New Products
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10L Premium Short Path Distillation Turnkey System
10L Premium Short Path Distillation Turnkey System This unit carries a 2 day lead time. (Note: Stainless Steel Table NOT Included.) The 10L Premium Short Path Distillation Turnkey System features our USA made P10 Distillation Head. Every component in this turnkey is made for precision, throughput, and repeatable results. Also included the Kangaroo digital thermometer which is very rugged and reliable. You will also receive a Ribbed Dewar Style Glass Cold Trap to keep all volatiles and solvents out of your vacuum system. This Turnkey Setup gives you everything needed to perform distillation at the highest level. The 10L Neo Kit Includes: 10L Short Path Distillation Kit including glassware, labware, and P10 Distillation Head. 10L Digital Heating and Stirring Mantle. Polyscience 15 Liter Advanced Digital Heated Circulator BVV™ 21.2CFM Pro Series Corrosion Resistant Vacuum Pump Valved Vacuum Adapter. Ribbed Dewar Style Glass Cold Trap. Kangaroo Digital Thermometer. Distillation Quick Start Guide This guide gives basic quick start instructions for distillation systems. It is intended to provide a starting point for learning the process. Parameters should be adjusted to suit specific needs, Before beginning distillation, ensure the following steps have been taken: Vacuum Pump is in good working order. Pump should be run against dry load to allow internals to warm up. Oil should be clear. Cloudy or dark oil should be changed. All glass components are in good working order and ready to be assembled A winterization and degassing procedure has been done to prepare oil for distillation The unit's max internal temperature cannot exceed 380C. The recommended max set temperature should not exceed 250C Once all three of these steps have been completed, you are ready to begin distilling. Begin by placing stir bar in boiling flask and then load your material. This should be done using a funnel. A small amount of alcohol in the oil will give it a thinner consistency making it easier to transfer. Assemble all glassware and ensure each joint is properly greased. Do not use too much, as the vacuum pressure might pull some grease into the system. To ensure a full seal, spread grease in a circular motion by rotating glassware Attach circulator to condenser and set temperature to 50C. Allow circulator to reach temperature before beginning distillation. Connect vacuum pump to manifold. The manifold will allow you to isolate each individual component as well as let atmosphere into and out of the system. Connect receiving cow to cold trap. Connect cold trap to manifold. Connect vacuum gauge to manifold. At this point, ensure all connections are correct. Also ensure receiving cow is positioned to collect the first fraction in the far-left receiving flask. Circulator should be at its set temperature. Turn on vacuum pump to begin process. Turn on heat and set to 60C. Vacuum pump will begin to pull down and temperature will begin to rise. Watch the gauge to monitor vacuum pressure and stability. Start stir slower and increase speed with temperature. Once you are close to 60C, increase the temperature 20 degrees. Continue to raise the heat incrementally in 20-degree steps, increasing the set temperature as you near your set point. Increase temperatures incrementally until you reach 220C. You will see your first fraction somewhere between 180C and 190C or slightly before. This is the “heads” fraction. You will move to your second fraction when you see an increased reaction in the head, a slight color change toward golden, as well as a thickening of distillate. When this fraction hits, allow the distillate to “self-clean” the head for a minute or two then, rotate the cow to the middle receiving flask. Collect your “main body” fraction. You will see temps between 190-220C during this fraction. Continue to increase stirring speed as necessary. Reaction in the head may vary but it should never stop. As fluid level in the boiling flask decreases, increase stir speed. The final “tails” fraction is a mixture of the first and second fractions and should be saved for re-distillation later. Ideally, you want to turn the cow to the final flask before the tails fraction hits. The “tails” fraction has an obvious color change and will be darker than the “main body” fraction. You will see temps between 200-250C during this fraction. As fluid level in the boiling flask decreases even more, set stirring RPM higher (1000+ RPM). You may need to compensate with a bit more heat to finish of the final fraction as well. Once process is complete, stop heat, stop stir, and stop vacuum. Let atmosphere into the system. Be sure to properly store your distillate as exposure to air and light can cause oxidation. ***Note: This entire setup will ship via motor freight.*** ***Note: All units are inspected for broken glass or parts before unit is shipped. If unit arrives damaged or glass is broken (this does not include minor imperfections or scuffs in glassware), Customer MUST contact BVV™ within 3 days of delivery to file a claim and receive a replacement part. If customer DOES NOT contact BVV™ within 3 days of delivery responsibility for replacement parts falls on the customer and they must pay for replacement pieces.*** ***Glassware Safety Disclaimer: BVV™ is not responsible for failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail causing bodily harm or damage to the surrounding area.***
$17,417.62
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Neocision 20L Neocision Dual Short Path Distillation Turnkey System
20L Neocision Dual Short Path Distillation Turnkey System This unit carries a 2 day lead time. (Note: This kit does NOT include the stainless steel table.) The 20L Neocision Distillation Turnkey Setup features our Dual USA made P10V6 Distillation Heads. Every component in this distillation kit is made for precision, throughput, and repeatable results. You will also receive Dual Dewar Style Ribbed Glass Cold Traps to keep all volatiles and solvents out of your vacuum system. This Turnkey Setup gives you everything needed to perform distillation at the highest level. The 20L Neo Kit Includes: 20L Neocision Kit with glassware, labware, and Dual P10V6 Distillation Heads. BVV 15 Liter Advanced Digital Heated Circulator Choice of Vacuum Pump KF-25 Bellow Y Manifold Dual Ribbed Dewar Style Glass Cold Trap Non-Mercury Glass Thermometers 20L Digital Heating and Stirring Mantle Distillation Quick Start Guide This guide gives basic quick start instructions for distillation systems. It is intended to provide a starting point for learning the process. Parameters should be adjusted to suit specific needs, Before beginning distillation, ensure the following steps have been taken: Vacuum Pump is in good working order. Pump should be run against dry load to allow internals to warm up. Oil should be clear. Cloudy or dark oil should be changed. All glass components are in good working order and ready to be assembled A winterization and degassing procedure has been done to prepare oil for distillation The unit's max internal temperature cannot exceed 380C. The recommended max set temperature should not exceed 250C Once all three of these steps have been completed, you are ready to begin distilling. Begin by placing stir bar in the boiling flask and then load your material. This should be done using a funnel. A small amount of alcohol in the oil will give it a thinner consistency making it easier to transfer. Assemble all glassware and ensure each joint is properly greased. Do not use too much, as the vacuum pressure might pull some grease into the system. To ensure a full seal, spread grease in a circular motion by rotating glassware Attach circulator to condenser and set temperature to 50C. Allow circulator to reach temperature before beginning distillation. Connect vacuum pump to manifold. The manifold will allow you to isolate each individual component as well as let atmosphere into and out of the system. Connect receiving cow to cold trap. Connect cold trap to manifold. Connect vacuum gauge to manifold. At this point, ensure all connections are correct. Also ensure receiving cow is positioned to collect the first fraction in the far-left receiving flask. Circulator should be at its set temperature. Turn on vacuum pump to begin process. Turn on heat and set to 60C. Vacuum pump will begin to pull down and temperature will begin to rise. Watch the gauge to monitor vacuum pressure and stability. Start stir slower and increase speed with temperature. Once you are close to 60C, increase the temperature 20 degrees. Continue to raise the heat incrementally in 20-degree steps, increasing the set temperature as you near your set point. Increase temperatures incrementally until you reach 220C. You will see your first fraction somewhere between 180C and 190C or slightly before. This is the “heads” fraction. You will move to your second fraction when you see an increased reaction in the head, a slight color change toward golden, as well as a thickening of distillate. When this fraction hits, allow the distillate to “self-clean” the head for a minute or two then, rotate the cow to the middle receiving flask. Collect your “main body” fraction. You will see temps between 190-220C during this fraction. Continue to increase stirring speed as necessary. Reaction in the head may vary but it should never stop. As fluid level in the boiling flask decreases, increase stir speed. The final “tails” fraction is a mixture of the first and second fractions and should be saved for re-distillation later. Ideally, you want to turn the cow to the final flask before the tails fraction hits. The “tails” fraction has an obvious color change and will be darker than the “main body” fraction. You will see temps between 200-250C during this fraction. As fluid level in the boiling flask decreases even more, set stirring RPM higher (1000+ RPM). You may need to compensate with a bit more heat to finish of the final fraction as well. Once process is complete, stop heat, stop stir, and stop vacuum. Let atmosphere into the system. Be sure to properly store your distillate as exposure to air and light can cause oxidation. ***Note: This entire setup will ship via motor freight.*** *Notice to Customers: All units are inspected for broken glassware or parts before leaving BVV™. If the unit arrives damaged (this does not include minor imperfections or scuffs in glassware), the customer MUST contact BVV™ within 72 hours from carrier delivery to file a claim. If the customer DOES NOT contact BVV™ within 72 hours from carrier delivery, then BVV™ cannot issue any replacement(s) or compensation for the item; a new purchase will need to be made for a replacement. BVV™ is not responsible for the failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail, which can cause bodily harm or damage to the surrounding area.
