Allan H Vaitses from 29 Higgins Way, Tolland, CT 06084, Phone: (508) 748-0422

Determining Energy Consumption In A Structure

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US Patent:

20120194670, Aug 2, 2012

Filed:

Apr 13, 2012

Appl. No.:

13/446290

Inventors:

Michael Craig Scelzi - Glen Allen VA, US
James Scelzi - Paducah KY, US
Allan H. Vaitses - Marion MA, US
William Shawn Bonwell - Montpelier VA, US
Mark Christopher Hartman - Amelia VA, US

Assignee:

NETESCO LLC - Richmond VA

International Classification:

H04N 7/18

US Classification:

348135, 348E07085

Abstract:

Methods, apparatus, and systems are provided for measuring the supply of a consumable product/energy source, such as electrical power, to a facility over time and analyzing the measurements to determine the consumption or supply of the product by one or more loads and/or sources in the facility, and to determine induced and residual heat flow through the facility's envelope. Various aspects compare the measured supply of the consumable product to a database of consumption signatures, which characterize access to the consumable product by particular users. Operating conditions and facility characteristics, such as temperatures, load factors, insulation factors, etc., may be further considered in determining a particular user's access of the consumable product. To aid in the controlling of energy use, thermal resistance factors of the building are determined, which are based on the induced and residual heat flow through the facility.

Determining Energy Consumption In A Structure

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US Patent:

20120197562, Aug 2, 2012

Filed:

Apr 13, 2012

Appl. No.:

13/446286

Inventors:

Michael Craig Scelzi - Glen Allen VA, US
James Scelzi - Paducah KY, US
Allan H. Vaitses - Marion MA, US
William Shawn Bonwell - Montpelier VA, US
Mark Christopher Hartman - Amelia VA, US

Assignee:

NETESCO LLC - Richmond VA

International Classification:

G06F 15/00
G01K 13/00
G01R 21/00

US Classification:

702 61, 702127, 702136

Abstract:

Methods, apparatus, and systems are provided for measuring the supply of a consumable product/energy source, such as electrical power, to a facility over time and analyzing the measurements to determine the consumption or supply of the product by one or more loads and/or sources in the facility, and to determine induced and residual heat flow through the facility's envelope. Various aspects compare the measured supply of the consumable product to a database of consumption signatures, which characterize access to the consumable product by particular users. Operating conditions and facility characteristics, such as temperatures, load factors, insulation factors, etc., may be further considered in determining a particular user's access of the consumable product. To aid in the controlling of energy use, thermal resistance factors of the building are determined, which are based on the induced and residual heat flow through the facility.

Determining Energy Consumption In A Structure

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US Patent:

20120203380, Aug 9, 2012

Filed:

Apr 13, 2012

Appl. No.:

13/446288

Inventors:

Michael Craig Scelzi - Glen Allen VA, US
James Scelzi - Paducah KY, US
Allan H. Vaitses - Marion MA, US
William Shawn Bonwell - Montpelier VA, US
Mark Christopher Hartman - Amelia VA, US

Assignee:

NETESCO LLC - Richmond VA

International Classification:

G06F 15/00
G05D 23/19
G06Q 40/00
G01K 11/28

US Classification:

700276, 702136, 705 35

Abstract:

Methods, apparatus, and systems are provided for measuring the supply of a consumable product/energy source, such as electrical power, to a facility over time and analyzing the measurements to determine the consumption or supply of the product by one or more loads and/or sources in the facility, and to determine induced and residual heat flow through the facility's envelope. Various aspects compare the measured supply of the consumable product to a database of consumption signatures, which characterize access to the consumable product by particular users. Operating conditions and facility characteristics, such as temperatures, load factors, insulation factors, etc., may be further considered in determining a particular user's access of the consumable product. To aid in the controlling of energy use, thermal resistance factors of the building are determined, which are based on the induced and residual heat flow through the facility.

Determining Energy Consumption In A Structure

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US Patent:

20120065789, Mar 15, 2012

Filed:

Dec 3, 2010

Appl. No.:

12/960149

Inventors:

Michael Craig Scelzi - Glen Allen VA, US
James Scelzi - Paducah KY, US
Allan H. Vaitses - Marion MA, US
William Shawn Bonwell - Montpelier VA, US
Mark Christopher Hartman - Amelia VA, US

Assignee:

NetESCO LLC - Richmond VA

International Classification:

G06F 1/26
E04B 1/00
G01N 25/18
G06F 17/00
G06F 15/00

US Classification:

700291, 705412, 702136, 5274521

Abstract:

Methods, apparatus, and systems are provided for measuring the supply of a consumable product/energy source, such as electrical power, to a facility over time and analyzing the measurements to determine the consumption or supply of the product by one or more loads and/or sources in the facility, and to determine induced and residual heat flow through the facility's envelope. Various aspects compare the measured supply of the consumable product to a database of consumption signatures, which characterize access to the consumable product by particular users. In doing so, costs for the product may be more accurately divided between different tenants of the facility without having to install individual services or measurement equipment for each individual tenant. Operating conditions and facility characteristics, such as temperatures, load factors, insulation factors, etc., may be further considered in determining a particular user's access of the consumable product. To aid in the controlling of energy use, thermal resistance factors of the building are determined, which are based on the induced and residual heat flow through the facility. Various algorithms are used including smart agents (e.g. neural networks) to determine the consumption of the consumable product by a particular user, to create the database of consumption signatures, and to determine the thermal resistance factors.

