Corporate Name |
File
No. |
Title |
| AGC Inc. |
E-47 |
SunEwat |
| AGC Inc. |
F-74 |
Ion-Exchange Membrane for the Production of Caustic Soda |
| AGC Inc. |
F-83 |
High Thermal Insulating and Resisting Ceramic Furnace Wall for Industrial Furnaces |
| AGC Inc. |
O-38 |
Low-E Glass Applicable to Existing Window Panes on the Site |
| AGC Inc. |
O-43 |
Low-Contamination High Thermal Energy Reflectance Fluoropolymer Coating
(High Solar Reflectance Paint) |
| Azbil Corporation |
E-55 |
Chilled Water Plant District Cooling, Large Building, FA Factory and Smart City Energy Center CO2 reduction at heat source plant through optimized control (U-OPT™) |
| Azbil Corporation |
F-88 |
Actival™ motorized two-way valve with flow meter control function |
| Fuji Electric Co., Ltd. |
E-04 |
Geothermal Power Plant |
| Fuji Electric Co., Ltd. |
F-03 |
Fuel Cell Power System |
| Fuji Electric Co., Ltd. |
F-04 |
Energy saving due to Medium Voltage Inverter |
| Fuji Electric Co., Ltd. |
O-35 |
Community Energy Management System (CEMS) |
| Heat Pump & Thermal Storage Technology Center of Japan |
F-08 |
Industrial Heat Pump |
| Heat Pump & Thermal Storage Technology Center of Japan |
O-03 |
Commercial Heat Pump Water Heater |
| Heat Pump & Thermal Storage Technology Center of Japan |
O-04 |
Commercial Heat Pump Air Conditioning System
(Multisystem Air Conditioner for Highly-Efficient Buildings) |
| Heat Pump & Thermal Storage Technology Center of Japan |
O-05 |
Thermal Storage Air Conditioning System |
| Heat Pump & Thermal Storage Technology Center of Japan |
R-03 |
Heat Pump (General Purpose) |
| Heat Pump & Thermal Storage Technology Center of Japan |
R-04 |
Air/Heat Pump Water Heater with Natural-Refrigerant |
| Kanadevia Corporation |
E-08 |
Waste to Energy System |
| Kanadevia Corporation |
E-09 |
Gas Turbine Cogeneration Systems |
| Kawasaki Heavy Industries, Ltd. |
F-21 |
Gas Turbine Cogeneration System |
| Kawasaki Heavy Industries, Ltd. |
F-22 |
Gas Engine |
| Kawasaki Heavy Industries, Ltd. |
F-23 |
Steam Turbine Facilities for Environment-oriented Power Generation |
| Kawasaki Heavy Industries, Ltd. |
F-24 |
Waste Heat Recovery Power Plant |
| Kawasaki Heavy Industries, Ltd. |
F-25 |
Waste Treatment Systems Using Cement Kiln |
| Kawasaki Heavy Industries, Ltd. |
F-27 |
Highly efficient once-through boiler |
| Kawasaki Heavy Industries, Ltd. |
F-85 |
Pump Speed Control Type Electro-Hydraulic Hybrid System |
| Kawasaki Heavy Industries, Ltd. |
O-15 |
Triple Effect Absorption Chiller-heater |
| Kawasaki Heavy Industries, Ltd. |
S-08 |
Top-Pressure Recovery Turbine Plant (TRT) |
| Kurita Water Industries Ltd. |
F-86 |
Technology for improving energy efficiency of heat exchangers |
| Mitsubishi Electric Corporation |
C-16 |
SiC Applied Inverter Drive System for Railway Cars |
| Mitsubishi Electric Corporation |
F-34 |
General-Purpose Inverter |
| Mitsubishi Electric Corporation |
O-18 |
Machine-Room-Less Elevator |
| Miura Co., Ltd. |
F-36 |
Energy Saving by Multiple Installation System of High-efficiency Small
Once-through Boilers and Energy Management System |
| Nikken Sekkei Ltd. |
O-20 |
Sophisticated Green Building Design |
| Nikken Sekkei Ltd. |
O-21 |
Mirror Duct System to Use Natural Light |
| Nikken Sekkei Ltd. |
O-22 |
An Office Building as a Large Sustainable Device |
| Nikken Sekkei Ltd. |
O-23 |
Embracing the Environment with Wood |
| Nikken Sekkei Ltd. |
O-34 |
Sustainable Urban Design & Management System |
| Nippon Koei Co., Ltd. |
E-19 |
Engineering Services for Geothermal Development |
| Nippon Koei Co., Ltd. |
E-48 |
Consulting Service for Low Carbon Projects (Energy Conservation / Renewable Energy) |
| NIPPON STEEL CORPORATION |
S-17 |
NS-Tundish Plasma Heater |
| NIPPON STEEL ENGINEERING CO., LTD. |
E-20 |
Waste to Energy Facility (Shaft Type Gasification Melting Furnace) |
| NIPPON STEEL ENGINEERING CO., LTD. |
E-21 |
On-site Energy Supply Business |
| NIPPON STEEL ENGINEERING CO., LTD. |
E-45 |
Waste to Energy Facility (Stoker Furnace) |
| NIPPON STEEL ENGINEERING CO., LTD. |
S-09 |
Rotary Hearth Furnace (RHF) |
| NIPPON STEEL ENGINEERING CO., LTD. |
S-10 |
Coke Dry Quenching (CDQ) |