$18,713.15 - $24,471.04
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Neocision 20L Neocision Dual Head Short Path Distillation Kit
20L Neocision Dual Head Short Path Distillation Kit This unit carries a 2 day lead time. (Note: This kit does NOT include the stainless steel table.) The 20L Neocision Distillation Kit Setup features our Dual P10V6 Distillation Heads and USA made glass. Every component in this distillation kit is made for precision, throughput, and repeatable results. You will also receive Dual Dewar Style Ribbed Glass Cold Traps to keep all volatiles and solvents out of your vacuum system. This kit gives you the essentials of a short path distillation system and allows you to add a pump and temperature control system of your choosing. The 20L Neo Kit Includes: 20L Neocision Kit with glassware, labware, and Dual P10V6 Distillation Heads. KF-25 Bellow Y Manifold Dual Ribbed Dewar Style Glass Cold Trap Non-Mercury Glass Thermometers 20L Digital Heating and Stirring Mantle Distillation Quick Start Guide This guide gives basic quick start instructions for distillation systems. It is intended to provide a starting point for learning the process. Parameters should be adjusted to suit specific needs, Before beginning distillation, ensure the following steps have been taken: Vacuum Pump is in good working order. Pump should be run against dry load to allow internals to warm up. Oil should be clear. Cloudy or dark oil should be changed. All glass components are in good working order and ready to be assembled A winterization and degassing procedure has been done to prepare oil for distillation The unit's max internal temperature cannot exceed 380C. The recommended max set temperature should not exceed 250C Once all three of these steps have been completed, you are ready to begin distilling. Begin by placing stir bar in the boiling flask and then load your material. This should be done using a funnel. A small amount of alcohol in the oil will give it a thinner consistency making it easier to transfer. Assemble all glassware and ensure each joint is properly greased. Do not use too much, as the vacuum pressure might pull some grease into the system. To ensure a full seal, spread grease in a circular motion by rotating glassware Attach circulator to condenser and set temperature to 50C. Allow circulator to reach temperature before beginning distillation. Connect vacuum pump to manifold. The manifold will allow you to isolate each individual component as well as let atmosphere into and out of the system. Connect receiving cow to cold trap. Connect cold trap to manifold. Connect vacuum gauge to manifold. At this point, ensure all connections are correct. Also ensure receiving cow is positioned to collect the first fraction in the far-left receiving flask. Circulator should be at its set temperature. Turn on vacuum pump to begin process. Turn on heat and set to 60C. Vacuum pump will begin to pull down and temperature will begin to rise. Watch the gauge to monitor vacuum pressure and stability. Start stir slower and increase speed with temperature. Once you are close to 60C, increase the temperature 20 degrees. Continue to raise the heat incrementally in 20-degree steps, increasing the set temperature as you near your set point. Increase temperatures incrementally until you reach 220C. You will see your first fraction somewhere between 180C and 190C or slightly before. This is the “heads” fraction. You will move to your second fraction when you see an increased reaction in the head, a slight color change toward golden, as well as a thickening of distillate. When this fraction hits, allow the distillate to “self-clean” the head for a minute or two then, rotate the cow to the middle receiving flask. Collect your “main body” fraction. You will see temps between 190-220C during this fraction. Continue to increase stirring speed as necessary. Reaction in the head may vary but it should never stop. As fluid level in the boiling flask decreases, increase stir speed. The final “tails” fraction is a mixture of the first and second fractions and should be saved for re-distillation later. Ideally, you want to turn the cow to the final flask before the tails fraction hits. The “tails” fraction has an obvious color change and will be darker than the “main body” fraction. You will see temps between 200-250C during this fraction. As fluid level in the boiling flask decreases even more, set stirring RPM higher (1000+ RPM). You may need to compensate with a bit more heat to finish of the final fraction as well. Once process is complete, stop heat, stop stir, and stop vacuum. Let atmosphere into the system. Be sure to properly store your distillate as exposure to air and light can cause oxidation. *Note: This entire setup will ship via motor freight.*** *Notice to Customers: All units are inspected for broken glassware or parts before leaving BVV™. If the unit arrives damaged (this does not include minor imperfections or scuffs in glassware), the customer MUST contact BVV™ within 72 hours from carrier delivery to file a claim. If the customer DOES NOT contact BVV™ within 72 hours from carrier delivery, then BVV™ cannot issue any replacement(s) or compensation for the item; a new purchase will need to be made for a replacement. BVV™ is not responsible for the failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail, which can cause bodily harm or damage to the surrounding area.
$9,788.42 - $10,076.31
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10L Premium Short Path Distillation Kit with P10 Distillation Head
10L Short Path Distillation Kit with P10 Distillation Head This unit carries a 2 day lead time. (Note: Stainless Steel Table NOT Included.) The 10L Short Path Distillation Kit features our USA made P10 Distillation Head. Every component in this turnkey is made for precision, throughput, and repeatable results. Also included the Kangaroo digital thermometer which is very rugged and reliable. You will also receive a Ribbed Dewar Style Glass Cold Trap to keep all volatiles and solvents out of your vacuum system. This Kit gives you the basic necessities of a short path distillation system and allows you to add on a temperature control system and vacuum pump to fit your needs. The 10L Neo Kit Includes: 10L Short Path Distillation Kit including glassware, labware, and P10 Distillation Head. 10L Digital Heating and Stirring Mantle. Valved Vacuum Adapter. Ribbed Dewar Style Glass Cold Trap. Kangaroo Digital Thermometer. Distillation Quick Start Guide This guide gives basic quick start instructions for distillation systems. It is intended to provide a starting point for learning the process. Parameters should be adjusted to suit specific needs, Before beginning distillation, ensure the following steps have been taken: Vacuum Pump is in good working order. Pump should be run against dry load to allow internals to warm up. Oil should be clear. Cloudy or dark oil should be changed. All glass components are in good working order and ready to be assembled A winterization and degassing procedure has been done to prepare oil for distillation The unit's max internal temperature cannot exceed 380C. The recommended max set temperature should not exceed 250C Once all three of these steps have been completed, you are ready to begin distilling. Begin by placing stir bar in boiling flask and then load your material. This should be done using a funnel. A small amount of alcohol in the oil will give it a thinner consistency making it easier to transfer. Assemble all glassware and ensure each joint is properly greased. Do not use too much, as the vacuum pressure might pull some grease into the system. To ensure a full seal, spread grease in a circular motion by rotating glassware Attach circulator to condenser and set temperature to 50C. Allow circulator to reach temperature before beginning distillation. Connect vacuum pump to manifold. The manifold will allow you to isolate each individual component as well as let atmosphere into and out of the system. Connect receiving cow to cold trap. Connect cold trap to manifold. Connect vacuum gauge to manifold. At this point, ensure all connections are correct. Also ensure receiving cow is positioned to collect the first fraction in the far-left receiving flask. Circulator should be at its set temperature. Turn on vacuum pump to begin process. Turn on heat and set to 60C. Vacuum pump will begin to pull down and temperature will begin to rise. Watch the gauge to monitor vacuum pressure and stability. Start stir slower and increase speed with temperature. Once you are close to 60C, increase the temperature 20 degrees. Continue to raise the heat incrementally in 20-degree steps, increasing the set temperature as you near your set point. Increase temperatures incrementally until you reach 220C. You will see your first fraction somewhere between 180C and 190C or slightly before. This is the “heads” fraction. You will move to your second fraction when you see an increased reaction in the head, a slight color change toward golden, as well as a thickening of distillate. When this fraction hits, allow the distillate to “self-clean” the head for a minute or two then, rotate the cow to the middle receiving flask. Collect your “main body” fraction. You will see temps between 190-220C during this fraction. Continue to increase stirring speed as necessary. Reaction in the head may vary but it should never stop. As fluid level in the boiling flask decreases, increase stir speed. The final “tails” fraction is a mixture of the first and second fractions and should be saved for re-distillation later. Ideally, you want to turn the cow to the final flask before the tails fraction hits. The “tails” fraction has an obvious color change and will be darker than the “main body” fraction. You will see temps between 200-250C during this fraction. As fluid level in the boiling flask decreases even more, set stirring RPM higher (1000+ RPM). You may need to compensate with a bit more heat to finish of the final fraction as well. Once process is complete, stop heat, stop stir, and stop vacuum. Let atmosphere into the system. Be sure to properly store your distillate as exposure to air and light can cause oxidation. ***Note: This entire setup will ship via motor freight.*** *Notice to Customers: All units are inspected for broken glassware or parts before leaving BVV™. If the unit arrives damaged (this does not include minor imperfections or scuffs in glassware), the customer MUST contact BVV™ within 72 hours from carrier delivery to file a claim. If the customer DOES NOT contact BVV™ within 72 hours from carrier delivery, then BVV™ cannot issue any replacement(s) or compensation for the item; a new purchase will need to be made for a replacement. BVV™ is not responsible for the failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail, which can cause bodily harm or damage to the surrounding area.
