Stephen D Tuomela

US Patent:

7429027, Sep 30, 2008

Filed:

Feb 8, 2006

Appl. No.:

11/349824

Inventors:

Daniel W. Mayer - Wyoming MN, US
Stephen D. Tuomela - Ramsey MN, US

Assignee:

Mocon, Inc. - Minneapolis MN

International Classification:

F16K 47/00
F16L 55/02

US Classification:

251122, 251282, 137874, 73 40

Abstract:

A needle valve with a hollow needle effective for permitting a portion of the fluid passing through the valve to flow throughout the valve and exit through any leaks in the valve, whereby any environmental fluid within the valve is displaced by the fluid passing through the valve.

US Patent:

7569128, Aug 4, 2009

Filed:

Dec 14, 2004

Appl. No.:

11/012046

Inventors:

Daniel W. Mayer - Wyoming MN, US
Stephen D. Tuomela - Ramsey MN, US

Assignee:

Mocon, Inc. - Minneapolis MN

International Classification:

G01N 27/26
G01N 27/28

US Classification:

204409, 204400, 204430

Abstract:

A sensor for detecting water vapor in a gaseous sample. The sensor comprises (a) an anode, (b) a cathode, (c) an electrolyte intermediate the anode and cathode, and (d) an inlet orifice through a central area of the anode or cathode through which the gaseous sample may be placed into contact with the electrolyte. The electrolyte can be retained on a porous electrical-insulating separator located between the interior-facing major surfaces of the anode and the cathode.

US Patent:

7624622, Dec 1, 2009

Filed:

May 24, 2007

Appl. No.:

11/753181

Inventors:

Daniel W. Mayer - Wyoming MN, US
Stephen D. Tuomela - Ramsey MN, US

Assignee:

Mocon, Inc. - Minneapolis MN

International Classification:

G01N 15/08

US Classification:

73 38

Abstract:

A method of measuring the transmission rate of a permeant through a container and determining shelf life of product within the container based upon loss of the permeant through the container. The method includes the steps of (i) placing a sealed container containing a perishable product and a permeant within a sealed retention chamber, (ii) periodically measuring concentration of the permeant within the headspace of the retention chamber until a substantially steady state increase in permeant concentration within the headspace is sensed, and (iii) calculating a shelf life for the sealed container by dividing an amount of permeant loss, previously established as correlating to product expiration, by the sensed steady state increase in permeant concentration.

US Patent:

8074683, Dec 13, 2011

Filed:

May 2, 2008

Appl. No.:

12/114497

Inventors:

Stephen D. Tuomela - Ramsey MN, US

Assignee:

Mocon, Inc. - Minneapolis MN

International Classification:

F16K 11/04

US Classification:

13761411, 137903, 251 635, 251900

Abstract:

A valve system that includes (i) first and second longitudinally facing members defining a gap therebetween in fluid communication with transversely offset first and second orifices through the members, (ii) a primary biasing means longitudinally biasing the members away from one another, (iii) an elastic element positioned within the gap between the first and second orifices, and (iv) a repositioning means for longitudinally repositioning one of the members towards the other member against the bias of the primary biasing means for adjusting the longitudinal height of the gap. The members can be repositioned between (a) a first position wherein the elastic element does not seal the gap so as to allow fluid flow from the first orifice to the second orifice through the gap, and (b) a second position wherein the elastic element is compressed between the members and seals the gap so as to prevent fluid flow from the first orifice to the second orifice through the gap.

US Patent:

8241911, Aug 14, 2012

Filed:

Nov 19, 2010

Appl. No.:

12/950018

Inventors:

Timothy A. Ascheman - Elk River MN, US
Daniel W. Mayer - Wyoming MN, US
Stephen D. Tuomela - Ramsey MN, US

Assignee:

Mocon, Inc. - Minneapolis MN

International Classification:

G01D 18/00
G01N 21/76
G01N 1/22

US Classification:

436 9, 436 8, 436127, 436136, 436164, 436166, 436167, 436169, 436172, 436181, 422420, 422 8205, 422 8208, 422 83, 422 88, 73 101, 73 102, 73 103, 73 106, 356437, 356440, 324426, 136290, 136291

Abstract:

A calibration card and method of using the card to calibrate an analytical instrument capable of reading a photoluminescent oxygen probe. The card includes at least (a) a first mass of an oxygen sensitive photoluminescent dye retained within a hermetically sealed space so as to isolate the dye from environmental oxygen, and in fluid communication with an activated metal-air battery whereby any oxygen permeating into the hermetically sealed space is quickly consumed by the battery, and (b) a second mass of an oxygen sensitive photoluminescent dye in fluid communication with the environment whereby the second mass of photoluminescent dye is exposed to an environmental concentration of oxygen.

US Patent:

8316697, Nov 27, 2012

Filed:

Apr 19, 2010

Appl. No.:

12/762831

Inventors:

Stephen Tuomela - Ramsey MN, US
Slava Berezovskiy - Apple Valley MN, US

Assignee:

Mocon, Inc. - Minneapolis MN

International Classification:

G01M 3/04
G01M 3/08
G01N 15/08

US Classification:

73 492, 73 46, 73 38

Abstract:

An analytical instrument and associated method for ascertaining gas transmission rates of a target-analyte through a capped mouth of a bottle. The instrument employs a unique fixture that includes (1) a selectively openable and closeable enclosure defining a chamber, and (2) a mounting post extending into the chamber. The post is configured and arranged to sealingly engage an inner surface of a capped bottle neck, wherein mounting of a capped bottle neck onto the post sealingly separates the chamber into a first compartment inside the mounted capped bottle neck and a second compartment outside the mounted capped bottle neck. The fixture is configured and arranged with passageways for introducing a pressurized target-analyte-containing fluid into the first compartment of the chamber and flushing the second compartment of the chamber with a target-analyte-free fluid.

US Patent:

7993587, Aug 9, 2011

Filed:

May 2, 2008

Appl. No.:

12/114515

Inventors:

Daniel W. Mayer - Wyoming MN, US
Stephen D. Tuomela - Ramsey MN, US

Assignee:

Mocon, Inc. - Minneapolis MN

International Classification:

G01N 7/00

US Classification:

422 83, 436 43, 236 44 R, 236 44 C

Abstract:

A humidity control system for an analyte permeation testing instrument. The system includes (i) an analyte permeation testing instrument, (ii) a sensor for sensing a target analyte, (iii) a humidity control chamber, and (iv) a selectively permeable membrane permeable to water vapor and impermeable to the target analyte. The analyte permeation testing instrument defines a testing chamber operable for engaging a test film such that the testing chamber is sealingly separated by the test film into a first cell and a second cell throughout a permeation testing period. The sensor is placed in fluid communication with the first cell. The humidity control chamber is positioned adjacent the first cell and in fluid communication with both a source of gas having a known humidity and the first cell, with the selectively permeable membrane sealingly separating the humidity control chamber from the first cell.

US Patent:

20030194351, Oct 16, 2003

Filed:

Apr 15, 2002

Appl. No.:

10/122683

Inventors:

Stephen Tuomela - Ramsey MN, US

International Classification:

G01N027/00
G01N001/22

US Classification:

422/098000, 422/083000, 422/088000, 422/090000, 436/127000, 436/136000, 436/138000, 436/149000, 436/181000, 436/124000

Abstract:

A galvanic measuring device for detecting oxygen content in a gas flow, having a sealed gas flow chamber and a layer of sodium chloride saturated sponge material lining the interior of the gas flow chamber, for providing a constant source of humidity to the chamber.