KPMG since Oct 2010
Senior Audit Associate
Damitz, Brooks, Nightingale, Turner & Morrisset Jan 2007 - Aug 2010
CPA
TR Equity Partners 2004 - 2008
Fund Manager
Gary H. Yoshimura CPA (Sole Proprietorship) Sep 2006 - Feb 2007
Tax Intern
Education:
International Business Institute
A 3 Month program interacting with leaders from multinational companies and regulatory bodies throughout Europe. Discussions with management from companies and organizations such as Daimler-Benz, UBS, the EEC, The European Central Bank, Nestle, Mars, John Deere, Bosch, Black & Decker and Shell on management and operations. Additional seminars on various aspects such as operations, marketing, policy, ethics and political realities faced by local and multinational companies located throughout the 14 nations visited.
University of California, Santa Barbara
Classes to meet requirements for admittance to the California Uniform CPA Examination pathway 1.
CPA License granted under 150 hour pathway in the state of California.
Westmont College
BA, English, Economics and BusinessGraduated in 3 years while majoring in English literature and Economics and Business.
JPL Cares Littleton, CO Jan 2014 to Jun 2014 ForemanUS Forest Service Dolores, CO Jun 2013 to Aug 2013 Western Colorado Conservation Corps Recent InternshipColorado Parks and Wildlife
Jun 2012 to Aug 2012 Chatfield State Park, Aquatic Nuisance SpecialistVail Resorts Silverthorne, CO Oct 2010 to Mar 2011 Snowboard Instructor - Kids and Adults
Education:
Metropolitan State University of Denver Denver, CO 2007 to 2013 BS in Land Use Concentration Environment and Resources
2008 to 2000 Vendor CoordinatorLevy Restaurants Denver, CO Apr 2012 to Apr 2012 Pepsi Center Club-level SupervisorDenver Broncos Denver, CO Jun 2007 to Jun 2007 Special Events Intern
Education:
Johnson & Wales University Denver, CO May 2007 Bachelor of Science
Us Patents
Isolation And Support Structures For Hydrogen Hybrid Locomotives And Hydrogen Hybrid Locomotives Using The Same
Arnold R. Miller - Lakewood CO, US Kris S. Hess - Westminster CO, US Timothy L. Erickson - Parker CO, US James L. Dippo - Arvada CO, US
Assignee:
BNSF Railway Company - Fort Worth TX
International Classification:
B61C 3/00
US Classification:
105 49, 105 50, 105 51, 105 35
Abstract:
A hydrogen hybrid locomotive driven by a set of electric traction motors powered by at least one hydrogen fuel cell power module and plurality of batteries includes a chassis, an isolation structure disposed on the chassis for isolating the at least one hydrogen fuel cell power module from shock and vibration and a battery rack disposed on the chassis for supporting the plurality of batteries. A hydrogen containment module is disposed above the battery rack and includes a support rack supporting a plurality of hydrogen tanks and a manifold coupled to each of the plurality of hydrogen tanks for allowing charging and discharging of the hydrogen tanks.
Power Management Systems For Hydrogen Hybrid Locomotives And Hydrogen Hybrid Locomotives Using The Same
Arnold R. Miller - Lakewood CO, US Kris S. Hess - Westminster CO, US Timothy L. Erickson - Parker CO, US James L. Dippo - Arvada CO, US
Assignee:
BNSF Railway Company - Fort Worth TX
International Classification:
B61C 3/00
US Classification:
105 50, 105 60, 105 35, 105 2605, 429430
Abstract:
A hydrogen hybrid locomotive including traction motors for moving the locomotive along a set of tracks, a set of batteries for providing electrical power to the traction motors, a hydrogen fuel cell power plant for charging the set of batteries, an air system having a variable speed compressor for providing air flow to the power plant, and a DC to DC converter for managing power distribution from the hydrogen fuel cell power plant to the batteries. A controller determines an amount of current required from the power plant to produce a selected amount of power, determines a stoic operating setpoint for the power plant based on the current required, sets the speed of a compressor within the air system to provide a selected amount of air flow to the power plant for the determined stoic operating setpoint, determines from a resulting actual air flow to the power module available power, and sets an operating setpoint of the DC to DC converter from the determined an available power.