Rotary-Wing Vehicle And System

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US Patent:

20210009279, Jan 14, 2021

Filed:

Jul 12, 2019

Appl. No.:

16/509707

Inventors:

- Jamaica Plain MA, US
Cyril Blank - Cambridge MA, US
Allan Vaitses - Tolland CT, US

Assignee:

GeoScout, Inc. - Jamaica Plain MA

International Classification:

B64D 35/04
F16H 1/22
B64C 27/52
B64C 39/02

Abstract:

A lift producing multi-rotor apparatus with a single gear, central drive gear unit actuating gear driven rotor-shaft units having pitch-controlled rotor heads where the rotor units are disposed directly opposite from each other, the direction of rotation of opposing rotor units are opposite from each other, and where the rotational-disk defined by each rotor overlaps two adjacent rotational disks.

Hydrocarbon Leak Imaging And Quantification Sensor

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US Patent:

20190195725, Jun 27, 2019

Filed:

Nov 7, 2018

Appl. No.:

16/183072

Inventors:

- Somerville MA, US
Jason M. Bylsma - Boston MA, US
Allan Vaitses - Marion MA, US

International Classification:

G01M 3/38
G01N 21/3504
G01N 21/85
G01N 33/00
G01N 21/31
G01N 21/359

Abstract:

This invention consists of sensors and algorithms to image, detect, and quantify the presence of hydrocarbon gas (for example from leaks) using a short-wave infrared radiation detector array with multiple spectral filters under natural sunlight or artificial illumination, in combination with the hydrodynamics of turbulent gas jets and buoyant plumes. Multiple embodiments are recited and address detection and quantification of methane gas leaks. Quantification includes gas column densities, gas concentration estimates, total mass, hole size estimates, and estimated emission flux (leak rate) of gas from holes and cracks in pressurized vessels, pipes, components, and general gas infrastructure, and from surface patches (for example due to gas leaks in underground pipes) under the action of buoyancy and wind. These and similar embodiments are applicable more generally to natural gas and other hydrocarbon gases, liquids, emulsions, solids, and particulates, and to emissions monitoring of greenhouse gases methane and carbon dioxide.

Scanning Ir Sensor For Gas Safety And Emissions Monitoring

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US Patent:

20180266944, Sep 20, 2018

Filed:

Mar 16, 2018

Appl. No.:

15/923794

Inventors:

- Somerville MA, US
Jason M. Bylsma - Boston MA, US
Allan Vaitses - Marion MA, US

International Classification:

G01N 21/3518
G01F 1/76

Abstract:

Apparatus and methods for rapidly detecting, localizing, imaging, and quantifying leaks of natural gas and other hydrocarbon and greenhouse gases. Scanning sensors, scan patterns, and data processing algorithms enable monitoring a site to rapidly detect, localize, image, and quantify amounts and rates of hydrocarbon leaks. Multispectral short-wave infrared detectors sense non-thermal infrared radiation from natural solar or artificial illumination sources by differential absorption spectroscopy. A multispectral sensor is scanned to envelop an area of interest, detect the presence and location of a leak, and raster scan the area around the leak to create an image of the leak. The resulting absorption image related to differential spectral optical depth is color mapped to render the degree of gas absorption across the scene. Analysis of this optical depth image, with factors including known inline pressures and/or surface wind speed measurements, enable estimation of the leak rate, i.e., emission mass flux of gas.

Hydrocarbon Leak Imaging And Quantification Sensor

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US Patent:

20170336281, Nov 23, 2017

Filed:

May 17, 2017

Appl. No.:

15/598052

Inventors:

- Somerville MA, US
Jason M. Bylsma - Boston MA, US
Allan Vaitses - Marion MA, US

International Classification:

G01M 3/38
G01N 21/85
G01N 21/31
G01N 33/00
G01F 1/66

Abstract:

This invention consists of sensors and algorithms to image, detect, and quantify the presence of hydrocarbon gas (for example from leaks) using a short-wave infrared radiation detector array with multiple spectral filters under natural sunlight or artificial illumination, in combination with the hydrodynamics of turbulent gas jets and buoyant plumes. Multiple embodiments are recited and address detection and quantification of methane gas leaks. Quantification includes gas column densities, gas concentration estimates, total mass, hole size estimates, and estimated emission flux (leak rate) of gas from holes and cracks in pressurized vessels, pipes, components, and general gas infrastructure, and from surface patches (for example due to gas leaks in underground pipes) under the action of buoyancy and wind. These and similar embodiments are applicable more generally to natural gas and other hydrocarbon gases, liquids, emulsions, solids, and particulates, and to emissions monitoring of greenhouse gases methane and carbon dioxide.

Allan H Vaitses

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Us Patents

Determining Energy Consumption In A Structure

Determining Energy Consumption In A Structure

Determining Energy Consumption In A Structure

Determining Energy Consumption In A Structure

Rotary-Wing Vehicle And System

Hydrocarbon Leak Imaging And Quantification Sensor

Scanning Ir Sensor For Gas Safety And Emissions Monitoring

Hydrocarbon Leak Imaging And Quantification Sensor

Isbn (Books And Publications)

The Fiberglass Boat Repair Manual

Lofting

Covering Wooden Boats With Fiberglass

Boatbuilding One-Off in Fiberglass

The Fiberglass Boat Repair Manual

Covering Wooden Boats with Fiberglass

Lofting