Optimization of separation for viscous suspensions

US 9,745,333 B2
Filed: 07/31/2014
Issued: 08/29/2017
Est. Priority Date: 01/21/2009
Status: Active Grant

First Claim

Patent Images

1. A method to isolate carbohydrates from a viscous plant material, said process comprising:

contacting the viscous plant material with a diluent in an amount sufficient to reduce the viscosity of the viscous plant material and form a continuous stream of diluted plant material, wherein the diluent is contained in a diluent vessel and the viscous plant material is contained in a starting source material vessel;

flowing the diluted plant material into a recirculation loop of a first cross-flow filter apparatus;

diafiltering the diluted plant material with sufficient diafiltration buffer retained in a buffer reservoir so as to recover the desired yield of the carbohydrates by passing said carbohydrates into the first permeate fluid;

flowing the first permeate fluid containing the carbohydrates to an end product vessel;

flowing out the first retentate solution from the recirculating liquid of the first cross-flow filter into a second cross-flow filter unit, wherein the flow rate of the first retentate solution is at the same flow rate as the diluted plant material being fed into the recirculation loop of the first cross-flow filter apparatus;

diafiltering the flow of retentate into the second cross-flow filter unit with sufficient diafiltration buffer retained in the buffer reservoir so as to recover the desired yield of the carbohydrates by passing said carbohydrates into the second permeate fluid;

flowing the second permeate fluid containing the target substance to the end product vessel;

concentrating the first and second retentate fluid by flowing same to a third cross-flow filter apparatus communicatively connected with the second cross-flow filter unit, wherein the volume of the third retentate fluid is reduced to the approximate volume of the undiluted plant material or less thereby forming a waste stream for further use;

recirculating the third permeate fluid back to the diluent vessel for reuse;

concentrating the first and second permeate fluid by flowing same to a fourth cross-flow filter apparatus communicatively connected to the end product vessel wherein the carbohydrates are concentrated and diafiltration buffer is removed in fourth permeate stream back to the buffer reservoir for reuse.

View all claims

0 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

The present invention relates to methods and systems for optimization of dilution of a viscous starting material to isolate and/or concentrate the product of interest from the starting source material such that the process minimizes the volume of diluent and the total volume of the waste stream generated during the process as well as maximizing the yield of desired product. The system employs cross-flow filtration modules with sub-channels that are equidistant to the inlet and outlet of said modules and such modules are characterized by optimal channel height, optimal transmembrane pressure, etc., which are selected in order to achieve the best combination of product quality and production yield.

Citations

6 Claims

1. A method to isolate carbohydrates from a viscous plant material, said process comprising:
- contacting the viscous plant material with a diluent in an amount sufficient to reduce the viscosity of the viscous plant material and form a continuous stream of diluted plant material, wherein the diluent is contained in a diluent vessel and the viscous plant material is contained in a starting source material vessel;
  
  flowing the diluted plant material into a recirculation loop of a first cross-flow filter apparatus;
  
  diafiltering the diluted plant material with sufficient diafiltration buffer retained in a buffer reservoir so as to recover the desired yield of the carbohydrates by passing said carbohydrates into the first permeate fluid;
  
  flowing the first permeate fluid containing the carbohydrates to an end product vessel;
  
  flowing out the first retentate solution from the recirculating liquid of the first cross-flow filter into a second cross-flow filter unit, wherein the flow rate of the first retentate solution is at the same flow rate as the diluted plant material being fed into the recirculation loop of the first cross-flow filter apparatus;
  
  diafiltering the flow of retentate into the second cross-flow filter unit with sufficient diafiltration buffer retained in the buffer reservoir so as to recover the desired yield of the carbohydrates by passing said carbohydrates into the second permeate fluid;
  
  flowing the second permeate fluid containing the target substance to the end product vessel;
  
  concentrating the first and second retentate fluid by flowing same to a third cross-flow filter apparatus communicatively connected with the second cross-flow filter unit, wherein the volume of the third retentate fluid is reduced to the approximate volume of the undiluted plant material or less thereby forming a waste stream for further use;
  
  recirculating the third permeate fluid back to the diluent vessel for reuse;
  
  concentrating the first and second permeate fluid by flowing same to a fourth cross-flow filter apparatus communicatively connected to the end product vessel wherein the carbohydrates are concentrated and diafiltration buffer is removed in fourth permeate stream back to the buffer reservoir for reuse.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The method of claim 1, wherein the amount of buffer introduced into the buffer vessel is conserved and available for reuse.
  - 3. The method of claim 1, wherein the diluent is returned to the diluent vessel while simultaneously concentrating the carbohydrates.
  - 4. The method of claim 1, wherein the cross-flow filters comprises:
    - a multilaminate array of sheet members of generally rectangular and generally planar shape with main top and bottom surfaces, wherein the sheet members include in sequence in the array a first retentate sheet, a first filter sheet, a permeate sheet, and second filter sheet, and a second retentate sheet, wherein each of the sheet members in the array has at least one inlet basin opening at one end thereof, and at least one outlet base opening at an opposite end thereof, with at least one permeate passage opening at longitudinal side margin portions of the sheet members;
      
      each of the first and second retentate sheets having at least one channel opening therein, wherein each channel opening extends longitudinally between the inlet and outlet basin openings of the sheets in the array and is open through the entire thickness of the retentate sheet, and with each of the first and second retentate sheets being bonded to an adjacent filter sheet about peripheral and side portions thereof, with their basin openings and permeate passage openings and register with one another, and arranged to permit flow of filtrate through the channel openings of the retentate sheet between the inlet and outlet basin openings to permit permeate flow through the filter sheet to the permeate sheet to the permeate passage openings; and
      
      the cross-flow filters comprising a unitary article of inter-bonded sheet members.
  - 5. The method of claim 4, wherein the first and second retentate sheets comprise an optimal channel height and an optimal channel length for optimal production yield.
  - 6. The method of claim 1, wherein the plant material is soy, potato, or tobacco.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Smartflow Technologies Inc.
Original Assignee
Smartflow Technologies Inc.
Inventors
Kopf, Henry B., Kacmar, James A.
Primary Examiner(s)
DRODGE, JOSEPH W

Application Number

US14/448,162
Publication Number

US 20150183815A1
Time in Patent Office

1,125 Days
Field of Search

210137, 210201, 210202, 2101952, 2102572, 2103216, 21032172, 21032175, 21032184, 210637, 210641, 210650-654, 210805, 422534, 435 41, 435 703, 435 711, 435239, 435383, 435384, 435401, 4353081
US Class Current
CPC Class Codes

B01D 2315/10   Cross-flow filtration

B01D 2315/16   Diafiltration

B01D 2317/022   Reject series

B01D 2317/025   Permeate series

B01D 29/56   in series connection

B01D 61/145   Ultrafiltration

B01D 61/146   comprising multiple ultrafi...

B01D 61/147   Microfiltration

B01D 61/149   Multistep processes compris...

B01D 61/58   Multistep processes

B01D 63/0822   Plate-and-frame devices

C07H 1/08   from natural products

Optimization of separation for viscous suspensions

First Claim

0 Assignments

0 Petitions

Accused Products

Abstract

Citations

6 Claims

Specification

Solutions

Use Cases

Quick Links

Optimization of separation for viscous suspensions

First Claim

0 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

6 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links