Cooling Systems For Hydrogen Hybrid Locomotives And Hydrogen Hybrid Locomotives Using The Same
A cooling system for a hydrogen hybrid locomotive having a set of electric traction motors and a hydrogen fuel cell system for providing electric power for driving the traction motors includes a radiator for extracting heat from cooling fluid circulated through the hydrogen fuel cell system by a circulation system. The circulation system includes a bypass valve for bypassing a selected amount of the cooling fluid around the radiator and a radiator output valve for controlling an amount of the cooling fluid passed to the hydrogen fuel cell system from the radiator. A fan system provides air flow across the radiator. A control system selectively sets a position of the radiator output valve and a position of the bypass valve and selectively controls a speed of the fan, as required to control cooling of the hydrogen fuel cell system.
Arnold R. Miller - Lakewood CO, US Kris S. Hess - Westminster CO, US Timothy L. Erickson - Parker CO, US James L. Dippo - Arvada CO, US
Assignee:
BNSF Railway Company - Fort Worth TX
International Classification:
B61C 3/00
US Classification:
105 50, 105 2605, 105 61
Abstract:
A hydrogen hybrid locomotive including a set of batteries for driving a plurality of electric traction motors for moving the locomotive along a set of railroad rails and a fuel cell power plant for charging the set of batteries and driving the electric traction motors. The fuel cell power plant includes at least one fuel cell power module for generating electrical current by reacting hydrogen fuel and oxygen from intake air, the amount of electrical current being proportional to an air mass flow of the intake air. An air system selectively provides an air mass flow to the fuel cell module to generate an amount of electrical current required for corresponding operating conditions of the locomotive. A cooling system cools the at least one fuel cell power module in response to the amount of current being generated.
Cooling Systems For Hydrogen Hybrid Locomotives And Hydrogen Hybrid Locomotives Using The Same
A cooling system for a hydrogen hybrid locomotive including a set of electric traction motors and a hydrogen fuel cell system for providing electric power for driving the traction motors. The cooling system includes a radiator for extracting heat from cooling fluid circulated through the hydrogen fuel cell system and a circulation system. The circulation system has a pump for moving the cooling fluid through the circulation system, a first circulation path including a radiator output valve for controlling a selected amount of the cooling fluid provided by the pump to a cooling fluid inlet of the hydrogen fuel cell system through the radiator, and a second circulation path including a bypass valve for bypassing a selected amount of the cooling fluid provided by the pump around the radiator and to the cooling fluid inlet of the hydrogen fuel cell system. A fan system provides air flow across the radiator. A control system selectively sets a position of the radiator output valve and a position of the bypass valve such that the cooling fluid provided by the first and second circulation paths maintains a selected approximate temperature at the cooling inlet of the hydrogen fuel cell system and selectively controls a speed of the fan to control cooling of the hydrogen fuel cell system.
Hydrogen Fuel Cell Hybrid Locomotives And Methods Of Operating The Same
Arnold R. Miller - Lakewood CO, US Kris S. Hess - Westminster CO, US Timothy L. Erickson - Parker CO, US James L. Dippo - Arvada CO, US
Assignee:
BNSF Railway Company - Fort Worth TX
International Classification:
B61C 3/00
US Classification:
105 50, 105 2605, 105 61
Abstract:
A method of operating a locomotive including a set of electrical traction motors, a fuel cell power module for generating electrical current for the traction motors, an air system for providing an air mass to the fuel cell power module, and a cooling system for cooling the fuel cell power module. When an amount of power is requested from the power module, a required current and a stoic set point for the power module are determined. From the required current, the stoic set point, and numerical factors characterizing the power module, an air mass flow set point is determined for producing the requested amount of power. A compressor set point including speed and torque set points of a compressor motor are determined for the air system to produce the air mass flow corresponding to the requested amount of power.
Isbn (Books And Publications)
Pediatric Toxicology: Diagnosis and Management of the Poisoned Child
Zagster CEO and co-founder Timothy Erickson says the program is strictly voluntary. Workers can still use their own personal cars, or wait for a shuttle bus. But, Erickson thinks many people will find the bikes more convenient.