Osmose à haut brix
Mar 18 Juil - 8:13
Depuis quelques années, les osmoses à haut Brix sont disponibles. Quelle est la durée de vie des membranes, comparé à une osmose "traditionnelle"???
- Milan29
- Dimensions et type d'évaporateur : Cantin 2 x 5
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Re: Osmose à haut brix
Mar 25 Juil - 14:49
Vous allez avoir pas mal de réponses bientôt, Lapierre s'est associé avec l'université du Vermont pour plein d'études sur le sujet, en fournissant les équipements.
Copie d'un texte du Dr Perkins publié sur Sugarbush.info:
Lapierre / UVM PMRC Research Collaboration
Lapierre Equipment U.S.A. and UVM Collaborate on Maple Technology
Maple Equipment Company helps advance maple research and development
Swanton, VT— March 20, 2017 — Lapierre U.S.A. of Swanton, Vermont, and the University of Vermont Proctor Maple Research Center in Underhill Center, Vermont, announce a research collaboration to investigate new methods of maple sap processing.
Background
Lapierre Equipment is an international leader in the production of maple-related technology. The company has introduced several innovations in the maple industry over the past 40 years. In 2016, they released the HYPERBRIX Reverse Osmosis (RO) and evaporator system in Canada and are now making the system available in the U.S. Most RO systems currently in use in the maple industry can concentrate sap from about 2 to 8-15% sugar. The new Lapierre HYPERBRIX RO is a leap forward in that it allows the concentration of maple sap up to 35% sugar prior to evaporation, representing a huge savings in time and energy. Whereas boiling 40 gals of sap is required to make a gallon of syrup traditionally, with the Lapierre HYPERBRIX RO and evaporator, only 2.2 gal of concentrate is needed to produce a gallon of syrup, producing large energy and time savings compared to boiling sap alone.
“It was a natural progression for RO’s to go higher sugar concentration. We chose to stop at 35%, which is close to 95% of the water removed from the sap. The reason for this is simple –some amount of boiling is necessary to develop good flavor. We have completely redesigned the evaporator to optimize performance while maintaining excellent caramelization”. said Carl Lapierre, Director of R&D at Lapierre U.S.A.
The University of Vermont Proctor Maple Research Center (PMRC), established in 1946, is renowned for its work on the science and application of technology in the maple industry. Previous work has focused on the effects of RO processing on syrup chemistry and flavor.
Impact
As part of this collaboration, Lapierre Equipment U.S.A. will supply UVM with a state-of-the-art RO machine, specialized evaporator, and syrup processing accessories for use in research and in UVM’s 5,000 tap maple sugaring operation in Underhill Center.
“This collaboration will put UVM solidly in the forefront of the technology of maple sap processing,” said Timothy Perkins, Research Professor and Director of the UVM PMRC. “We look forward to several years of research on this new system to help push the curve ahead a little more.” In a 2016 study, UVM PMRC researchers found that syrup produced with high RO concentration produced syrup that tasted as good that produced at a lower level of RO concentration, indicating that this new technology could produce further savings in time and energy for maple producers.
Copie d'un texte du Dr Perkins publié sur Sugarbush.info:
Lapierre / UVM PMRC Research Collaboration
Lapierre Equipment U.S.A. and UVM Collaborate on Maple Technology
Maple Equipment Company helps advance maple research and development
Swanton, VT— March 20, 2017 — Lapierre U.S.A. of Swanton, Vermont, and the University of Vermont Proctor Maple Research Center in Underhill Center, Vermont, announce a research collaboration to investigate new methods of maple sap processing.
Background
Lapierre Equipment is an international leader in the production of maple-related technology. The company has introduced several innovations in the maple industry over the past 40 years. In 2016, they released the HYPERBRIX Reverse Osmosis (RO) and evaporator system in Canada and are now making the system available in the U.S. Most RO systems currently in use in the maple industry can concentrate sap from about 2 to 8-15% sugar. The new Lapierre HYPERBRIX RO is a leap forward in that it allows the concentration of maple sap up to 35% sugar prior to evaporation, representing a huge savings in time and energy. Whereas boiling 40 gals of sap is required to make a gallon of syrup traditionally, with the Lapierre HYPERBRIX RO and evaporator, only 2.2 gal of concentrate is needed to produce a gallon of syrup, producing large energy and time savings compared to boiling sap alone.
“It was a natural progression for RO’s to go higher sugar concentration. We chose to stop at 35%, which is close to 95% of the water removed from the sap. The reason for this is simple –some amount of boiling is necessary to develop good flavor. We have completely redesigned the evaporator to optimize performance while maintaining excellent caramelization”. said Carl Lapierre, Director of R&D at Lapierre U.S.A.
The University of Vermont Proctor Maple Research Center (PMRC), established in 1946, is renowned for its work on the science and application of technology in the maple industry. Previous work has focused on the effects of RO processing on syrup chemistry and flavor.
Impact
As part of this collaboration, Lapierre Equipment U.S.A. will supply UVM with a state-of-the-art RO machine, specialized evaporator, and syrup processing accessories for use in research and in UVM’s 5,000 tap maple sugaring operation in Underhill Center.
“This collaboration will put UVM solidly in the forefront of the technology of maple sap processing,” said Timothy Perkins, Research Professor and Director of the UVM PMRC. “We look forward to several years of research on this new system to help push the curve ahead a little more.” In a 2016 study, UVM PMRC researchers found that syrup produced with high RO concentration produced syrup that tasted as good that produced at a lower level of RO concentration, indicating that this new technology could produce further savings in time and energy for maple producers.
- Keven belanger
- Dimensions et type d'évaporateur : 3.5x12 dominion a l'huil
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Re: Osmose à haut brix
Mar 25 Juil - 20:17
encore une fois dans la grosse erabliere pres de chez mois il en on depuis quelque anne des séparateur a haux brix et ca a l'air de tres bien aller mais je vous dirait que la première anne ils ont eu énormément de difficulté avec les lavage les produit de lavage n’était vraiment pas assez efficace et la machine devait laver aussi longtemps qu'elle séparait et avec 105000 ent c’était impensable de perdre autant de temps mais ca c'est ajuster et ca va mieux
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