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27 results on '"Masashi Ohkura"'

1. Numerical Analysis for Performance Evaluation of a Multi-Functional CO2 Heat Pump Water Heating System

Author

Ryohei Yokoyama, Masashi Ohkura, Takuya Nakamata, and Tetsuya Wakui

Subjects
water heating, heat pump, thermal storage, natural refrigerant, system performance, dynamic simulation, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

In recent years, CO2 heat pump water heating systems have been developed, and their performances have been enhanced while their functions have been expanded. In a multi-functional system, used for both hot water supply and bath heating, hot water retrieved from the top of a storage tank is returned to its bottom or side after heat exchange for bath heating, which destroys the stratified temperature distribution in the storage tank and degrades the system performance. In this paper, the performance of a multi-functional CO2 heat pump water heating system has been evaluated by numerical simulation. A system model was created by combining component models for a CO2 heat pump, mixing valves, a storage tank, a heat exchanger, and a bathtub. Partly, perfect mixing by hot water return was assumed in the component model for the storage tank, and its validity was verified through experiments. A performance analysis has been conducted under daily repeated hot water and bath heating demands, and the system performance was evaluated at a periodically steady state. As a result, the system efficiency and the volume of unused hot water in the multi-functional system decreased by 4.9% and 16.3%, respectively, as compared to those in the uni-functional system, when hot water returned to the bottom of the storage tank. When the position for hot water return is heightened, the system efficiency becomes higher than that in the uni-functional system, while the volume of unused hot water decreases furthermore.

Published
2018
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4. Numerical Analysis for Performance Evaluation of a Multi-Functional CO2 Heat Pump Water Heating System

Author

Tetsuya Wakui, Takuya Nakamata, Ryohei Yokoyama, and Masashi Ohkura

Subjects
Mixing (process engineering), 02 engineering and technology, system performance, Thermal energy storage, lcsh:Technology, law.invention, lcsh:Chemistry, heat pump, law, Heat exchanger, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, dynamic simulation, lcsh:QH301-705.5, Instrumentation, water heating, Fluid Flow and Transfer Processes, Petroleum engineering, lcsh:T, Process Chemistry and Technology, thermal storage, General Engineering, 021001 nanoscience & nanotechnology, lcsh:QC1-999, Computer Science Applications, Dynamic simulation, lcsh:Biology (General), lcsh:QD1-999, Volume (thermodynamics), lcsh:TA1-2040, Storage tank, natural refrigerant, Environmental science, 020201 artificial intelligence & image processing, Perfect mixing, lcsh:Engineering (General). Civil engineering (General), 0210 nano-technology, lcsh:Physics, Heat pump
Abstract

In recent years, CO2 heat pump water heating systems have been developed, and their performances have been enhanced while their functions have been expanded. In a multi-functional system, used for both hot water supply and bath heating, hot water retrieved from the top of a storage tank is returned to its bottom or side after heat exchange for bath heating, which destroys the stratified temperature distribution in the storage tank and degrades the system performance. In this paper, the performance of a multi-functional CO2 heat pump water heating system has been evaluated by numerical simulation. A system model was created by combining component models for a CO2 heat pump, mixing valves, a storage tank, a heat exchanger, and a bathtub. Partly, perfect mixing by hot water return was assumed in the component model for the storage tank, and its validity was verified through experiments. A performance analysis has been conducted under daily repeated hot water and bath heating demands, and the system performance was evaluated at a periodically steady state. As a result, the system efficiency and the volume of unused hot water in the multi-functional system decreased by 4.9% and 16.3%, respectively, as compared to those in the uni-functional system, when hot water returned to the bottom of the storage tank. When the position for hot water return is heightened, the system efficiency becomes higher than that in the uni-functional system, while the volume of unused hot water decreases furthermore.

Published
2018
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5. Numerical analysis on performance enhancement of a CO_2 heat pump water heating system by extracting tepid water

Author

Ryohei Yokoyama, Tetsuya Wakui, Masashi Ohkura, and Takuya Nakamata

Subjects
Engineering, Numerical simulation, Thermal energy storage, Water heater, Industrial and Manufacturing Engineering, Storage water heater, law.invention, law, Thermal storage, Electrical and Electronic Engineering, Process engineering, Civil and Structural Engineering, Heat pump, Hot water storage tank, Waste management, Computer simulation, Natural refrigerant, business.industry, Mechanical Engineering, System performance enhancement, Building and Construction, Thermal conduction, Pollution, General Energy, Volume (thermodynamics), Storage tank, business
Abstract

application/pdf, Article, Energy. 87, p.435-447

Published
2015

6. Optimization of energy supply systems by MILP branch and bound method in consideration of hierarchical relationship between design and operation