$5,901.84
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Mastercool 1/4" FNPT Vacuum Pump Exhaust Adapter
Mastercool 1/4" FNPT Vacuum Pump Exhaust Adapter This fitting allows the user to connect a 1/4" NPT fitting to the exhaust for the desired application such as a carbon exhaust filter. It is made of brass and comes with a Viton O-ring. This item will also fit VE115 Vacuum pumps
$21.59
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BVV/CPS 1/4" FNPT Vacuum Pump Exhaust Adapter
BVV/CPS 1/4" FNPT Vacuum Pump Exhaust Adapter This fitting allows the user to connect a 1/4" NPT fitting to the exhaust for the desired application such as a carbon exhaust filter. It is made of steel and comes with a Viton O-ring.
$28.79
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Welch Vacuum - Gardner Denver Welch DryFast Ultra Diaphragm Pump 2042
Welch DryFast Ultra Diaphragm Pump 2042 This item may carry up to a 5 day lead time. Product Details Chemical Resistant Oil-Free Tuneable Vacuum Welch DryFastTM PTFE Diaphragm Vacuum Pumps enable precise vacuum control for organic evaporations with exclusive Advanced Vapor Management (AVM). Oil-Free, portable, chemical resistant, 2 head diaphragm design simplifies maintenance. Choose from seven dry PTFE vacuum pump models with flows up to 70 L / min and adjustable vacuum down to 2 Torr. Economical DryFastTM vacuum pumps are perfect for tough lab applications. Specifications Model Number 2042 Application Rotary Evaporation/Distillation (lowvolatility solvents <160oC B.P., ~ 2 Liter), Centrifugal Concentrators, Vacuum ovens (mid- size), pumping harsh vapors & gases Type Laboratory Vacuum Pump Free Air Displacement cfm (l/min.) @60Hz 1.2(35) Free Air Displacement m3/hr (l/min.) @50Hz 1.75(29) Ultimate Pressure 2(2.7) Maximum Vacuum 29.85 Motor Horsepower (watts) 1/5(150) Adjustable Vac. / Gas Ballast Yes Tubing Needed 1/4(7) Intake Thread NPT M14(1/8) Overall Dimensions LxWxH in. (cm) 13.8x6.8x8.8(35.2x7.2x22.3) Ship Weight 25(11.3) Shipping Carton Dimensions LxWxH in. (cm) 21x14x15 (52x35x37) Adjustable Vacuum Knob
$6,513.62
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Welch Vacuum - Gardner Denver Welch WOB-L Pump 2546
Welch WOB-L Pump 2546 Product Details Economical Oil Free Adjustable Vacuum / Pressure Reliable WOB-L Piston pumps are perfect for many common laboratory vacuum applications. Features: Vacuum and Pressure - to 60 Torr (27.6"Hg). Includes Vacuum and Pressure Regulators and Gauges - simple to adjust and monitor vacuum level and delivery pressure. Inlet Water Trap - float ball rises to seal off pump from accidental ingestion of water. Muffler quiets pump and filters discharge air. For use with dry or aqueous vapor applications only. Specifications Model Number 2546 Application Filtration (1 to 6 funnels), Aspiration, Desiccation, SPE, Replace water aspirator, Vacuum Drying Type Laboratory Vacuum Pump Free Air Displacement cfm (l/min.) @60Hz 1.6(45) Free Air Displacement m3/hr (l/min.) @50Hz 2.3(38) Ultimate Pressure 60(80) Maximum Vacuum 27.6 Max Pressure PSIG (pascal) 100(106) Motor Horsepower (watts) 1/4(190) Adjustable Vac. / Gas Ballast Yes Tubing Needed 3/16(5) Intake Thread NPT 1/4 Overall Dimensions LxWxH in. (cm) 10x7.5x9 (25.4x19.1x7.7) Ship Weight 17(7.7) Shipping Carton Dimensions LxWxH in. (cm) 15.3x12.3x12.7 (39x31x32) Intake Catch Jar Yes Exhaust Catch Jar Yes Adjustable Vacuum Knob Adjustable Pressure Yes Vacuum Gauge Dial Pressure Gauge Dial
$1,520.08
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Welch Vacuum - Gardner Denver Welch WOB-L Pump 2522
Welch WOB-L Pump 2522 Product Details Economical Oil Free Adjustable Vacuum / Pressure Reliable WOB-L Piston pumps are perfect for many common laboratory vacuum applications. Features: Vacuum and Pressure - to 100 Torr (26"Hg). Includes Vacuum and Pressure Regulators and Gauges - simple to adjust and monitor vacuum level and delivery pressure. Inlet Water Trap - float ball rises to seal off pump from accidental ingestion of water. Muffler quiets pump and filters discharge air. For use with dry or aqueous vapor applications only. Specifications Model Number 2522 Application Filtration (1 to 2 funnels), Aspiration, Desiccation, SPE, Replace water aspirator, Vacuum Drying Type Laboratory Vacuum Pump Free Air Displacement cfm (l/min.) @60Hz 0.76(22) Free Air Displacement m3/hr (l/min.) @50Hz 1.1(18) Ultimate Pressure 100(133) Maximum Vacuum 26 Max Pressure PSIG (pascal) 100(106) Motor Horsepower (watts) 1/8(93) Adjustable Vac. / Gas Ballast Yes Tubing Needed 3/16(5) Intake Thread NPT 1/4 Overall Dimensions LxWxH in. (cm) 8.1x8.8x10 (20.6x22.4x25.4) Ship Weight 17(7.7) Shipping Carton Dimensions LxWxH in. (cm) 15.3x12.3x12.7 (39x31x32) Intake Catch Jar Yes Exhaust Catch Jar Yes Adjustable Vacuum Knob Adjustable Pressure Yes Vacuum Gauge Dial Pressure Gauge Dial
$1,187.57
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Welch Vacuum - Gardner Denver Welch DuoSeal Vacuum Pump Oil, Gallon 1407K-15
Welch DuoSeal Vacuum Pump Oil, Gallon 1407K-15 ***Note: This item has a possible 1-2 week lead time depending on stock availability*** Welch fractionated oil for DuoSeal belt-driven pumps to ensure the highest vacuum performance. DuoSeal Oil performs to rigid standards for vapor pressure, vacuum level stability, and viscosity -the lubrication that helps enable renowned DuoSeal pump durability.
$151.14
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Welch Vacuum - Gardner Denver Welch High Capacity Diaphragm Pumps 2062
Welch High Capacity Diaphragm Pumps 2062 High Capacity dry diaphragm vacuum pump. PTFE contact surfaces, deep vacuum at with high flow. PTFE Pump, 8 heads. 115V 60HZ 1.5 TORR 119 LPM Specifications Includes 1/4" OD hose barb Common accessory, not included Vacuum Controller Pumping Speed 119 Lit/min. (4.2 CFM) Max. Vacuum 1.5 Torr (2 mbar) 29.9" Hg Tubing Needed 1/4" ID Inlet Connection UNIBARB Exhaust 1/4" OD Dimensions LxWxH inches 21x11x12 Weight 72 LBS Wiring 115V, 60 hz
$9,428.55
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Welch Vacuum - Gardner Denver Welch High Capacity PTFE Diaphragm Pump 2052
Welch High Capacity Diaphragm Pump 2052 High Capacity dry diaphragm vacuum pump. PTFE contact surfaces, deep vacuum at with high flow. PTFE PUMP 115V 60HZ 1.5 TORR 64 LPM Free Air Displacement cfm (L min.) 2.3 Ult. Vac. Pressure, torr (mbar) 1.5 (2) Maximum Vacuum, in. Hg 29.9 Motor Horsepower - HP (wattS) 0.53 (390) Adjustable Vac J Gas Ballast No Tubing Nftftriftri. J.D. m. (mm) 1/4 (8) fntake (Exhaust) Thread NPT NW 16-1/4" MPT Weight Ibs. (kg) 40.3 (18.3) Overall Dimensions L x W x H in. (cm) 9 x 15 x 7 (22.8 x 38.1 x 17.8) Slip Weight, lbs. (kg) 49.8 (22.6) Snipping Carton Dimensions L x W x H in. (cm) 10.2 x 16.6 x 7.5 (26 x 42 x 19)
$6,241.55
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Polyscience Polyscience 7 Liter Heated Circulator
Polyscience 7 Liter Heated Circulator ***Note: This item has a lead time of 2-3 weeks depending on stock availability.*** Description: 200, 7 L Htg. Circulator Controller Type: Advanced Digital Display: 3.75" Touch-Pad LCD Connectivity: Ethernet, USB A & B, RS232/addressable RS485, External Temperature Probe Languages Supported: 4: French, German, Spanish, English Swivel 180 Rotating Controller: Yes Working Temperature Range °C: +10° to 200° Temperature Stability °C: ±0.01° Fluid Optimization/Specific Heat Tuning: Automatic and/or user-adjustable Temperature Calibration Capability: 1-point Working Access (L x W x D) (cm): 15.7 x 14.2 x 12.7 cm Pump Type: Pressure/Suction External Temperature Control Capability: Yes Flammability Class (DIN 12876-1): III (FL) Specifications Working Temperature Range °F Ambient + 20° to 392° Working Temperature Range °C Ambient +10° to 200° Reservoir Capacity (gallons) 1.85 Reservoir Capacity (liters) 7 Reservoir/Tank Material Stainless Steel Reservoir Cover Included DuraTop Yes LidDock Yes Working Access (L x W x D) (inches) 6.18 x 5.59 x 5 in Working Access (L x W x D) (cm) 15.7 x 14.2 x 12.7 cm Temperature Stability °F ±0.02° Temperature Stability °C ±0.01° Display 3.75" Touch-Pad LCD Display Resolution (Set) 0.01 Display Resolution (Read) 0.01 Pump Type Pressure/Suction Pump Speed Variable Process Connections 1/4" (F) NPT External Temperature Control Capability Yes Flammability Class (DIN 12876-1) III (FL) Coiling Coil Yes Over-Temperature Protection / Failsafe Heater Control Yes WhisperCool Environmental Control Technology Yes Low Liquid Level Protection Yes Reservoir Drain Yes Included Software PolyTemp Viewer, USB driver Maximum Ambient Temperature °F 95° Maximum Ambient Temperature °C 35° Overall Dimensions (L x W x H) (inches) 19.6 x 8.7 x 16.1 in Overall Dimensions (L x W x H) (cm) 49.9 x 22.1 x 40.9cm Environmental Compliance RoHS, WEEE Shipping Weight (pounds) 42.0 Shipping Weight (kilograms) 19.0 60Hz Part Number AD07H200-A11B Maximum Pressure (psi) 4.3 Maximum Pressure (bar) 0.30 Maximum Pressure Flow Rate (gpm) 5.30 Maximum Pressure Flow Rate (l/min) 20.1 Maximum Suction Flow Rate (gpm) 3.9 Maximum Suction Flow Rate (l/min) 14.7 Included Hardware Nylon hose adapters for 3/8", 1/4", and 3/16" Heater Wattage 1100 Electrical Requirements (VAC/Hz/Ph/A) 120/60/1/10 Regulatory Approvals ETL Certifications: Regulatory Approvals: ETL Operator's Manual