| NIPPON STEEL ENGINEERING CO., LTD. |
S-11 |
Coal Moisture Control (CMC) |
| NIPPON STEEL ENGINEERING CO., LTD. |
S-12 |
Reheating Furnace with Regenerative Combustion System for Steel Works |
| NIPPON STEEL ENGINEERING CO., LTD. |
S-13 |
Dry-process Dust Collector for Blast Furnaces |
| NIPPON STEEL ENGINEERING CO., LTD. |
S-14 |
Exhaust Heat Recovery System for Hot Air Stoves |
| NIPPON STEEL ENGINEERING CO., LTD. |
S-15 |
Top Combustion Hot Blast Stove |
| NIPPON STEEL ENGINEERING CO., LTD. |
S-16 |
Direct Reduced Iron (DRI) Production Plant |
| Osaka Gas Co., Ltd. |
E-51 |
Energy Saving Services |
| Osaka Gas Co., Ltd. |
E-52 |
Consulting services for establishing and operating LNG receiving terminals,based on more than 50 years of accumulated know-how |
| Osaka Gas Co., Ltd. |
E-53 |
Technology for improving biogas value |
| Osaka Gas Co., Ltd. |
E-54 |
New material continues to cool using zero energy,while dissipating heat into atmosphere |
| RESC, Ltd. |
E-56 |
Battery Sharing Platform |
| SANKEN SETSUBI KOGYO CO., LTD. |
O-44 |
Latent Heat Sensible Heat Separation Air Conditioning System Capable of Utilizing Renewable Energy |
| SANKEN SETSUBI KOGYO CO., LTD. |
O-45 |
Dehumidifying air supply unit with “Zero Energy Consumption Precooling and Reheating” |
| Sekisui Chemical Co., Ltd. |
F-72 |
SPR Method (a Trenchless Sewage Pipeline Renewal Method) |
| Takasago Thermal Engineering Co., Ltd. |
F-87 |
Swirling Induction Type HVAC System SWIT®/TCR-SWIT® |
| The Furukawa Battery Co., Ltd. |
E-59 |
Maximum life of 20 years: Lead-acid battery for renewable energy storage |
| TLV |
F-42 |
Energy-saving Free Float Steam Trap |
| TLV |
P-06 |
Steam Condensate Recovery Pump Requiring No Electricity (Mechanical Pump) |
| Tokyo Electric Power Company Holdings, Incorporated |
E-29 |
Engineering Service: Power System Planning |
| Tokyo Electric Power Company Holdings, Incorporated |
E-30 |
Engineering Service: Network Protection Scheme |
| Tokyo Electric Power Company Holdings, Incorporated |
E-31 |
Engineering Service: Distribution Automation System (DAS) |
| Tokyo Electric Power Company Holdings, Incorporated |
E-32 |
Engineering Service: Technical Support in Energy-saving Master Planning |
| Tokyo Electric Power Company Holdings, Incorporated |
O-24 |
High-efficiency Heat Supply System
(Unused Energy Utilization and Heat Recovery Heat Pump) |
| Toshiba Corporation |
E-33 |
SCiBTM Long-Life Lithium Ion Rechargeable Battery |
| Toshiba Corporation |
O-32 |
Green Concept Elevators |
| Toshiba Energy Systems & Solutions Corporation |
E-34 |
Adjustable Speed Pumped Storage Systems |
| Toshiba Industrial Products and Systems Corporation |
E-46 |
High-efficiency Transformers Friendly to the Global Environment |
| Toshiba Industrial Products and Systems Corporation |
F-68 |
Premium Gold Motor |
| Toshiba Industrial Products and Systems Corporation |
F-69 |
PM Motor |
| Toshiba Infrastructure Systems & Solutions Corporation |
C-12 |
Permanent Magnet Synchronous Motor for Rolling Stock (PMSM) and 4-in-1 Variable-Voltage Variable-Frequency (VVVF) Traction Inverter for driving PMSM |
| Toshiba Infrastructure Systems & Solutions Corporation |
E-58 |
Cloud based PLC |
| Toshiba Infrastructure Systems & Solutions Corporation |
F-89 |
Distributed Control System TOSDIC VS |
| Toyo Engineering Corporation |
F-76 |
Heat Integrated Distillation Column (HIDiC) |
| Toyo Engineering Corporation |
P-07 |
Energy-saving Urea Synthesis Process |
| Toyo Engineering Corporation |
P-08 |
High-efficiency Ethane & LPG Recovery Process |
| Yokogawa Electric Corporation |
E-44 |
Yokogawa’s CENTUM VP Utilized at World’s Only Fully Operational Ocean
Thermal Power Generation Facility |
| Yokogawa Electric Corporation |
F-60 |
Integrated Production Control System |
| Yokogawa Electric Corporation |
F-62 |
Energy-saving Control for Various Utilities |
| Yokogawa Electric Corporation |
E-57 |
Control and optimization solutions for renewable energy assets |
| Yokogawa Test & Measurement Corporation |
E-38 |
Support for Improving Power Conversion Efficiency and Power Quality in Solar Power Generation Systems, and Correlation Analysis of Data |
