Search

Dmitriy Anichkov Phones & Addresses

  • Somerville, NJ
  • Redmond, WA
  • Keller, TX
  • Plainsboro, NJ
  • Durham, NC
  • Princeton, NJ
  • 87 W Main St APT 3A, Somerville, NJ 08876

Work

Company: First solar Apr 2011 Position: Principal engineer, plant controls

Education

School / High School: Saint Petersburg State Polytechnic University Oct 1986 Specialities: MS in Computer Sciences

Skills

Control Systems Design • Renewable Energy Grid Integration • Energy Management Systems Development

Resumes

Resumes

Dmitriy Anichkov Photo 1

Dmitriy Anichkov Somerville, NJ

View page
Work:
First Solar

Apr 2011 to 2000
Principal Engineer, Plant Controls

Areva T&D, ALSTOM Grid
Redmond, WA
Dec 2006 to Apr 2011
Senior Project/Power Systems Engineer

GDF SUEZ Energy North America
Poolville, TX
Aug 2003 to Dec 2006
Senior Control Systems Engineer

Trigen Energy Corporation, Tractebel Power Inc
Trenton, NJ
Aug 1997 to Aug 2003
Sr. Control Systems Engineer

Education:
Saint Petersburg State Polytechnic University
Oct 1986 to Jun 1988
MS in Computer Sciences

State School for Patent Law
Sep 1986 to Jun 1988

Saint Petersburg State Polytechnic University
Sep 1979 to Feb 1985
MS in Engineering

Skills:
Control Systems Design, Renewable Energy Grid Integration, Energy Management Systems Development

Publications

Us Patents

Method And Apparatus Providing Point Of Interconnection Control For Power Plants

View page
US Patent:
20130234523, Sep 12, 2013
Filed:
Mar 6, 2012
Appl. No.:
13/413507
Inventors:
Dmitriy Anichkov - Somerville NJ, US
Mahesh Morjaria - Mesa AZ, US
Assignee:
FIRST SOLAR, INC - Perrysburg OH
International Classification:
H02J 1/00
US Classification:
307 82
Abstract:
A method and apparatus to control power output of a power plant. A control module includes a plurality of controllers for different power parameters of the power plant and a master controller. The plurality of controllers receive measured parameters from the power plant, compare the received parameters with received set points, and provide respective reactive power commands to the power plant. The master controller determines which of the plurality of controllers is to be enabled to output a reactive power command to the power plant.

Method And System For Providing Primary Frequency Response For A Renewable Energy Plant

View page
US Patent:
20220283558, Sep 8, 2022
Filed:
Mar 1, 2022
Appl. No.:
17/683419
Inventors:
- Clinton NJ, US
Dmitriy ANICHKOV - Somerville NJ, US
International Classification:
G05B 19/042
H02J 3/38
H02J 3/28
Abstract:
A method for providing primary frequency response for a renewable energy plant coupled to an electric power grid, the renewable energy plant having an intermittent energy source coupled thereto by an inverter, the method comprising: using a renewable energy plant control system, measuring frequency and determining a first difference signal between the measured frequency and a frequency reference; measuring power output from the renewable energy plant and determining a second difference signal between the measured power output and a power reference; generating an error signal from a sum of the first and second difference signals; generating a control signal by applying the error signal to a controller; limiting the control signal output from the controller to between predetermined minimum and maximum power limits for the inverter; while the control signal is limited by the predetermined minimum power limit for the inverter, disabling an integral function of the controller; and, applying the control signal to the inverter to control the power output from the intermittent energy source.

Method And System For Controlling A Renewable Energy Plant

View page
US Patent:
20210367429, Nov 25, 2021
Filed:
Apr 9, 2019
Appl. No.:
17/040564
Inventors:
- Annandale NJ, US
Dmitriy ANICHKOV - Somerville NJ, US
International Classification:
H02J 3/38
H02J 3/06
H02J 3/16
Abstract:
A method for controlling power flow between a renewable energy plant and an electric power grid, the plant having an intermittent energy source, the method comprising: using a control system, measuring power output from the plant and determining a first difference between the measured power output from the plant and a power reference; measuring frequency deviation of the power output from the plant and determining a second difference between the measured frequency deviation and a frequency deviation reference; generating a first error by limiting a sum of the first and second differences between predetermined minimum and maximum power error limits; modelling power output from the source and determining a second error between the modelled power output from the source and a control signal applied to the source to control the power output therefrom; and, generating the control signal by applying the first and second errors to a PI loop.