$4,606.31
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Polyscience Polyscience 7 Liter Refrigerated Circulator, -40°C
Polyscience 7 Liter Refrigerated Circulator, -40°C ***Note: This item has a lead time of 2-3 weeks depending on stock availability.*** Description: -40, 7 L Ref Circulator Controller Type: Advanced Digital Display: 3.75" Touch-Pad LCD Connectivity: Ethernet, USB A & B, RS232/addressable RS485, External Temperature Probe Languages Supported: 4: French, German, Spanish, English Swivel 180 Rotating Controller: Yes Working Temperature Range °C: -40° to 200° Temperature Stability °C: ±0.01° Fluid Optimization/Specific Heat Tuning: Automatic and/or user-adjustable Temperature Calibration Capability: 1- point Working Access (L x W x D) (cm): 15.7 x 14.2 x 12.7 cm Pump Type: Pressure/Suction External Temperature Control Capability: Yes Flammability Class (DIN 12876-1): III (FL) Specifications Working Temperature Range °F -40° to 392° Working Temperature Range °C -40° to 200° Nominal Cooling Capacity @ +20C (W) 360 Reservoir Capacity (gallons) 1.85 Reservoir Capacity (liters) 7 Reservoir/Tank Material Stainless Steel Reservoir Cover Included DuraTop Yes LidDock LidDock Cleanable Air Filter Yes Working Access (L x W x D) (inches) 6.18 x 5.59 x 5 in Working Access (L x W x D) (cm) 15.7 x 14.2 x 12.7 cm Temperature Stability °F ±0.02° Temperature Stability °C ±0.01° Display 3.75" Touch-Pad LCD Display Resolution (Set) 0.01 Display Resolution (Read) 0.01 Pump Type Pressure/Suction Pump Speed Variable Process Connections 1/4" (F) NPT External Temperature Control Capability Yes Flammability Class (DIN 12876-1) III (FL) Over-Temperature Protection / Failsafe Heater Control Yes Low Liquid Level Protection Yes WhisperCool Environmental Control Technology Yes Cool Command Refrigeration Technology Yes Reservoir Drain Yes Included Software PolyTemp Viewer, USB driver Maximum Ambient Temperature °F 95° Maximum Ambient Temperature °C 35° Overall Dimensions (L x W x H) (inches) 21.3 x 8.7 x 24.3 in Overall Dimensions (L x W x H) (cm) 54.1 x 22.1 x 61.7 cm Refrigerant R404A Environmental Compliance RoHS, WEEE Shipping Weight (pounds) 90.0 Shipping Weight (kilograms) 40.8 60Hz Part Number AD07R-40A11B Maximum Pressure (psi) 4.3 Maximum Pressure (bar) 0.30 Maximum Pressure Flow Rate (gpm) 5.30 Maximum Pressure Flow Rate (l/min) 20.1 Maximum Suction Flow Rate (gpm) 3.9 Maximum Suction Flow Rate (l/min) 14.7 Cooling Capacity @ -20°C (W) 115 Cooling Capacity @ 0°C (W) 250 Cooling Capacity @ +20°C (W) 360 Included Hardware Nylon hose adapters for 3/8", 1/4", and 3/16" Heater Wattage 1100 Electrical Requirements (VAC/Hz/Ph/A) 120/60/1/12 Regulatory Approvals ETL
$8,924.73
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Polyscience Polyscience 1.5 HP Chiller, Positive Displacement Pump; Air-Cooled
Polyscience 1.5 HP Chiller, Positive Displacement Pump; Air-Cooled Description: 1.5 HP Chiller, Positive Displacement Pump; Air-Cooled Display: LED Connectivity: Optional: RS232, RS485 Working Temperature Range °C: 5° to 35° Temperature Stability °C: ±0.5° Temperature Calibration Capability: 1-point Pump Type: Positive Displacement Key Features High capacity cooling for lasers, electron microscopes, and other laboratory applications Small footprint conserves floor space Displays temperature and pressure or flow rate simultaneously User-adjustable temperature, pressure, and flow rate alarms Simple operation and maintenance Air- or water-cooled Positive displacement (PD) or turbine (T) pump; other pump options also available Common Specifications Working Temperature Range °F 41° to 95° Working Temperature Range °C 5° to 35° Reservoir Capacity (gallons) 3.5 Reservoir Capacity (liters) 13.25 Reservoir/Tank Material Polyethylene Reservoir Cover Screw-on Cap Cleanable Air Filter Yes Cleanable Fluid Filter Yes Temperature Stability °F ±0.9° Temperature Stability °C ±0.5° Display LED Display Resolution (Read) 0.1 Pump Type Positive Displacement Process Connections 1/2" (F) NPT Over-Temperature Protection / Failsafe Heater Control Yes Reservoir Liquid Level Indicator Yes Reservoir Drain Yes Maximum Ambient Temperature °F 95° Maximum Ambient Temperature °C 35° Overall Dimensions (L x W x H) (inches) 30.5 x 19 x 26 in Overall Dimensions (L x W x H) (cm) 78 x 48 x 66 cm Compressor Size (HP) 1.5 Refrigerant R134a Shipping Weight (pounds) 340.0 Shipping Weight (kilograms) 154.0 Catalog Page Number 104 Hz (Hertz) 60 Hz Only 50 Hz Only Part Number 6860P46A270D 6850P46A270E Maximum Pressure (psi) 100.0 83.0 Maximum Pressure (bar) 6.90 5.72 Maximum Pressure Flow Rate (gpm) 3.50 2.90 Maximum Pressure Flow Rate (l/min) 13.2 11.0 Cooling Capacity @ +10°C (W) 4420 3715 Cooling Capacity @ +20°C (W) 5200 4371 Cooling Capacity @ +30°C (W) 5980 5027 Heater Wattage 1000 1000 Electrical Requirements (VAC/Hz/Ph/A) 230/60/1/21.1 240/50/1/20.8 Regulatory Approvals TUV CSA, CUL, CE
$15,402.36
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Welch Vacuum - Gardner Denver Welch CRVpro Direct Drive Rotary Vane Vacuum Pump CRVpro8
Welch CRVpro Direct Drive Rotary Vane Vacuum Pump CRVpro8 ***Note: This item has a possible 1-2 week lead time depending on stock availability*** Product Details The new CRVpro family of direct drive vacuum pumps offers increased reliability and longer service interval vs. other direct drive rotary vane vacuum pumps. The CRVpro family consumes up to 36% less oil than comparable pumps. Three features drive these benefits: Runs 10°C cooler than comparable pumps. Slows corrosion. Has a 40% larger oil capacity than comparable pumps. Dilutes aggressive chemicals. Has a chemical resistant coating in the oil case and pump module. Protects non-moving parts. The CRVpro family includes all the features you'd expect in a direct drive rotary vane pump: gas ballast, forced oil lubrication, anti-suckback mechanism and thermal overload protection. Suitable applications include freeze drying, degassing, vacuum ovens and concentrators. 3081-01 is wired for North American 115V, 60Hz operation. Includes North American line cord, vacuum inlet hose barb suitable for gum rubber hose from 5/8" to 3/4" ID, and a charge of oil. 3082-01 is wired for North American 230V, 60Hz operation. Includes 230V North American line cord, UK cord, and skuko cord, and a charge of oil. Direct drive pumps are not recommended for filtration, aspiration, drying electrophoresis gels, or other applications requiring sustained operation above 30 torr Specifications Application CRVpro8 Free Air Displacement @ 60 Hz, cfm (L/min) 5.6 (158) Free Air Displacement @ 50 Hz, m³/hr (L/min) 8 (133) Ultimate Pressure, torr (mbar) 5x10⁻⁴ (4x10⁻⁴) Noise Level, dBA 50 Motor Speed, RPM, @60Hz, @50Hz 1740 (1450) Motor Power, HP (kW) 0.4 (0.5) Oil Capacity, mL 1000 Connection Flanges NW 16 Inlet Hose Connection* 5/8" to 3/4" Weight, lbs (kg) 49.6 (22.5) Dimensions, LxWxH, in (mm) 18.2x6.1x9.1 (463x157x230)
$5,973.81
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Welch Vacuum - Gardner Denver Welch CRVpro Direct Drive Rotary Vane Vacuum Pump CRVpro6
Welch CRVpro Direct Drive Rotary Vane Vacuum Pump CRVpro6 ***Note: This item has a possible 1-2 week lead time depending on stock availability*** Product Details The new CRVpro family of direct drive vacuum pumps offers increased reliability and longer service interval vs. other direct drive rotary vane vacuum pumps. The CRVpro family consumes up to 36% less oil than comparable pumps. Three features drive these benefits: Runs 10°C cooler than comparable pumps. Slows corrosion. Has a 40% larger oil capacity than comparable pumps. Dilutes aggressive chemicals. Has a chemical resistant coating in the oil case and pump module. Protects non-moving parts. The CRVpro family includes all the features you'd expect in a direct drive rotary vane pump: gas ballast, forced oil lubrication, anti-suckback mechanism and thermal overload protection. Suitable applications include freeze drying, degassing, vacuum ovens and concentrators. 3061-01 is wired for North American 115V, 60Hz operation. Includes North American line cord, vacuum inlet hose barb suitable for gum rubber hose from 5/8" to 3/4" ID, and a charge of oil. 3062-01 is wired for North American 230V, 60Hz operation. Includes 230V North American line cord, UK cord, and skuko cord, and a charge of oil. Direct drive pumps are not recommended for filtration, aspiration, drying electrophoresis gels, or other applications requiring sustained operation above 30 torr.
