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David R Dussault

from Lincoln, NH
Age ~57
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Also known as:
David Richard Dussault, David K Dussault, David R Dusseult, David R Dussaut, David Dussalt
Related to:
Philip A Parker, 56
Connected to:
Adam P Dussault, 49Anthony M Dussault, 35Cheryl D Dussault, 79Daemian D Dussault, 51Emily M Dussault, 40Gwen Dussault, 104Jennifer Dussault, 49Jonathan M Dussault, 39Kathleen E Dussault, 66Kim M Dussault, 57

David Dussault Phones & Addresses

  • Lincoln, NH
  • Woodsville, NH
  • Haverhill, NH
  • Port Charlotte, FL
  • 231 Bunker Hill Rd, New Boston, NH 03070 (603) 487-1210
  • Milford, NH
  • Wilton, NH
  • Fletcher, NC
  • Oak Harbor, WA
  • Bedford, NH

Work

Position: Medical Professional

Education

Degree: Associate degree or higher

Professional Records

License Records

David R Dussault

License #:
1695 - Active
Category:
Electricians
Issued Date:
Jul 20, 1976
Expiration Date:
Feb 28, 2018
Type:
Electrician Journeyman

Business Records

Name / Title
Company / Classification
Phones & Addresses
David Dussault
Senior Systems Analyst
Zanaqua Technologies, Inc
Developer of Waste Water Treatments · Mfg Service Industry Machinery
12 Executive Dr, Hudson, NH 03051
PO Box 1188, Unity, NH 03743
(603) 883-3220
David R. Dussault
President
DUSSAULT ENGINEERING ASSOCIATES, INC
8 Winn Ave, Hudson, NH 03051
2 Arbor Ln, Hollis, NH 03049

Publications

Us Patents

Fluid Flow Transducer Module And Assembly

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US Patent:
6782765, Aug 31, 2004
Filed:
Jul 1, 2003
Appl. No.:
10/611710
Inventors:
David R. Dussault - Hollis NH
Assignee:
Thermo Electron Corporation - Waltham MA
International Classification:
G01F 105
US Classification:
7386179
Abstract:
A fluid flow transducer module includes a fluid flow conduit having an inlet for receiving fluid, a transducer for measuring rate of flow of the fluid, an interface in communication with the transducer and adapted to receive rate of flow measurements from the transducer, the conduit having an outlet for flowing the fluid from the transducer to a reservoir, the outlet extending transversely of the conduit, a housing for the conduit, conduit inlet, conduit outlet, and transducer, the housing having opposed first and second walls, each wall having an opening for the outlet therein, and at least one of the walls being adapted for stacking engagement with a second transducer module of a same structure, such that the outlets of the modules are aligned to form a common conduit, and the interconnected modules form a flow transducer assembly having a plurality of fluid flow conduits and transducers.

Beverage Cooling Device

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US Patent:
20120312521, Dec 13, 2012
Filed:
Apr 11, 2012
Appl. No.:
13/444438
Inventors:
William H. Zebuhr - Nashua NH, US
David Dussault - Stoneham MA, US
Assignee:
IceColdNow, Inc. - Nashua NH
International Classification:
F28D 15/00
G05D 23/00
F28F 27/00
US Classification:
165287, 165185, 16510411, 165 96
Abstract:
A fluid cooling apparatus includes a first cooling portion have a first series of cooling elements with first cooling surfaces. A second cooling portion can have a second series of cooling elements with second cooling surfaces. The second cooling portion can be removably nested together with the first cooling portion such that the first and second cooling surfaces of respective first and second series of cooling elements can be positioned adjacent to each other with gaps therebetween to form cooling cavities for cooling fluid introduced into the cooling cavities.

Dri-Pc Humidity And Temperature Controller

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US Patent:
48417335, Jun 27, 1989
Filed:
Jan 7, 1988
Appl. No.:
7/141630
Inventors:
David R. Dussault - Hudson NH
Richard E. Dussault - Mirror Lake NH
International Classification:
F25D 1706
US Classification:
62 93
Abstract:
A temperature and humidity control system for natatoriums. The system provides a constant volume of air circulation which is used to control temperature and humidity in the natatorium while inhibiting the accumulation of moisture on the surfaces defining the natatorium. Usually, ambient air is introduced into the system and moisture latent air discharged from the system under controlled conditions. When the humidity of the ambient air is too great the system operates in a self-contained cycle. Return air from the natatorium flowing through the system is treated to maximize its relative humidity. Subsequently, it flows across a cooling coil. This cooled air flows through a heat exchange module where it is placed in exchange relationship with the air being drawn from the natatorium. It cools the air drawn from the natatorium to maximize its relative humidity and this air in turn flows across the refrigeration coil removing substantial quantities of moisture. Combining the refrigeration coil with the heat transfer module and the other components in the system, the sensible/latent heat split is shifted towards higher latent output increasing the overall efficiency of the system as a dehumidification device.
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David R Dussault from Lincoln, NH, age ~57 Get Report