この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。昨日、リアクトデザインのアドバンテージとデザインのアドバンテージが説明しました。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。この朝、リアクトデザインについて説明します。朝、リアクトデザインについて説明します。まず、適当に供入力を負担するため、SFR cycle system is sufficiently small compared to other risks existing in society.このセクションは、ネクリアのエネルギーの抜群の抜群が必要です。このセクションは、私にとっては重要です。そして、このセクションは、エコロミックの強力です。SFRは、COSのSFRは、少し高いコンベンチの抜群の抜群の抜群の抜群の抜群です。このセクションは、エコロミックの強力です。COSの抜群は、非常に重要です。COSの強力は、エレクトリースティーの抜群の抜群の抜群の抜群の抜群の抜群です。このセクションは、エコロミックの強力です。そして、エコロミックの強力で、エクスポージャーの抜群の抜群の抜群の抜群で、TRUの抜群の抜群の抜群の抜群の抜群です。SFRの補助の効果は長期 demand for energy will keep increasing and the global scale.SFR system should possess the flexibility to adopt the changing energy needs by adjusting its active management capability.and also resistance to nuclear proliferation and enhance physical protection to exclude pure plutonium state throughout system flow.Inclusion of minor accident and highly radioactive fission product enhance the difficulty of accessing the nuclear material and lower their attractiveness.So this development target also described in the generation for booklet.There are many, there are four generation for reactor concept in SFR.First one is this one, Japanese sodium cooled first reactor.This is the monolithic large SFR, full type, loop type.So it is very unique to you.I would like to explain what the system is.This is the reactor vessel.And this is primary pump and intermediate heat exchanger.These two equipment are integrated to one equipment.And this is these two steam generators.S sodium will enter from the pump like this and then go through the reactor core and exit from the hot leg piping like this.Then go to the intermediate heat exchanger first and then primary pump.The primary pump pressurized the sodium.Then go back to reactor vessel called plenum.The intermediate circuit concerns the intermediate circuit.There is an intermediate circuit piping here like this.And the secondary pump is located here like this.After steam generator, then go back to like this.The size of this monolithic loop type is assumed like this.Example sodium first reactor is named as example sodium first reactor is like this.Maybe this one is explained yesterday, very detailed.So I will skip.This one is also the full type configuration SFR proposed by Korea.This one assumed the size as intermediate to large size practice.This is the pull.And this one is I guess this one is the IHL adge heater removal stack.I guess next is very small size pull type named AFR.Or modular SFR configuration like this.These are the example for the generation for SFR.Discussed in GIF generation for international forum.Next.I would like to explain what innovative technologies are incorporated in generation for SFR.I am devoted myself to the development of Japanese SFR.I would like to discuss the example of innovative technology by using the Japanese SFR loop type SFR.This is the list of innovative technologies in SFR which is included in JSFR.The first, in the core, all these ODS, Oxide dispersion, one cladding to achieve higher burn-up with elevated temperature.The ODS cladding is new to SFR.So we have made a series of research and development and decided to incorporate this innovative technology into the generation for SFR.Another one is this one from the economics.Two loop configuration.It is very new.Because this thermal output is 1,500 megawatt electricity.So the normal case, the loop will be 4 or 6.But in this case, two cooling system is adopted in order to reduce the plant bacteria.which means the plant cost, construction cost.And the shortening of piping with high chromium still.I will show you the plant layout in Monju.The piping layout is very long, very huge.So it is very necessary to shorten the piping.That's why we are trying to shorten the piping with high chromium still.Next is Integrated Pump IHX Component like this.Compact Reactor Vestor like this.Next, right hand side, the double wall piping.All the piping are doubled.Team Generator, this one is also double wall tube in order to exclude the water sodium reaction.Finally, the enhancement of reactor safety.Possible reactor shutdown is adopted in this.And heat removal by natural circulation also confirmed.Re-criticality free core is adopted.I will show you more detail in the next slide.This is the reactor core configuration.As I have mentioned, the re-criticality free core.This is the molten fuel discharge duct as a corner of rubber tube.If we face very, very local possibility.But we in SFP people assume to the core disruptive accident.In that case, molten fuel, some of the reactor core is meltdown.In such a case, the molten fuel discharge like this.Which means that the re-criticality free design.Next one is safety.As I have explained, the re-criticality free core.And the investor retention against CDA.Then we have conducted the IGR in NSC of Kazakhstan.We have experimented.But unfortunately, due to the Fukushima accident.This experiment is stopped now.And enhanced passive safety.SAS self shutdown system is adopted here.This one is confirmed by using JOIO.And passive safety by natural circulation.Due to this innovative technology.The economics competitiveness like this.In Monju like this.Electricity output is like this.280 and the plant size is like this.In the generation for sodium cooled first reactor case.The electricity output is like this.And the plant size is reduced.Electricity output of generation first reactor is about four times.But such area is about one fourth.So these are the examples of the innovative technology.Which are incorporated in generation four.These examples will be shared with another first reactor.Thank you very much.