$5,505.98
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Welch Vacuum - Gardner Denver Welch CRVpro Direct Drive Rotary Vane Vacuum Pump CRVpro4
Welch CRVpro Direct Drive Rotary Vane Vacuum Pump CRVpro4 ***Note: This item has a possible 1-2 week lead time depending on stock availability*** Product Details The new CRVpro family of direct drive vacuum pumps offers increased reliability and longer service interval vs. other direct drive rotary vane vacuum pumps. The CRVpro family consumes up to 36% less oil than comparable pumps. Three features drive these benefits: Runs 10°C cooler than comparable pumps. Slows corrosion. Has a 40% larger oil capacity than comparable pumps. Dilutes aggressive chemicals. Has a chemical resistant coating in the oil case and pump module. Protects non-moving parts. The CRVpro family includes all the features you'd expect in a direct drive rotary vane pump: gas ballast, forced oil lubrication, anti-suckback mechanism and thermal overload protection. Suitable applications include freeze drying, degassing, vacuum ovens and concentrators. 3041-01 is wired for North American 115V, 60Hz operation. Includes North American line cord, vacuum inlet hose barb suitable for gum rubber hose from 5/8" to 3/4" ID, and a charge of oil. 3042-01 is wired for North American 230V, 60Hz operation. Includes 230V North American line cord, UK cord, and skuko cord, and a charge of oil. 3046E-01 comes with an explosion proof motor. Conduit wiring installation required. No cord, plug, or switch provided. Direct drive pumps are not recommended for filtration, aspiration, drying electrophoresis gels, or other applications requiring sustained operation above 30 torr. Specifications Applications CRVpro4 Free Air Displacement @ 60 Hz, cfm (L/min) 2.8 (78) Free Air Displacement @ 50 Hz, m³/hr (L/min) 4 (67) Ultimate Pressure, torr (mbar) 5x10⁻⁴ (4x10⁻⁴) Noise Level, dBA 50 Motor Speed, RPM, @60Hz, @50Hz 1740 (1450) 1750 (1450) Motor Power, HP (kW) 0.4 (0.5) Oil Capacity, mL 1150 Connection Flanges NW 16 Inlet Hose Connection* 5/8" to 3/4" Weight, lbs (kg) 46.3 (21) Dimensions, LxWxH, in (mm) 18.2x6.1x9.1 (463x157x230)
$5,023.76
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Welch Vacuum - Gardner Denver Welch DryFast Collegiate Diaphragm Pump 2014
DryFast Collegiate Diaphragm Pump 2014 ***Note: This item has a possible 1-2 week lead time depending on stock availability*** Product Details Chemical Resistant Oil-Free Tuneable Vacuum Welch DryFastTM PTFE Diaphragm Vacuum Pumps enable precise vacuum control for organic evaporations with exclusive Advanced Vapor Management (AVM). Oil-Free, portable, chemical resistant, 1 head diaphragm design simplifies maintenance. Choose from seven dry PTFE vacuum pump models with flows up to 70 L / min and adjustable vacuum down to 2 Torr. Economical DryFastTM vacuum pumps are perfect for tough lab applications. Model Number 2014 Applications Vacuum Filtration, SPE, Rotary Evaporations (volatile solvents <80oC B.P., volume <2 liters), pumping harsh vapors & gases, general laboratory vacuum Type Laboratory Vacuum Pump Free Air Displacement cfm (l/min.) @60Hz 1.2(35) Free Air Displacement m3/hr (l/min.) @50Hz 1.75(29) Ultimate Pressure 40(53) Maximum Vacuum 28.3 Motor Horsepower (watts) 1/5(150) Adjustable Vac. / Gas Ballast Yes Tubing Needed 1/4(7) Intake Thread NPT M14(1/8) Overall Dimensions LxWxH in. (cm) 12x7.0x8.3 (30.5x 17.8x21.1) Ship Weight 19(8.6) Shipping Carton Dimensions LxWxH in. (cm) 21x14x15 (52x35x37) Adjustable Vacuum Knob
$3,009.94
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Welch Vacuum - Gardner Denver Welch WOB-L Pump 2581
Welch-L Pump 2581 Product Details Economical Oil Free Adjustable Vacuum Reliable WOB-L Piston pump is perfect for many common laboratory vacuum applications. Features: Vacuum to 5 Torr (29.8"Hg). Includes Vacuum Regulator and Gauge - simple to adjust and monitor vacuum level. Inlet Water Trap - float ball rises to seal off pump from accidental ingestion of water. Muffler quiets pump and filters discharge air. For use with dry or aqueous vapor applications only. Specifications Model 2581 Free Air Displacement @ 60 Hz, cfm (L/min) 3.5 (100) Ultimate Pressure, torr 5 Motor Power, HP (kW) at 60 Hz 1/3 (0.25) Inlet (Exhaust) Connection Thread NPT 3/8 Tubing Needed, I.D. in. (mm) 1/4 (7) Weight, lbs (kg) 24.5 (11.1) Dimensions, LxWxH, in (mm) 17x7.5x12 (430x420x190) 115V Order Number 2581B-50 / 2581B-24
$4,102.50 - $4,678.29
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Master Vapor Pumps MVP 6CFM 60 PSI Check Valve Replacement Kit
MVP 6CFM 60 PSI Check Valve Replacement Kit This is a replacement check valve kit for the MVP 6CFM Explosion Proof Recovery Pump. It comes with 4 replacement O-rings, 4 replacement screws and 4 replacement shims. All sales final
$129.55
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Hose Barb x MNPT Elbow
BVV™ Hose Barb x MNPT Elbow BVV™ brand stainless steel parts are made with precision 304 Grade Stainless Steel and are clean and free from burrs or debris. These fittings are Elbows with Hose Barb x NPT threads (National Pipe Taper) and will compress against other Female/Male NPT threads creating a tighter and tighter connection. All NPT threads require thread sealant to create a watertight and gas-tight seal between the threads. We recommend using Yellow Gas PTFE Tape because it is rated for gases and is UL listed and it is NOT recommended to use white PTFE tape because it is not rated for gas service. **NOTE: Pre-Taped option comes from BVV Pre-taped with Yellow UL Listed Gas PTFE Tape on the Male NPT threads ONLY for a +0.50c charge per male npt end. (JIC Threads DO NOT need to be taped.) Hose Barb connections will allow the user to connect flexible tubing to the Hose Barb and allow the user a variety of additional options for their extraction system such as circulating fluid through a jacketed base with silicone tubing or pull a vacuum with gum rubber tubing.
$10.80
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Vacuum Oven Vent Outlet Hole and Cap
Replacement outlet hole and cap for eco and neo oven vacuum release knobs. Note the vent release may require the fitting to be greased to hold vacuum.
