Breaking away from exorbitant and expensive power transmission in rural and rural areas

         Cogeneration type micro power generation system

  CMB PG System: Cogenerated Micro Binary Power Generation System)

The cogeneration type micro-binary power generation system (CMB PG System) under development utilizes clean energy such as (1) natural gas and (2) geothermal energy (steam and hot water), which are renewable energies with low environmental load. , Gas turbine generator and steam turbine generator generate power (= power generation), and at the same time, effectively use the heat generated during power generation (Cogenerate) for hot water supply and heating / cooling to reduce energy loss. That is.

On-site power generation and heat production in a regional distributed form for each self-sufficiency zone

The cogeneration-type micro-binary power generation system CMB under development utilizes natural and renewable energy and generates power in a regional distributed form for each self-sufficient area connected by a smart grid transmission and distribution network (on-site power generation, in other words, in other words. It is an autonomous distributed power supply system that supplies power (on-site power) to the self-sufficient area (specifically, on-site power transmission and distribution using a smart grid) by performing distributed power generation.

A water-soluble natural gas deposit (natural gas field) boasting reserves of about 600 years in terms of current production in the shale layer of sedimentary rock in the deep part (1,000 to 2,000 m) of the Kanto Loam Formation. Is sleeping.

The cogeneration-type microbinary power generation system CMB uses geothermal energy (steam and hot water), which is renewable energy collected from deep layers, to operate a steam turbine to generate electricity, and at the same time, it can be collected from a water-soluble natural gas deposit. Renewable energy (1) Water-soluble natural gas (natural air) and geothermal energy are used to operate a gas turbine to generate electricity.

In the on-site power generation / transmission / distribution (in other words, distributed power generation / transmission / distribution) used in the cogeneration-type micro-binary power generation / transmission / distribution system under development, the generated power / heat can be effectively used.

Compared to the "large-scale / centralized power generation system & large-scale / long-distance power transmission / distribution system" that is currently the mainstream of the electric power business, transmission loss (in other words, power loss) and electric heat loss (in other words, power loss) It is possible to realize a power generation and power transmission / distribution system that has low heat dissipation loss), is highly efficient, and can greatly contribute to energy saving and cost saving.

Specifically, if you transmit 100km, 50% of the power will be lost. (Transmission loss)

In other words, the cogeneration-type micro-binary power generation / transmission / distribution system under development is a novelty that confronts the "large-scale / centralized power generation system & large-scale / long-distance power transmission / distribution system" that is currently the mainstream of the electric power business. It is a "small-scale, distributed power supply system & local smart grid type power transmission and distribution system" suitable for the 21st century, which is a technical field and electric power business field that has both progressiveness and progress.

In cooperation with the movement of localization in each region, we will deploy a power generation generation belt (Geothermal Power Belt) using our cogeneration type microbinary power generation / transmission / distribution system (distributed power business) across the Japanese archipelago nationwide. Our desire is to realize a business model that will continue to grow.  

The Institute for Artificial Evolution (AERI) hopes for joint development with your company, which boasts capital and development capabilities, with the aim of realizing the above business model.

​ The cogeneration-type micro-binary power generation / transmission / distribution system promoted by the Institute for Artificial Evolution (AERI) and the above business model are extremely ambitious as they can be global strategic products for new businesses (electric power businesses) of companies aiming to enter the market. R & D, I think it is a product field.

                     Cogeneration type microbinary power generation / transmission / distribution system

A water-soluble natural gas deposit (natural gas field) boasting reserves of about 600 years in terms of current production in the shale layer of sedimentary rock in the deep part (1,000 to 2,000 m) of the Kanto Loam Formation. Is sleeping.

The cogeneration-type micro-binary power generation system under development uses a binary cycle system for heat exchange, and is a renewable energy that can be collected from the water-soluble natural gas deposit in the Kanto loam layer. It is a hybrid power generation system that uses both natural gas) and geothermal energy (steam and hot water), which is also renewable energy collected from the same deep layer, and is at the level of 2 million kW in 2021 on the industrial belt on the Tokyo Bay coast. The power generation capacity of is a commercial target.

The cogeneration-type micro-binary power generation system under development in Japan has many areas suitable for binary power generation, and if it spreads nationwide, it will be possible to permanently supply the power equivalent to eight nuclear power plants. Focusing on this point, it is used as the backbone of the power generation system.

