Carl Triplett - Scottsdale AZ, US Michael Mathiesen - Scottsdale AZ, US Jie Chen - Scottsdale AZ, US Geoffrey Faires - Cave Creek AZ, US
International Classification:
B01D 47/02 B01D 47/04 B01D 53/14 F28B 9/00
US Classification:
95150, 62172, 95226, 96290, 96329
Abstract:
An air purification system and method of purifying air according to various embodiments of the invention includes an ambient air inlet and a purified air outlet for the passage there through of air via a transport line. At least one cleaning chamber configured to contain therein an aqueous solution containing a reactant medium is in fluidic communication with the transport line. The ambient air passes through the at least one cleaning chamber and bubbles through the aqueous solution reacting with the reactant medium contained therein to remove gaseous pollutants and/or particulates. To recharge the system, a user simply changes out the cleaning chamber when the reactant medium is no longer capable of reacting to remove the gaseous pollutants and/or particulates from air passing there through.
System And Method For Charging A Refrigeration System
Jie Chen - Saint Charles MO, US Jan Pottinger - O'Fallon MO, US
International Classification:
F25B 45/00
Abstract:
A method for charging a field refrigeration system including an evaporator, a condenser, a compressor, and an expansion device includes calculating a target superheat as a function of one or more of a measured field outdoor dry bulb temperature, and a measured field indoor wet bulb temperature. A charge adjustment percentage can be calculated as a function of the target superheat. A refrigerant adjustment weight can be determined based on the charge adjustment percentage. A field refrigeration system charge can be adjusted by the refrigerant adjustment weight.
System And Method For Charging A Refrigeration System
JIE CHEN - SAINT CHARLES MO, US JAN POTTINGER - O'FALLON MO, US
International Classification:
F25B 45/00
Abstract:
A method for charging a field refrigeration system including an evaporator, a condenser, a compressor, and an expansion device includes calculating a field subcooling of the field refrigeration system as a function of a measured field liquid line pressure and a measured field liquid line temperature. A charge adjustment percentage can be calculated as a function of the field subcooling, a measured field indoor wet bulb temperature, and a measured field outdoor dry bulb temperature. A refrigerant adjustment weight can be determined based on the charge adjustment percentage. A field refrigeration system charge can be adjusted by the refrigerant adjustment weight.
May 2011 to 2000 BuyerPower-One Phoenix, AZ May 2011 to Aug 2011 Supply Chain Summer InternDa Fa Realty & Investments; LLC Tempe, AZ Dec 2009 to Dec 2010 Property Manager & Business Assistant
Education:
Arizona State University Tempe, AZ 2008 to 2011 BS in Supply Chain Management
University Of Virginia Transplant Center 1300 Jefferson Park Ave FL 4, Charlottesville, VA 22903 4349248604 (phone), 4349240017 (fax)
UVA Medical Center Inpatient Transplant Surgery & Urology 1215 Lee St 5 W, Charlottesville, VA 22908 4349242338 (phone), 4349242355 (fax)
Languages:
English
Description:
Ms. Chen works in Charlottesville, VA and 1 other location and specializes in Transplant Surgery. Ms. Chen is affiliated with University Of Virginia Medical Center.
atusik, a professor of electrical engineering and computer science at MIT who leads the Computational Design and Fabrication Group within the Computer Science and Artificial Intelligence Laboratory (CSAIL); Meng Jiang, associate professor at the University of Notre Dame; and senior author Jie Chen,