$25.91
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Vacuum Oven Vent Release Stopper
Replacement Cap for eco and neo oven vacuum release knobs. Note the vent release may require the fitting to be greased to hold vacuum.
$13.67
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DuraChoice Stainless Steel (316) Mini Ball Valve - FxM NPT
DuraChoice Stainless Steel (316) Mini Ball Valve - FxM NPT Stainless Steel Mini Ball Valves (or miniature ball valves) are made for use in confined spaces. With a pressure rating of 1,000 PSI (water, oil or gas) and made out of SS 316, this line of valves outshines the rest of the mini ball valves available on this site.SS 316 (CF8M) body and ball - for extra strength and corrosion resistance Working on pressure of 1,000 PSI (WOG)Double seal system allows for flow can go in either directionHeavy duty Zinc Alloy handles (painted blue)Fast 1/4 turn open or closed operation Each valve individually tested for maximum safety Designation - Material Body - SS 316 (CF8M)Ball - SS 316 (CF8M)Bonnet - SS 316 (CF8M)Ball Seat - RPTFEValve Stem - SS 304/SS 316 Screw - SS 304 Lever - Aluminum Alloy O-Ring - NBR/Viton
$14.39 - $21.59
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KF-25 5 Way Manifold
This is a KF-25 5 Way manifold for the splitting of vacuum applications especially vacuum ovens connected to a single Vacuum Pump in an array. The material is 304 Stainless Steel with a 10^-7 torr @ 72F Vacuum Rating. (Note: Does not include KF-25 Clamp or O-ring these items are sold separately.)
$84.93
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KF-25 90 Degree Stainless Steel Elbow
KF-25 90 Degree Stainless Steel Elbow This 90-degree elbow has KF-25 connections on the end and is made out of high polish 304-grade stainless steel.
$50.38
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KF-25 Stainless Steel Spools
KF-25 Stainless Steel Spools This spool has KF-25 connections on the end and is made out of high polish 304-grade stainless steel.
$50.38 - $66.22
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KF High Vacuum Stainless Steel Flange x Female Joint Adapter
This unique adapter allows the user to adapt a KF25 or KF40 High Vacuum Flange fitting to a male ground joint glass fitting and it is made out of 304 stainless steel.
$60.46
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1/4" MNPT x 1/4" FNPT Stainless Steel Miniature Butterfly Handle Ball Valve -20 to 230C
1/4" MNPT x 1/4" FNPT Stainless Steel Miniature Butterfly Handle Ball Valve This 316 Stainless Steel Miniature Ball Valve features a stainless steel ball and Modified PTFE (Dyneon™ TFM1600) seats and packing on the inside. It has an overall length of 2-3/4" and has a 1/4 turn butterfly style valve. Technical Data Sheet Pressure Tested in compliance with API 598 Ninth Edition 2009: Sec.5 and Sec.6 Specification Standard: ASTM A351 Stem: 316 Stainless Steel Seat: PTFE Temperature Rating: -20C - 230C Pressure Rating: 1000 PSI (W.O.G. Water, Oil, Gas) Body: Cast 316 / CF8M Stainless Steel Cap: Cast 316 / CF8M Stainless Steel Ball Cast 316 / CF8M Stainless Steel Heat Treatment: Solutiom Annealed 1050-1100C Stem Packing: PTFE Thrust Washer: PTFE
$60.46
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150 Liter Collection Vessel with Internal Coil, Coned Bottom, and Baffle in Jacket
150 Liter Collection Vessel with Coned Bottom and Baffle in Jacket (Note: this unit comes bare and does not include any fittings besides the legs with casters.) ***Note: This item will ship via freight ONLY. This massive 304 Stainless Steel Jacketed vessel can hold up to 150L of water (~40 gallons) and multiple connections on top of the vessel and lid. The outer jacket has large ports to allow the circulation of heat transfer fluids and can also be used a vacuum jacket and can hold 21.5L or 5.68 gallons of fluid in the outer jacket. This unit also features 4 stainless steel legs with locking casters to allow the vessel to be moved around easily. This Vessel is rated to 100 PSI MAX
$4,606.31
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Pre-Built BIFLOW Manifold with BVV 316SS Full Bore Valves
Pre-Built BIFLOW Manifold with BVV 316SS Full Bore Valves (This part is fully assembled and Nitrogen Tested for Leaks at BVV™) This BVV™ BIFLOW Manifold is fully assembled and nitrogen tested for leaks at our warehouse. This manifold comes with 2 BVV 316SS Full Bore Valves with (2)1/4" 37° JIC Flares. This manifold is made out of 304 stainless steel with a Tri-Clamp end connection on either side. Key Features: Pre-built and Nitrogen Tested for Leaks BVV 316SS Full Bore Valves with 1/4" 37° JIC -40F to 450F 304 High Polish Stainless Steel 1.5" or 2" Tri-Clamp Connections Specifications Lid Material 304 Stainless Steel Valve Material 316SS Full Encapsulated PTFE Core - 1/4 Turn Flare Size (2) 1/4" 37° JIC Tri-Clamp Size(s) Selectable through Dropdown Nitrogen Tested Yes
$287.89 - $296.53
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Carbon Chemistry LTD Carbon Chemistry MM Clay (T-41)
Carbon Chemistry MM Clay (T-41) A powerful combination powder media that pairs acid-activated bentonite clay with activated carbon for maximum adsorption capability. With an optimized pH (3.0-3.5) and enhanced surface area, this dual-action media excels at removing pigments, heavy metals, oxidizers, and other contaminants. Perfect for increasing filtration capacity and achieving superior removal of natural plant pigments like chlorophyll, carotenoids, and anthocyanin compounds. Carbon Chemistry T-41™ Acid Activated Bleaching Clay - SDS
$215.92 - $7,629.21
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Carbon Chemistry LTD Carbon Chemistry MM Clay (T-5)
Carbon Chemistry MM Clay (T-5) A neutral powder media designed for best-in-class depth filtration and heavy metal removal. This thermally activated calcium bentonite clay provides superior support for separatory processes and excellent cation exchange capacity. The hardened clay structure and optimized surface chemistry make it ideal for both fine particulate removal and larger molecule capture. Carbon Chemistry T-5™ Neutral Activated Bentonite Clay - SDS Note: Bulk Bags and Bulk sizes are non-stocked items and will be ordered as needed and carry a several week lead time and require a forklift or pallet jack
$179.93 - $2,994.10
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Carbon Chemistry LTD Carbon Chemistry SD (Silica 60A)
Carbon Chemistry SD (Silica Gel 60A) A high-purity silica powder media optimized for precise separation and purification processes. This carefully engineered adsorbent provides exceptional control in chromatographic applications and targeted compound removal. Its optimized surface chemistry makes it particularly effective for polar compound separation and analytical-grade purification needs. This powder is used often in Column Chromatography as the stationary phase. It is mixed together with the solvent in the column making a slurry, then letting the solvent drain leaving the Silica sitting evenly in the column. Silica Gel helps space out or separate the fractions of compounds being passed through the stationary phase. Carbon Chemistry Silica Gel 60A, 200-400 MESH - SDS Note: Bulk Bags and Bulk sizes are non-stocked items and will be ordered as needed and carry a several week lead time and require a forklift or pallet jack
$194.33 - $3,742.63
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Carbon Chemistry LTD Carbon Chemistry MGS Activated (Mag-Sil PR)
Carbon Chemistry MGS Activated (MagSil-PR) Carbon Chemistry MagSil-PR® powder is some of the highest purity and quality MagSil-PR® on the market. Activated Magnesium Silicate (MagSil-PR®) lets you remove pesticides, improve color, and improve the clarity of your products, thanks to its powerful properties. Magnesium silicate will bind to polar, water-soluble compounds. Once these compounds have bonded with the MagSil, the solution can be filtered through a recommended, 20-micron mesh screen. Particle Mesh Size: 60/100 Carbon Chemistry MagSil-PR® - SDS
$345.47 - $10,364.21
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Carbon Chemistry LTD Carbon Chemistry ALX (Granular)
Carbon Chemistry ALX (Granular) Industrial-grade activated alumina for moisture removal and polar compound adsorption. 14x28 mesh granular media ideal for desiccant applications, gas drying, and process purification. Activated alumina can mainly be used as a filtration aid to remove fats, color, and polar compounds to produce a cleaner end product. Carbon Chemistry Activated Alumina - SDS Note: Bulk Bags and Bulk sizes are non-stocked items and will be ordered as needed and carry a several week lead time and require a forklift or pallet jack
$230.32 - $2,159.21
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Porcelain Buchner Funnel
Porcelain Buchner Funnel Buchner funnel Porcelain Labware is used in the chemistry laboratory. It has exceptional resistance to all reagents except hydrofluoric acid and is highly resistant to thermal shock while having a very low coefficient of expansion. To prevent thermal stress cracks on porcelain ware do not exceed a heating/cooling rate of 200°C per hour. To prolong the life of porcelain products: · Follow gradual heating/cooling rates · Use an oven or hot plate and an intermediate step when quicker heating/cooling rates are required · Avoid contact of heated ware with a cold surface · Carefully check labware prior to each use and do not use any product that appears defective With straight sides above the perforated plate. Thick stem. Sizes Available: 1000ml - 5.5" (~140mm) Diameter 2000ml - 7-3/8" (~187mm) Diameter
$97.88 - $141.07
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Chemglass Chemglass PTFE Thermocouple Adapters
PTFE Thermocouple Adapters CG-1048-A Chemglass PTFE adapters are for use with either 1/8” or 1/4” thermocouples. The adapter has an outer Viton® o-ring to form a grease-free, airtight seal between the adapter and the listed size of the outer joint. The compression nut works in conjunction with the upper Viton® to provide an airtight seal between the adapter and thermocouple. Adapter design permits use with CG-145 Keck clips.