Author

Syusuke Taniguchi, Masashi Ohkura, Tetsuya Wakui, Yuji Shinano, and Ryohei Yokoyama

Subjects
Optimal design, Mathematical optimization, Linear programming, Mixed-integer linear programming, Renewable Energy, Sustainability and the Environment, Computer science, Energy supply systems, Branch and price, Energy Engineering and Power Technology, Control engineering, Optimal operation, Fuel Technology, Nuclear Energy and Engineering, Bounding overwatch, Branch and bound method, Combinatorial optimization, Energy supply, Energy (signal processing), Hierarchical approach, Integer (computer science)
Abstract

application/pdf, Article, Energy Conversion and Management. 92, p.92-104

Published
2015

8. A revised method for robust optimal design of energy supply systems based on minimax regret criterion

Author

Koji Fujiwara, Tetsuya Wakui, Masashi Ohkura, and Ryohei Yokoyama

Subjects
Gas turbines, Optimal design, Mixed-integer linear programming, Energy supply systems, Renewable Energy, Sustainability and the Environment, Computer science, Uncertainty, Multilevel linear programming, Energy Engineering and Power Technology, Regret, Upper and lower bounds, Cogeneration, Fuel Technology, Nuclear Energy and Engineering, Minimax regret criterion, Control theory, Robust optimal design, Energy supply, Energy (signal processing)
Abstract

application/pdf, Article, Energy Conversion and Management. 2014, 84, p.196-208

Published
2014

15. Evolutionary insights into sequence modifications governing chitin recognition and chitinase inactivity in YKL-40 (HC-gp39, CHI3L1).

Author

Keita Suzuki, Kazuaki Okawa, Masashi Ohkura, Tomoki Kanaizumi, Takaki Kobayashi, Koro Takahashi, Hiromu Takei, Momo Otsuka, Eri Tabata, Bauer, Peter O., and Fumitaka Oyama

Subjects
*CHITINASE, *CHITIN, *RECOMBINANT proteins, *GLYCOSIDASES, *CATALYTIC domains, *AMINO acids
Abstract

YKL-40, also known as human cartilage glycoprotein-39 (HC-gp39) or CHI3L1, shares structural similarities with chitotriosidase (CHIT1), an active chitinase, but lacks chitinase activity. Despite being a biomarker for inflammatory disorders and cancer, the reasons for YKL-40's inert chitinase function have remained elusive. This study reveals that the loss of chitinase activity in YKL-40 has risen from multiple sequence modifications influencing its chitin affinity. Contrary to the common belief associating the lack of chitinase activity with amino acid substitutions in the catalytic motif, attempts to activate YKL-40 by creating two amino acid mutations in the catalytic motif (MT-YKL-40) proved ineffective. Subsequent exploration that included creating chimeras of MT-YKL-40 and CHIT1 catalytic domains (CatDs) identified key exons responsible for YKL-40 inactivation. Introducing YKL-40 exons 3, 6, or 8 into CHIT1 CatD resulted in chitinase inactivation. Conversely, incorporating CHIT1 exons 3, 6, and 8 into MT-YKL-40 led to its activation. Our recombinant proteins exhibited properly formed disulfide bonds, affirming a defined structure in active molecules. Biochemical and evolutionary analysis indicated that the reduced chitinase activity of MT-YKL-40 correlates with specific amino acids in exon 3. M61I and T69W substitutions in CHIT1 CatD diminished chitinase activity and increased chitin binding. Conversely, substituting I61 with M and W69 with T in MT-YKL-40 triggered chitinase activity while reducing the chitin-binding activity. Thus, W69 plays a crucial role in a unique subsite within YKL-40. These findings emphasize that YKL-40, though retaining the structural framework of a mammalian chitinase, has evolved to recognize chitin while surrendering chitinase activity. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Investigation of Optimal Configuration of Solar Energy System Considering Configuration of Apparatuses and Electricity Transportation between Interprofessional Consumers

Author

Masashi Ohkura and Shunsuke Mori

Subjects
Engineering, business.industry, Photovoltaic system, Electrical engineering, Solar energy, Thermal energy storage, Grid parity, law.invention, Renewable energy, Photovoltaic thermal hybrid solar collector, Solar air conditioning, law, Physics::Space Physics, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Electrical and Electronic Engineering, business, Process engineering, Heat pump
Abstract