Method And System For Providing Renewable Energy Plant Frequency Response

View page
US Patent:
20210066925, Mar 4, 2021
Filed:
Apr 22, 2019
Appl. No.:
17/040566
Inventors:
- Annandale NJ, US
Dmitriy ANICHKOV - Somerville NJ, US
International Classification:
H02J 3/38
F03D 9/25
Abstract:
A method for providing frequency response for a plant coupled to an electric power grid, the plant having an intermittent energy source, comprising: measuring frequency of the power output from the plant and determining a first difference between the measured frequency and a frequency reference; measuring power output from the plant and storing the measured power output as a stored value; while the first difference is within a deadband, determining a second difference as a difference between a power reference and the measured power output; while the first difference indicates over-frequency, determining the second difference as a difference between the stored value and the measured power output; while the first difference indicates under-frequency, setting the second difference equal to the power reference; generating an error by limiting a sum of the first and second differences between error limits; generating a control signal; and, applying the control signal to the source.

Forecasting Net Load In A Distributed Utility Grid

View page
US Patent:
20170317495, Nov 2, 2017
Filed:
Oct 20, 2015
Appl. No.:
15/520561
Inventors:
- Dartmouth, CA
Dmitriy ANICHKOV - Somerville NJ, US
International Classification:
H02J 3/06
G06Q 50/06
H02J 3/12
G06Q 10/04
H02J 3/00
G01R 22/00
Abstract:
A method for generating a net load forecast for a utility grid, the grid including intermittent distributed energy resources and loads, comprising: defining two or more load forecast zones, each zone being associated with a load profile type and a climate zone type; assigning each of the loads to one of the zones based on the load profile and climate zone types associated with the load; assigning each of the energy resources to at least one of the zones based on the climate zone type associated with the energy resource; for each zone, generating an electrical energy consumption forecast for loads, an electric power generation forecast for energy resources, and a net load forecast from the electrical energy consumption and electric power generation forecasts; combining the net load forecast for each zone to generate the net load forecast for the grid; and, presenting the net load forecast on a display.

Utility Grid, Intermittent Energy Management System

View page
US Patent:
20170003700, Jan 5, 2017
Filed:
Dec 22, 2014
Appl. No.:
15/102963
Inventors:
- Dartmouth, CA
Dmitriy ANICHKOV - Somerville NJ, US
International Classification:
G05F 1/66
G06Q 50/06
H02J 13/00
Abstract:
A method for controlling an operating condition of an electric power grid, the electric power grid having an intermittent power supply coupled thereto, the method comprising: using an energy variability controller, controlling variability of a delivered power output of the intermittent power supply to the electric power grid by: monitoring an actual environmental value for a location proximate the intermittent power supply, an available power output of the intermittent power supply being dependent on the actual environmental value; when the actual environmental value is increasing and hence the available power output is increasing, increasing the delivered power output according to a predetermined rate of increase; monitoring a forecast environmental value for the location; when the forecast environmental value is decreasing, decreasing the delivered power output according to a predetermined rate of decrease; and, limiting the delivered power output to below a predetermined threshold.

Predictive Building Control System And Method For Optimizing Energy Use And Thermal Comfort For A Building Or Network Of Buildings

View page
US Patent:
20160305678, Oct 20, 2016
Filed:
Apr 20, 2015
Appl. No.:
14/690671
Inventors:
Alexandre PAVLOVSKI - Bedford, CA
Zheng QIN - Dartmouth, CA
Dmitriy ANICHKOV - Somerville NJ, US
James FLETCHER - Tantallon, CA
International Classification:
F24F 11/00
G05B 13/04
Abstract:
A method for controlling temperature in a thermal zone within a building, comprising: using a processor, receiving a desired temperature range for the thermal zone; determining a forecast ambient temperature value for an external surface of the building proximate the thermal zone; using a predictive model for the building, determining set points for a heating, ventilating, and air conditioning (“HVAC”) system associated with the thermal zone that minimize energy use by the building; the desired temperature range and the forecast ambient temperature value being inputs to the predictive model; the predictive model being trained using respective historical measured value data for at least one of the inputs; and, controlling the HVAC system with the set points to maintain an actual temperature value of the thermal zone within the desired temperature range for the thermal zone.
Dmitriy A Anichkov from Somerville, NJ, age ~62 Get Report