$79.17
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Porcelain Buchner Funnel Filtration Kit
Porcelain Buchner Funnel Filtration Kit This BVV™ Porcelain Buchner Funnel Filtration Kit was designed for continuous filtration of oils by using our large diameter porcelain Buchner funnel by increasing filtration area. Depending on the capacity needed you may select the size of the conical flask through a dropdown for 2500ml or 5000ml capacities. This Kit Includes the Following: (1) 1.5 Gallon Cold Trap with 1/4" Barbs (1) Rubber Cones, Set of 9 (1) Porcelain Buchner Funnel - 1000ml(When 2500ml Conical Flask is selected) or 2000ml(When 5000ml Conical Flask is selected) (1) BVV4D 4CFM Two Stage Vacuum Pump (1) Conical Flask with Filtering Side Arm - 2500ml or 5000ml (5') Gum Rubber Vacuum Tubing (1) HVAC hose (1) Ashless Filter Paper - 180mm Qualitative - Grade 1
$503.82 - $755.72
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Neocision 10L Neocision Dual Head Short Path Distillation Kit
10L Neocision Dual Head Short Path Distillation Kit This unit carries a 2 day lead time. The 10L Neocision Distillation Turnkey Setup features our Dual 10L P5 Distillation Heads and USA made glass. Every component in this turnkey is made for precision, throughput, and repeatable results. Also included the Bullseye Precision Vacuum Gauge from Digivac which is the most rugged and dependable vacuum gauge on the market. You will also receive a Dual Dewar Style Glass Cold Trap to keep all volatiles and solvents out of your vacuum system. This Turnkey Setup gives you everything needed to perform distillation at the highest level. The 10L Neo Kit Includes: 10L Neocision Kit with Dual P5 Distillation Heads KF-25 90 Degree Long Manifold and Metering Valve Dual Dewar Style Glass Cold Trap Bullseye Precision Vacuum Gauge Distillation Quick Start Guide This guide gives basic quick start instructions for distillation systems. It is intended to provide a starting point for learning the process. Parameters should be adjusted to suit specific needs, Before beginning distillation, ensure the following steps have been taken: Vacuum Pump is in good working order. Pump should be run against dry load to allow internals to warm up. Oil should be clear. Cloudy or dark oil should be changed. All glass components are in good working order and ready to be assembled A winterization and degassing procedure has been done to prepare oil for distillation Once all three of these steps have been completed, you are ready to begin distilling. Begin by placing stir bar in boiling flask and then load your material. This should be done using a funnel. A small amount of alcohol in the oil will give it a thinner consistency making it easier to transfer. Assemble all glassware and ensure each joint is properly greased. Do not use too much, as the vacuum pressure might pull some grease into the system. To ensure a full seal, spread grease in a circular motion by rotating glassware Attach circulator to condenser and set temperature to 50C. Allow circulator to reach temperature before beginning distillation. Connect vacuum pump to manifold. The manifold will allow you to isolate each individual component as well as let atmosphere into and out of the system. Connect receiving cow to cold trap. Connect cold trap to manifold. Connect vacuum gauge to manifold. At this point, ensure all connections are correct. Also ensure receiving cow is positioned to collect the first fraction in the far-left receiving flask. Circulator should be at its set temperature. Turn on vacuum pump to begin process. Turn on heat and set to 60C. Vacuum pump will begin to pull down and temperature will begin to rise. Watch the gauge to monitor vacuum pressure and stability. Start stir slower and increase speed with temperature. Once you are close to 60C, increase the temperature 20 degrees. Continue to raise the heat incrementally in 20-degree steps, increasing the set temperature as you near your set point. Increase temperatures incrementally until you reach 220C. You will see your first fraction somewhere between 180C and 190C or slightly before. This is the “heads” fraction. You will move to your second fraction when you see an increased reaction in the head, a slight color change toward golden, as well as a thickening of distillate. When this fraction hits, allow the distillate to “self-clean” the head for a minute or two then, rotate the cow to the middle receiving flask. Collect your “main body” fraction. You will see temps between 190-220C during this fraction. Continue to increase stirring speed as necessary. Reaction in the head may vary but it should never stop. As fluid level in the boiling flask decreases, increase stir speed. The final “tails” fraction is a mixture of the first and second fractions and should be saved for re-distillation later. Ideally, you want to turn the cow to the final flask before the tails fraction hits. The “tails” fraction has an obvious color change and will be darker than the “main body” fraction. You will see temps between 200-250C during this fraction. As fluid level in the boiling flask decreases even more, set stirring RPM higher (1000+ RPM). You may need to compensate with a bit more heat to finish of the final fraction as well. Once process is complete, stop heat, stop stir, and stop vacuum. Let atmosphere into the system. Be sure to properly store your distillate as exposure to air and light can cause oxidation. ***Note: This entire setup will ship via motor freight.*** *Notice to Customers: All units are inspected for broken glassware or parts before leaving BVV™. If the unit arrives damaged (this does not include minor imperfections or scuffs in glassware), the customer MUST contact BVV™ within 72 hours from carrier delivery to file a claim. If the customer DOES NOT contact BVV™ within 72 hours from carrier delivery, then BVV™ cannot issue any replacement(s) or compensation for the item; a new purchase will need to be made for a replacement. BVV™ is not responsible for the failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail, which can cause bodily harm or damage to the surrounding area.
$12,235.52
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Neocision 10L Neocision Dual Head Short Path Distillation Turnkey System
10L Neocision Dual Head Short Path Distillation Turnkey System This unit carries a 2 day lead time. The 10L Neocision Distillation Turnkey Setup features our Dual 10L P5 Distillation Heads and USA made glass. Every component in this turnkey is made for precision, throughput, and repeatable results. Also included is a KF-25 Vacuum Pump giving you extreme power and depth with a long lifespan, the Bullseye Precision Vacuum Gauge from Digivac which is the most rugged and dependable vacuum gauge on the market, and a BVV 19L Heated Circulator for maximum condensation of vapors. You will also receive a Dual Dewar Style Glass Cold Trap to keep all volatiles and solvents out of your vacuum system. This Turnkey Setup gives you everything needed to perform distillation at the highest level. The Premium Turnkey Kit Includes: 10L Neocision Kit with Dual P5 Distillation Heads KF-25 2 Meter Bellows Dual Dewar Style Glass Cold Trap Bullseye Precision Vacuum Gauge BVV 19L Heated Circulator Your Choice Of KF-25 Vacuum Pump Distillation Quick Start Guide This guide gives basic quick start instructions for distillation systems. It is intended to provide a starting point for learning the process. Parameters should be adjusted to suit specific needs, Before beginning distillation, ensure the following steps have been taken: Vacuum Pump is in good working order. Pump should be run against dry load to allow internals to warm up. Oil should be clear. Cloudy or dark oil should be changed. All glass components are in good working order and ready to be assembled A winterization and degassing procedure has been done to prepare oil for distillation Once all three of these steps have been completed, you are ready to begin distilling. Begin by placing stir bar in boiling flask and then load your material. This should be done using a funnel. A small amount of alcohol in the oil will give it a thinner consistency making it easier to transfer. Assemble all glassware and ensure each joint is properly greased. Do not use too much, as the vacuum pressure might pull some grease into the system. To ensure a full seal, spread grease in a circular motion by rotating glassware Attach circulator to condenser and set temperature to 50C. Allow circulator to reach temperature before beginning distillation. Connect vacuum pump to manifold. The manifold will allow you to isolate each individual component as well as let atmosphere into and out of the system. Connect receiving cow to cold trap. Connect cold trap to manifold. Connect vacuum gauge to manifold. At this point, ensure all connections are correct. Also ensure receiving cow is positioned to collect the first fraction in the far-left receiving flask. Circulator should be at its set temperature. Turn on vacuum pump to begin process. Turn on heat and set to 60C. Vacuum pump will begin to pull down and temperature will begin to rise. Watch the gauge to monitor vacuum pressure and stability. Start stir slower and increase speed with temperature. Once you are close to 60C, increase the temperature 20 degrees. Continue to raise the heat incrementally in 20-degree steps, increasing the set temperature as you near your set point. Increase temperatures incrementally until you reach 220C. You will see your first fraction somewhere between 180C and 190C or slightly before. This is the “heads” fraction. You will move to your second fraction when you see an increased reaction in the head, a slight color change toward golden, as well as a thickening of distillate. When this fraction hits, allow the distillate to “self-clean” the head for a minute or two then, rotate the cow to the middle receiving flask. Collect your “main body” fraction. You will see temps between 190-220C during this fraction. Continue to increase stirring speed as necessary. Reaction in the head may vary but it should never stop. As fluid level in the boiling flask decreases, increase stir speed. The final “tails” fraction is a mixture of the first and second fractions and should be saved for re-distillation later. Ideally, you want to turn the cow to the final flask before the tails fraction hits. The “tails” fraction has an obvious color change and will be darker than the “main body” fraction. You will see temps between 200-250C during this fraction. As fluid level in the boiling flask decreases even more, set stirring RPM higher (1000+ RPM). You may need to compensate with a bit more heat to finish of the final fraction as well. Once process is complete, stop heat, stop stir, and stop vacuum. Let atmosphere into the system. Be sure to properly store your distillate as exposure to air and light can cause oxidation. ***Note: This entire setup will ship via motor freight.