This paper describes about a decision model for solar energy utilization and an investigation of optimal configuration of solar energy system considering electricity transportation between interprofessional consumers. Solar energy is effective energy source for CO2 reduction. Available collectable area for solar energy is limited to consumer's condition. A photovoltaic can supply electricity which is flexible. However its efficiency is low compared to solar heat collector. A solar heat collector has high efficiency. But heat demand varies with consumer type. We investigate optimal ratio of photovoltaic and solar heat collector in several condition. The result shows that solar heat collector is effective energy supply system for consumers which require high hot water demand in daytime. On the other hand, electrical heat pump for hot water supply varies optimal configuration of solar energy system due to the shift of energy source from gas to electricity. To introduce electrical heat pump for hot water supply increases the ratio of photovoltaic due to the increase in electricity demand. However, there is no consumer without solar heat collector. Therefore, solar heat collector does not compare with electrification of consumer.

Published
2010

19. Robust Optimal Design of a Gas Turbine Cogeneration Plant Under Uncertain Energy Demands and Costs

Author

Ryohei Yokoyama, Masashi Ohkura, and Tetsuya Wakui

Subjects
Optimal design, Gas turbines, Cogeneration, Engineering, Robustness (computer science), business.industry, Control theory, Performance comparison, Energy supply, Design methods, business, Reliability engineering
Abstract

In designing energy supply systems, designers should consider that energy demands and costs as parameters have some uncertainties, evaluate the robustness in system performances against the uncertainties, and design the systems rationally to heighten the robustness. A robust optimal design method of energy supply systems under only uncertain energy demands was revised so that it can be applied to systems with complex configurations and large numbers of periods for variations in energy demands. In addition, a method of comparing performances of two energy supply systems under only uncertain energy demands was proposed by utilizing a part of the revised robust optimal design method. In this paper, the revised robust optimal design method as well as the proposed performance comparison method are extended so that they can be applied to the robust optimal design and the performance comparison of energy supply systems under not only uncertain energy demands but also uncertain energy costs. Through a case study on a gas turbine cogeneration system for district energy supply, the validity and effectiveness of the extended optimal design method and features of the robust optimal design are clarified. In addition, the gas turbine cogeneration system is compared with a conventional energy supply system using the extended performance comparison method.

Published
2015

20. Process Configurations and Their Performance Estimations of an Adsorptive Desiccant Cooling Cycle for Use in a Damp Climate

Author

Tsutomu Hirose, Kousuke Andou, Masashi Ohkura, Akio Kodama, and Motonobu Goto

Subjects
Air cooling, Chiller, Engineering, Waste management, business.industry, Passive cooling, General Chemical Engineering, Environmental engineering, General Chemistry, Air conditioning, Waste heat, Active cooling, Water cooling, business, Evaporative cooler
Abstract

Typical adsorptive desiccant cooling process mainly consisting of a rotary dehumidifier and a sensible heat exchanger can be driven with low-temperature heat energy like solar energy or waste heat, and it has been expected to be alternative air conditioning equipment considering various energy/environmental problems such as global warming. However, the fact that the cooling performance is decreased significantly as ambient humidity increases was also found. This is mainly due to a simultaneous increase of humidity and temperature in the process outlet air of dehumidifier. For the use of the cooling process in high humid condition, two process configurations were proposed and investigated by means of simple calculation. One of the proposed configurations, the 4-wheel cycle with double stage dehumidification, indicated a sufficient cooling performance for the use in factories or laboratories even though the ambient humidity was nearly 20 g/kg. Furthermore, the process performance was improved more with water spray evaporative cooling at the inlet of a regeneration air stream in the pre-dehumidification section. This means that lower humidity and lower temperature of air supplied to the process inlet of the dehumidifier is strongly required to give the cooling process a sufficient performance for actual use. Meanwhile, it was found that lower temperature heat around 50–60°C could drive the 4-wheel desiccant cycle in a moderate ambient humidity. The other, a 3-wheel cycle equipped with a total heat exchanger, gave us a reasonable improvement in the cooling effect and COP with less additional investment than that for the 4-wheel cycle.

