK150 and 152C. KEROTECH Beacon 180 and 45. SAGA 300. SANYO OHC420, 42A, OHC510, OHR300, OHR1210, OHRG30A, OHR41H and OHR1410. Sears 35002, 40218, 40219, 40316. Sunbeam(northern) 3623, 3625, 3627, 5800. SUNWISE SPC180. YUASA J37, J40 and J50.
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For CORONA SX3, 3C, 3FC, SPDX, SPDK and SX5. KEYMAR RM-1270 and Sunseeker. SUN AIR GLOW US-9-5 and US-11-5.
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For: BANDO BK195. COSY 100. EASY 4570 and 100. Energy Star EKS198C. FLAME-GLO 910. GEMINI III SYK20000. HEAT BUSTER HB-1950. KERO-SUN Omni 105E, 105F, 105G, 105H, 105I and Director. KOGY 100. KOZY 100. NOBLE King. NORTHSTAR KSA-105. NOVA One. PORTA-HEAT SYK-20000. SAMARITAN S19500. SUNNY 100/Cosy. SUNSTAR BK-195. TOYOSTOVE/TOYOTOMI KSA105E, KSA105F, KSA105G, KSA105H and KSA105I.
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Necessary for transfer of fuel from storage tank to heater. Powered by 2-D cell batteries. Batteries not included. Convenient On/Off switch. Compatible with all types of kerosene heaters.
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At the forefront of nozzle development, Delavan created its nozzle using bi-metal construction. The brass body and stainless steel metering parts permit machining to close tolerances for precision and consistently high performance. Brass transmits heat fast from the nozzle face to reduce the possibility of varnish and oil residue buildup. Stainless steel provides that extra durability for metering parts where wear is a factor.
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At the forefront of nozzle development, Delavan created its nozzle using bi-metal construction. The brass body and stainless steel metering parts permit machining to close tolerances for precision and consistently high performance. Brass transmits heat fast from the nozzle face to reduce the possibility of varnish and oil residue buildup. Stainless steel provides that extra durability for metering parts where wear is a factor.
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