*** ***Note: All units are inspected for broken glass or parts before unit is shipped. If unit arrives damaged or glass is broken (this does not include minor imperfections or scuffs in glassware), Customer MUST contact BVV™ within 3 days of delivery to file a claim and receive a replacement part. If customer DOES NOT contact BVV™ within 3 days of delivery responsibility for replacement parts falls on the customer and they must pay for replacement pieces.*** ***Glassware Safety Disclaimer: BVV™ is not responsible for failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail causing bodily harm or damage to the surrounding area.***
$19,073.02 - $25,550.65
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50L Double Jacketed Glass Reactor
The Double Jacketed Glass Reactors are ideal for reaction applications involving extreme temperatures. They include an inner jacket for cooling or heating and an outer jacket for vacuum insulation. The outer jacket also alleviates moisture buildup so you can always see exactly what's happening inside the system. Jacketed Reaction vessels are used for synthetic reaction of different types of materials in a controlled temperature and vacuum environment. Reaction Vessels can be used as an all in one tool for extraction, refinement, distillation, and homogenization. Consisting of an inner vessel with either one or two jackets, a reactor uses temperature differentials created by a chiller to change it's internal environment. Reaction vessels also operate under vacuum making them ideal for any atmospheric sensitive applications. They can be made out of glass or stainless steel and range in volume from 1L to 100L+. To run a reaction vessel most efficiently, you will need a chiller capable of bringing the internal temperature of the vessel to an extreme low, a chemical resistant vacuum pump, and a cold trap to catch any vapors that might pass through the condenser during operation. BVV™ Jacketed Reaction vessels are simple, cost-effective, and durable machines that allow you to process material quickly and efficiently. BVV 20L and 50L Glass Reactor Diagram Specifications: Glass Material: GG-17 High Borosilicate Glass Internal Volume: 50L 10.5L Jacket Capacity Shelf Material: Aluminum Alloy Homogenizer Power: 110V/60Hz Homogenizer Speed: 0-400 RPM Digital Homogenizer Control Digital temperature probe readout included Double Jacket 3/4" Jacket Connections 1/4" and 3/8" Vacuum Connections Length: 24 in. Width: 30 in. Height: 90 in. Does not include: Chiller, Vacuum System, Cold Trap Requires Assembly ***Note: All units are inspected for broken glass or parts before unit is shipped. If unit arrives damaged or glass is broken (this does not include minor imperfections or scuffs in glassware), Customer MUST contact BVV™ within 3 days of delivery to file a claim and receive a replacement part. If customer DOES NOT contact BVV™ within 3 days of delivery responsibility for replacement parts falls on the customer and they must pay for replacement pieces.*** ***Disclaimer: This unit is intended for LEGAL purposes only, to be used in accordance with local laws and ordinances. Use only in WELL VENTILATED AREAS!*** ***Glassware Safety Disclaimer: BVV™ is not responsible for failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail causing bodily harm or damage to the surrounding area.***
$7,197.37 - $7,773.15
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20L Double Jacketed Glass Reactor
The Double Jacketed Glass Reactors are ideal for reaction applications involving extreme temperatures. They include an inner jacket for cooling or heating and an outer jacket for vacuum insulation. The outer jacket also alleviates moisture buildup so you can always see exactly what's happening inside the system. Jacketed Reaction vessels are used for synthetic reaction of different types of materials in a controlled temperature and vacuum environment. Reaction Vessels can be used as an all in one tool for extraction, refinement, distillation, and homogenization. Consisting of an inner vessel with either one or two jackets, a reactor uses temperature differentials created by a chiller to change it's internal environment. Reaction vessels also operate under vacuum making them ideal for any atmospheric sensitive applications. They can be made out of glass or stainless steel and range in volume from 1L to 100L+. To run a reaction vessel most efficiently, you will need a chiller capable of bringing the internal temperature of the vessel to an extreme low, a chemical resistant vacuum pump, and a cold trap to catch any vapors that might pass through the condenser during operation. BVV™ Jacketed Reaction vessels are simple, cost-effective, and durable machines that allow you to process material quickly and efficiently. BVV 20L and 50L Glass Reactor Diagram Specifications: Glass Material: GG-17 High Borosilicate Glass Internal Volume: 20L 6.75L Jacket Capacity Shelf Material: Aluminum Alloy Homogenizer Power: 110V/60Hz Homogenizer Speed: 0-400 RPM Digital Homogenizer Control Digital temperature probe readout included Double Jacket 3/4" Jacket Connections 1/4" and 3/8" Vacuum Connections Length: 20 in. Width: 30 in. Height: 76 in. Does not include: Chiller, Vacuum System, Cold Trap Requires Assembly *Notice to customers: All units are inspected for broken glassware or parts before leaving BVV™. If the unit arrives damaged (this does not include minor imperfections or scuffs in glassware), the customer MUST contact BVV™ within 72 hours from carrier delivery to file a claim. If the customer DOES NOT contact BVV™ within 72 hours from carrier delivery, then BVV™ cannot issue any replacement(s) or compensation for the item; a new purchase will need to be made for a replacement. ***Disclaimer: This unit is intended for LEGAL purposes only, to be used in accordance with local laws and ordinances. Use only in WELL VENTILATED AREAS!*** ***Glassware Safety Disclaimer: BVV™ is not responsible for failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail causing bodily harm or damage to the surrounding area.***
$6,477.63 - $7,053.42
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304 Stainless Steel Carboy
304 Stainless Steel Carboy This 304 stainless steel carboy is a very durable upgrade from plastic carboy's and allows it to be cleaned and sterilized much better. This unit comes with (2) 1/4" FNPT ports and (1) 6" Tri-Clamp top port and heavy-duty welded handles. For Storage and Vacuum Use Only Max Pressure 10 Psi ONLY (Note: This unit comes bare and does not include any fittings.)
$863.68 - $1,295.53
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Hemispherical Tri-Clamp Reducer with Welded Ring Stand
Hemispherical Tri-Clamp Reducer with Welded Ring Stand Hemispherical Tri-Clamp Reducer with Welded Ring Stand allows the user to create a larger drain/filtering system allowing more weight to be supported with the ring stand. These reducers have 2 connection points with Tri-Clamp on the top and FNPT drain port on the bottom. Specifications: Material: 304 Stainless Steel High Polish Interior Standard: 3A Connection Types: 4" Tri-Clamp x 1/4" FNPT 6" Tri-Clamp x 1/2" FNPT 8" Tri-Clamp x 1/2" FNPT 10" Tri-Clamp x 1/2" FNPT 12" Tri-Clamp x 1/2" FNPT
$323.88 - $618.97
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3 Neck Heavy Wall Round Bottom Flask - USA Made
3 Neck Heavy Wall Round Bottom Flask - USA Made This USA made 3 Heavy Wall Round Bottom Flask is designed specifically for Short Path Distillation units and allows dual distillation heads and cows so there is more vapor flow from the heating mantle. These flasks are made of heavy walled borosilicate. Specifications Material Heavy Wall Borosilicate Sizes Available: 10000ml - 24/40 Center Joint and 34/45 Side Joints 20000ml - 24/40 Center Joint and 45/50 Side Joints MADE in the USA *Notice to customers: All units are inspected for broken glassware or parts before leaving BVV™. If the unit arrives damaged (this does not include minor imperfections or scuffs in glassware), the customer MUST contact BVV™ within 72 hours from carrier delivery to file a claim. If the customer DOES NOT contact BVV™ within 72 hours from carrier delivery, then BVV™ cannot issue any replacement(s) or compensation for the item; a new purchase will need to be made for a replacement. **Glassware Safety Disclaimer: BVV™ is not responsible for failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail causing bodily harm or damage to the surrounding area.**
$575.79 - $863.68
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UL Listed Pro Series Vacuum Pump Complete Service Kit
Pro Series Vacuum Pump Complete Service Kit This is a compelete vacuum pump service kit for the BVV™ Pro Series 5.6, 11.3, 21.2CFM line of vacuum pumps and allows the user to completely rebuild their pump and keep it running like new.
$460.63 - $503.82
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