The cogeneration-type micro-binary power generation system under development has a combined configuration of a combined cycle method for using natural gas in the fuel system and a micro-binary power generation method for using the geothermal system (in other words, a tandem-type power generation method). The biggest feature is that it is systematized as a power generation unit (power generation unit).

(1) Power generation by combined cycle method

The combined cycle method is based on a configuration in which a gas turbine is connected to the front stage and a steam turbine is connected to the rear stage in tandem. The gas turbine in the previous stage is used to generate the driving force for the generator. In parallel with this, the exhaust heat generated by the gas turbine and the geothermal energy (steam) are effectively used to generate the generator driving force in the steam turbine as well. It has the highest energy efficiency among existing thermal power generation methods, and at the same time emits less CO2.

(2) Power generation by micro binary power generation method

The cogeneration-type micro-binary power generation system adopts a hybrid power generation method that uses both (1) natural gas, which is renewable energy, and (2) geothermal energy (hot water and water vapor), which is renewable energy, as power generation energy.

Specifically, natural gas is used to heat (1) combined cycle fuel system and (2) binary power generation working fluid. At the same time, (1) geothermal heat (hot water and steam) and (2) hot water generated by the combined cycle method are used to heat the working fluid of the binary power generation method.

As a result, the two major issues of geothermal power generation, (1) decay of power generation over time and (2) low energy efficiency, are both solved at the same time.

(3) Equipment scale

For cogeneration-type micro-binary power generation systems, we believe that the power generation capacity of each generator is in the 500,000 kW (5 MW) class as a guideline on a commercial basis.

Regarding the installation space (installation area), for example, in the case of a power generation facility of 500,000 kW (5 MW) class, the power generation facility is installed on the site of a convenience store with 384 square meters (116 tsubo width 16 meters x depth 24 meters). I can do it.

As mentioned above, if the commercial target is a power generation capacity of 2 million kW level (500,000 kW (5 MW) class x 4 units), the 465 installation space can be compactly accommodated to about 465 tsubo.

If you have a land of about 1,000 tsubo, you can achieve a power generation capacity of 4 million kW level (500,000 kW (5 MW) class x 8 units).

For this reason, for example, four 500,000 kW class / unit cogeneration-type microbinary power generation systems can be installed in a hollow area of about 500 tsubo or an idle land in the coastal industrial zone (Keihin industrial zone and Keiyo industrial zone) on the Tokyo Bay coast. , 2 million kW of electricity will be able to be supplied in the self-sufficient area (specifically, the metropolitan area).

By constructing the required number of the above power generation systems, the above Tokyo Bay coastal industrial zone can be revived, regenerated and transformed into a major industrial belt (renewable energy power generation industrial zone) in the 21st century.

The Keihin Industrial Zone is the west coast of Tokyo Bay, and is a coastal area from Ota Ward, Tokyo, through Kawasaki City, to Yokohama City. The Keiyo Industrial Zone is the eastern shore of Tokyo Bay, a coastal area from Urayasu City to Futtsu City in Chiba Prefecture.

The Institute for Artificial Evolution (AERI) predicts that power generation facilities will be expanded at a rapid pace toward the 2020s.

With the full liberalization of electricity and gas retailing, the structure of the energy industry is expected to change significantly, and we are proceeding with development with the aim of establishing a solid position in the electric power business, which has a market size of 20 trillion yen.

At the same time, it is envisioned that a solar power generation facility will be constructed using the sky above the site of the cogeneration-type microbinary power generation system under development (specifically, the rooftop of the building).

​ The Institute for Artificial Evolution (AERI) will put in place a power generation system capable of supplying at least 4 million kW of electricity by 2020.

However, when installing a new power generation facility with an output of 150,000 kW or more, an environmental impact assessment procedure is required. It is necessary to send the consideration letter, which is the first stage of the procedure, to the Minister of Economy, Trade and Industry, the Governor of Kanagawa Prefecture, and other related parties. If all goes well, the application procedure for environmental impact assessment will be completed in about three years. Construction work can be started after the approval of this environmental impact assessment.

The power produced by the above cogeneration-type microbinary power generation system will be supplied and sold as new power for the self-sufficient area (specifically, the metropolitan area).

We believe that the rise of the above-mentioned Cogenerated Micro Binary Power generation System (CMB PG System), which we are developing, can change the power balance of energy investment currently underway. ..

That is, both the conventional investment positions of "investment in fossil fuel power generation business" and "investment in non-fossil fuel power generation business" are shifted to the investment position in CMB at the same time, and the two conventional types We believe that we will shrink our investment position.

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