Items with a Max sale discount of 0%
0% Sale Discount
Chemglass Adapter, Bushing
Chemglass Adapter, Bushing Chemglass Bushing style adapter having a lower standard taper inner joint and outer joint ground in the bore of the adapter. Adapters having a 10/18 or 10/30 outer member in the bore are used to insert thermometers into apparatus. __________________________________________________________________________________________ ***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.*** ***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
$53.00
Adapter 8890069 M24x1.5 m to M30x1.5 f
Adapter 8890069 M24x1.5 m to M30x1.5 f 2 Adapters M24x1.5 male to M30x1.5 female
$541.00
Adapters M24x1.5 female to NPT 1/2" male
Adapters M24x1.5 female to NPT 1/2" male 2 Adapters M24x1.5 female to NPT 1/2″ male
$373.00
STM LaunchPad Weighing Module
STM LaunchPad Weighing Module The First & Only Modular, Commercial Pre-Roll Scale The LaunchPad Weigher is the first and only modular, commercial pre-roll scale which weighs 72-rolls at once and in seconds. The LaunchPad functions as a stand alone machine or better as part of STM Canna’s complete pre-roll workflow system. 72 Rolls Weighed Simultaneously The LaunchPad commercial scale gives your staff the ability to view the weight of each individual pre-roll and identify rejects in an instant with a color-coded display, dramatically increasing production speed and output With this new innovative module, your operation will greatly benefit from reduced labor hours, the ability to maintain precise quality control over the weight of your pre-rolls and maximize profits attributed to under or over filling. Customizable Parameters Target Weight Paper weight % Tolerance View of Min. & Max. Weight by Grams Renowned Service & Support 1-Year Parts & Labor Warranty Dedicated STM Client Services Team Exclusive Client Portal with Library of Training Videos and Information Launchpad User Manual Launchpad Technical Specifications Launchpad Brochure
$42,995.00
The Prodigy
THE PRODIGY Description: 24CFM Single Stage 7.5HP 220V – 3 Phase (Single Phase Inverters Available) Inlet: 1.5” Triclamp Outlet: 1.5” Triclamp Weight: 750lbs Max bearing pressure: 250psi Max discharge pressure: 150psi Max delta pressure: 10x Many factors go into the rate of recovery on an extraction system. Not only is the pump size important, but also the evaporation rate of the solvents. If the solvents aren’t able to evaporate fast enough there will be nothing for the pump to transfer. Larger pumps have the capacity to transfer solvents faster, but only if the solvents are in an evaporated state. Because these pumps are so large they have a tendency to outpace the evaporation rate of most extraction systems. This lowers the inlet pressure (and the collection vessel pressures) which aids in speeding up the evaporation rate. Propane weighs less per gallon than butane (4.2 vs 4.9), however the vapor pressure is higher which generally results in a higher inlet pressure, and therefor a faster recovery per pound of gas used. These pumps are sized large enough to recover on the largest extraction systems with the highest evaporation rates, or can be used on multiple extraction systems at one time. For example this pump was used to recover 5lbs of butane on a 6” vessel with 70° of temperature. The process took ~12 minutes. However increasing the process to 3x 6” vessels with 5lbs of butane each(15lbs total), the process also took ~12 minutes. This is because the pump exceeds the evaporation rate of a single 6” column at 70° by more than 3x. Because the pump exceeds the evaporation rate a vacuum is pulled against the collection vessel, which in turn speeds up the evaporation rate. However once vacuum equilibrium is achieved, increasing the pump size will not speed up the process, but will allow for larger (or multiple) processes to be preformed in the same time frame. The next tab shows a table of recovery capacity with regards to inlet pressures. Higher inlet pressures result in substantially faster recovery times. Higher inlet pressures can be achieved by evaporating solvents faster by higher temperatures in collection vessels, or more surface area in collection vessels (larger diameter vessels, falling film, etc). Inlet Pressure LBS per Minute Butane LBS per Minute Propane -13 psi (Vacuum) .48 .35 -10 psi (Vacuum) .96 .7 -7 psi (Vacuum) 1.92 1.4 -4 psi (Vacuum) 2.88 2.09 0 psi 3.84 2.79 15 psi 7.69 5.59 29 psi 11.53 8.38
