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- Tsuyoshi Ueno
Tsuyoshi Ueno
Customer Service Unit, Working and Living Environments Group, Senior Research Scientist, Dr.Eng.
Born in Toyama
Department of Electrical Engineering, Graduate School of Engineering, Osaka University
[Field of reseach] Energy Conservation, Demand Simulation
Project
Optimizing the energy management system In order to establish management techniques for supply and demand of new electric power and achieve effective use of regional energy, he is conducting research to promote optimal use of energy by developing a demand simulator, a tool that takes into account customer diversity and regional characteristics. In recent years, he has been verifying the precision of tools using data on actual electric power measurements, and developing models for predicting future energy demand.
Research
Reports
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Development of Energy Demand Simulation Tool (No.4) Verification of the Residential Model and Function for Predicting Future Demand
Research Report : C19004 -
Development of Energy Demand Simulation Tool (No.3) Extension of the Model of Electric Demand of the Area Including Commercial Sector
Research Report : C18003 -
Development of Heat Estimation Model of Room Air Conditioner for On-Site Measurement
Research Report : C16008 -
Development of Energy Demand Simulation Tool(No.2) Extension of the Residential Model for Calculating Any Area
Research Report : C16003 -
Development of Energy Demand Simulation Tool (No.1) Power Consumption Estimation Model for Thousand Scale of Residential Buildings
Research Report : R15006 -
Development of Heat Source Characteristic Model of Room Air Conditioner
Research Report : R09 -
Development of Heat Source Characteristic Model of Home User Air Conditioner -Part 5: Applicability to Unsteady State-Air Conditioner
Research Report : R13016 -
Development of Heat Source Characteristic Model of Home User Air Conditioner -Part 4: Evaluation of Applicability of Model to Various Appliances-
Research Report : R12002 -
Validation of Ventilation Performance and Estimation of Energy-Saving Effect by Reducing Ventilation Amount in Commercial Electric Kitchen
Research Report : R12001 -
Development of Heat Source Characteristic Model of Home User Air Conditioner -Part 3: Characteristic Model for Heating Containing Defrost Period-
Research Report : R11017 -
Investigation about the Energy Consumption and Thermal Environment in a Commercial Kitchen -Comparison before and after Electrification-
Research Report : R11006 -
Development of a Support Tool for Ranking Energy-Saving Activities in Office Buildings
Research Report : R10013 -
Development of Heat Source Characteristic Model of Home User Air Conditioner -Part 2: Characteristic Model for Heating Period-
Research Report : R10009 -
Development of Heat Source Characteristic Model of Home User Air Conditioner -Part 1: Characteristic Model for Cooling Period-
Research Report : R09017 -
Energy-Saving Effects and Change in Benefits by Energy-Saving Operation of Elevator
Research Report : R08004 -
An Approach for Ranking Energy-Saving Activities in Residential Buildings -Characteristics of the Model-
Research Report : R06006 -
Energy-Saving Effects and Changes of Thermal Comfort by Changing the Setting of the Cooling Temperature -Case Study in an Office Building-
Research Report : R06005 -
Quantitative Analysis of Energy-Saving Effects and Change in Benefits by Reducing the Number of Operating Elevators -Case Study in an Office Building-
Research Report : R06001 -
An Approach to Reduce the Standby Power in the Residential Buildings Using Analytic Hierarchy Process
Research Report : R05010