Published
2003

21. Robust Optimal Operation of a Gas Turbine Cogeneration Plant Under Uncertain Energy Demands

Author

Ryohei Yokoyama, Tetsuya Wakui, and Masashi Ohkura

Subjects
Gas turbines, Mathematical optimization, Engineering, Linear programming, business.industry, Mechanical Engineering, Energy Engineering and Power Technology, Aerospace Engineering, Regret, Control engineering, Reduction (complexity), Cogeneration, Fuel Technology, Nuclear Energy and Engineering, Energy flow, Energy supply, business, Energy (signal processing)
Abstract

Some optimal operation methods based on the mixed-integer linear programming have been proposed to operate energy supply plants properly from the viewpoints of economics, energy saving, and CO2 emission reduction. However, most of the methods are effective only under certain energy demands. In operating an energy supply plant actually, it is necessary to determine the operational strategy properly based on predicted energy demands. In this case, realized energy demands may differ from the predicted ones. Therefore, it is necessary to determine the operational strategy so that it is robust against the uncertainty in energy demands. In this paper, an optimization method based on the mixed-integer linear programming is proposed to conduct the robust optimal operation of energy supply plants under uncertain energy demands. The uncertainty in energy demands is expressed by their intervals. The operational strategy is determined to minimize the maximum regret in the operational cost under the uncertainty. In addition, a hierarchical relationships among operation modes and on/off states of equipment, energy demands, and energy flow rates of equipment are taken into account. First, a general formulation of a robust optimal operation problem is presented, which is followed by a general solution procedure. Then, in a numerical study, the proposed method is applied to a gas turbine cogeneration plant for district energy supply. Through the study, some features of the robust optimal operation are clarified, and the validity and effectiveness of the proposed method are ascertained.Copyright © 2014 by ASME

Published
2014

24. ICOPE-15-1077 Generation of multiple best solutions in multiobjective optimal design of energy supply systems

Author

Masashi Ohkura, Tetsuya Wakui, Ryohei Yokoyama, Yuji Shinano, and Syusuke Taniguchi

Subjects
Optimal design, Mathematical optimization, Cogeneration, Linear programming, Computer science, Branch and bound method, Energy supply, Solver, Multi-objective optimization, Upper and lower bounds
Abstract

Optimization approaches based on the mixed-integer linear programming (MILP) have been utilized to design energy supply systems. In this paper, an MILP method utilizing the hierarchical relationship between design and operation is extended to search not only the optimal solution but also suboptimal ones which follow the optimal one without any omissions, what are called K-best solutions, efficiently in a multiobjective optimal design problem. At the upper level, the values of design variables for the K-best solutions are searched by the branch and bound method. At the lower level, the values of operation variables are optimized independently at each period by the branch and bound method under the values of design variables given tentatively. Incumbents for the K-best solutions and an upper bound for all the values of the objective function for the K-best solutions are renewed if necessary between both the levels. This method is implemented into a commercial MILP solver. A practical case study on the multiobjective optimal design of a cogeneration system is conducted, and the validity and effectiveness of the method are clarified.

Published
2015

27. Robust Optimal Operation of a Gas Turbine Cogeneration Plant Under Uncertain Energy Demands.

Author

Ryohei Yokoyama, Masashi Ohkura, and Tetsuya Wakui

Subjects
*MIXED integer linear programming, *ENERGY research, *GAS turbines, *COGENERATION of electric power & heat, *EMISSION control
Abstract

Some optimal operation methods based on the mixed-integer linear programming (MILP) have been proposed to operate energy supply plants properly from the viewpoints of economics, energy saving, and CO2 emission reduction. However, most of the methods are effective only under certain energy demands. In operating an energy supply plant actually, it is necessary to determine the operational strategy properly based on predicted energy demands. In this case, realized energy demands may differ from the predicted ones. Therefore, it is necessary to determine the operational strategy so that it is robust against the uncertainty in energy demands. In this paper, an optimization method based on the MILP is proposed to conduct the robust optimal operation of energy supply plants under uncertain energy demands. The uncertainty in energy demands is expressed by their intervals. The operational strategy is determined to minimize the maximum regret in the operational cost under the uncertainty. In addition, a hierarchical relationship among operation modes and on/off states of equipment, energy demands, and energy flow rates of equipment is taken into account. First, a general formulation of a robust optimal operation problem is presented, which is followed by a general solution procedure. Then, in a numerical study, the proposed method is applied to a gas turbine cogeneration plant for district energy supply. Through the study, some features of the robust optimal operation are clarified, and the validity and effectiveness of the proposed method are ascertained. [ABSTRACT FROM AUTHOR]

Published
2015
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