$14,999.99
The Prophet
The Prophet The Prophet is the industries largest and fastest LPG recovery pump. This mammoth pumps at 28 cfm (3.33x the size of a Corken T91) while running quietly at only 68db. Unlike the other recovery pumps available on the market this pump features a dual stage design which allows for greater delta pressure between the inlet and outlet of the pump. This allows for higher output pressures (propane) and lower inlet pressures (vacuum). The ability to pull vacuum against the inlet lowers the boiling point of the recovering solvents allowing them to vaporize faster, speeding up your recovery times. In addition, this pump can be used to pull initial vacuum in the extraction system. 28CFM Dual Stage 10HP Inlet: 1.5” Triclamp Outlet: 1.5” Triclamp Weight: 865lbs Max bearing pressure: 250psi Max discharge pressure: 150psi Max delta pressure: 10x Many factors go into the rate of recovery on an extraction system. Not only is the pump size important, but also the evaporation rate of the solvents. If the solvents aren’t able to evaporate fast enough there will be nothing for the pump to transfer. Larger pumps have the capacity to transfer solvents faster, but only if the solvents are in an evaporated state. Because these pumps are so large they have a tendency to outpace the evaporation rate of most extraction systems. This lowers the inlet pressure (and the collection vessel pressures) which aids in speeding up the evaporation rate. Propane weighs less per gallon than butane (4.2 vs 4.9), however the vapor pressure is higher which generally results in a higher inlet pressure, and therefor a faster recovery per pound of gas used. These pumps are sized large enough to recover on the largest extraction systems with the highest evaporation rates, or can be used on multiple extraction systems at one time. For example this pump was used to recover 5lbs of butane on a 6” vessel with 70° of temperature. The process took ~12 minutes. However increasing the process to 3x 6” vessels with 5lbs of butane each(15lbs total), the process also took ~12 minutes. This is because the pump exceeds the evaporation rate of a single 6” column at 70° by more than 3x. Because the pump exceeds the evaporation rate a vacuum is pulled against the collection vessel, which in turn speeds up the evaporation rate. However once vacuum equilibrium is achieved, increasing the pump size will not speed up the process, but will allow for larger (or multiple) processes to be preformed in the same time frame. The next tab shows a table of recovery capacity with regards to inlet pressures. Higher inlet pressures result in substantially faster recovery times. Higher inlet pressures can be achieved by evaporating solvents faster by higher temperatures in collection vessels, or more surface area in collection vessels (larger diameter vessels, falling, etc). Inlet Pressure LBS per Minute Butane LBS per Minute Propane -13 psi (Vacuum) .56 .41 -10 psi (Vacuum) 1.12 .81 -7 psi (Vacuum) 2.24 1.63 -4 psi (Vacuum) 3.36 2.44 0 psi 4.49 3.26 15 psi 8.97 6.52 29 psi 13.46 9.77
$17,999.99
3/4" Insulon Vacuum Jacketed Hose, Low Pressure
3/4" Insulon Vacuum Jacketed Hose, Low Pressure Technical Specifications: Hose Size 3/4” ID DN (ISO 10380) 20 Product Category LP (Low Pressure) Inner Hose ID 0.787” Tube Stub OD 0.750” Tube Stub Thickness 0.049” Outer Hose OD 1.62” Static Bend Radius 4.1” Dynamic Bend Radius 11.81” Lengths 2 – 20’ Operating Temperature -270°C to 900°C (-454°F to 1652°F) Material 316L stainless steel Maximum Allowable Working Pressure (MAWP) by Temperature: Product Category Hose Size Max Temperature (C) Max Temperature (F) MAWP (PSI) Low Pressure (LP) 3/4" ID 21 70 43 Low Pressure (LP) 3/4" ID 66 150 40 Low Pressure (LP) 3/4" ID 93 200 38 Low Pressure (LP) 3/4" ID 121 250 37 Low Pressure (LP) 3/4" ID 149 300 36 Low Pressure (LP) 3/4" ID 166 330 35 Low Pressure (LP) 3/4" ID 204 400 34 Low Pressure (LP) 3/4" ID 232 450 34 Low Pressure (LP) 3/4" ID 260 500 33 Low Pressure (LP) 3/4" ID 316 600 33 Low Pressure (LP) 3/4" ID 371 700 33 Low Pressure (LP) 3/4" ID 427 800 32 Low Pressure (LP) 3/4" ID 482 900 32 Low Pressure (LP) 3/4" ID 538 1000 31 Low Pressure (LP) 3/4" ID 593 1100 29 Low Pressure (LP) 3/4" ID 649 1200 26 Low Pressure (LP) 3/4" ID 704 1300 24 Low Pressure (LP) 3/4" ID 760 1400 21 Low Pressure (LP) 3/4" ID 816 1500 17 Low Pressure (LP) 3/4" ID 899 1650 11
$289.00 - $1,375.00
You have seen 55 out of 55 products