Preliminary Study on Mass Flow Rate in Passive Cooling Experimental Simulation During Transient Using NC-Queen Apparatus

Juarsa, Mulya; Purba, Julwan Hendry; Kusuma, H.M.; Setiadipura, Topan; Widodo, Surip

doi:10.17146/aij.2014.333

Cited by 15 publications

(10 citation statements)

References 14 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Belajar dari pengalaman kecelakaan pembangkit listrik tenaga nuklir (PLTN) di Fukushima, Dai-ichi, Jepang tahun 2011 ketika sistem pendingin aktif (pompa) gagal dalam pendinginan reaktor, memicu studi terkait aplikasi sistem pendingin pasif (tanpa pompa) dalam peningkatan manajemen keselamatan PLTN [3], [10]. Kajian terkait laju aliran sirkulasi alam sebagai dasar dari sistem pendingin pasif telah dilakukan sejak tahun 2011 oleh Juarsa dkk [5]. Fasilitas eksperimen skala besar diberi nama untai uji Fasilitas Simulasi Sistem Pasif-02 (FASSIP-02) adalah salah satu fasilitas untuk mempelajari aliran sirkulasi alam akibat adanya gaya apung bouyancy dan gaya gravitasi [2], [9].…”

Section: Pendahuluanunclassified

Karakteristik Energi Internal Penukar Kalor Berdasarkan Variasi Temperatur Pemanas Sirkulasi Alam Untai Uji Fassip-02

Giarno¹,

K.²,

Rosidi³

et al. 2022

JTMI

View full text Add to dashboard Cite

Kecelakaan PLTN di Fukushima Dai-ichi, Jepang, pada tahun 2011 telah menunjukkan kegagalan sistem pendingin aktif (pompa) untuk mendinginkan reaktor, yang memicu kajian terkait penerapan sistem pendingin pasif (tanpa pompa) untuk pengembangan manajemen keselamatan di PLTN. Kajian tentang laju aliran sirkulasi alami sebagai dasar sistem pendingin pasif telah dilakukan sejak tahun 2011 di PRTRKKN dengan menggunakan fasilitas eksperimental skala besar yang disebut uji loop FASSIP-02. Fasilitas ini memiliki sistem penukar panas tipe U di tangki pendinginnya, yang merupakan bagian penting dari proses pembuangan ke lingkungan. Dengan demikian, kajian ini bertujuan untuk menganalisis perubahan energi yang terjadi pada penukar panas selama kondisi tunak. Kajian dilakukan secara eksperimental, dan perhitungan perubahan energi dalam dilakukan dengan menggunakan data suhu dan variasi laju aliran sirkulasi alami yang terjadi pada variasi suhu pada bagian pemanasan yaitu 40°C, 50°C, dan 60°C. Data perbedaan suhu diperoleh dari suhu masuk dan keluar pada heat exchanger dengan menjaga kondisi steady selama 5 jam dari total waktu percobaan 24 jam. Hasil percobaan menunjukkan bahwa perubahan energi dalam meningkat seiring dengan laju aliran sirkulasi alam yang terjadi.

show abstract

Section: Pendahuluanunclassified

Karakteristik Energi Internal Penukar Kalor Berdasarkan Variasi Temperatur Pemanas Sirkulasi Alam Untai Uji Fassip-02

Giarno¹,

K.²,

Rosidi³

et al. 2022

JTMI

View full text Add to dashboard Cite

show abstract

“…The results showed that heat pipe has good cooling capability and can be proposed as passive cooling system in nuclear spent fuel storage pool [7,8]. In another investigation, as a preliminary research, previous research has been done using small test loop called NC-QUEEN for transient condition [9] we also have been constructed the FASSIP-01 loop research facility in order to investigate natural circulation flow based on the rectangular loop with medium size which is placed vertically. The HSS (heat sink system) loop used as cooling system to the cooler thank in the rectangular loop.…”

Section: Introductionmentioning

confidence: 99%

Estimation of natural circulation flow based on temperature in the FASSIP-02 large-scale test loop facility

Juarsa

Antariksawan

Kusuma

et al. 2018

IOP Conf. Ser.: Earth Environ. Sci.

View full text Add to dashboard Cite

Abstract. In the future, the use of passive cooling system without electrical power input become highly considered to be implemented in the design of nuclear reactor safety system. Moreover, the lessons learned from the Fukushima-Daiichi accident encourage the incorporation of such passive cooling system. The passive safety cooling system is aimed to cope with both design bases as well as severe accidents. The natural circulation is one example parameter of the passive cooling system features being widely considered. However, some of the parameters involving in natural circulation are still being investigated, in particular the problem of flow instability. BATAN is designing a large-scale test loop facility, named FASSIP-02 loop, with a height of 11 meters between a heat source and a cooling source. The FASSIP-02 loop is designed to simulate the residual heat in the reference reactor. To ensure the validity of the design prior to the construction, it is necessary to make an analytical calculation using some correlations to estimate the natural circulation flow rate. The calculation method is performed by using the derived two principle correlations of the buoyancy force in the heating section and the gravitational force on the cooling section. The water temperatures in the heating section are varied at 50ºC, 60ºC, 70ºC, 80ºC and 90ºC with the water temperature in the cooling tank pool are varied at 10ºC, 20ºC, 30ºC, 40ºC and 50ºC. The calculation results can estimate the water temperature and volume are required. In addition, it could be used to determine the experimental matrix that is based on the FASSIP-02 loop design.

show abstract

“…The researches by (10)(11)(12)(13)(14) are the study on done to study the generated natural flow (19). After that, a large scale verticalrectangular loop, so-called FASSIP-01, has been constructed and was used to study the stability of the natural circulation (20).…”

Section: Introductionmentioning

confidence: 99%

Simulation of Operational Conditions of Fassip-02 Natural Circulation Cooling System Experimental Loop

Antariksawan

Widodo²,

Juarsa³

et al. 2018

Sains dan Teknologi Nuklir Indonesia

View full text Add to dashboard Cite

SIMULATION OF OPERATIONAL CONDITIONS OF FASSIP-02 NATURAL CIRCULATION COOLING SYSTEM EXPERIMENTAL LOOP. The natural circulation is considered in the design of emergency passive core cooling system in a nuclear power plant. In that context, FASSIP-02 experimental loop is designed in order to investigate the characteristics of the natural circulation in a closed loop. This paper simulates the various operational conditions of FASSIP-02. The objective is to obtain the best operational conditions of FASSIP-02 once it is built. For that purpose, the simulation is done with different condition of the heater power, the pipe insulation and the expansion tank's valve using RELAP5 code. The simulation time is up to 50,000 s. The simulation results show that until 50,000 s the steady state condition could not be achieved yet when the heater power greater than 10 kW. The pipe insulation causes faster increase of the water temperature inside the pipe and the induced water flow rate, as well. While, if the expansion tank's valve is closed during the operation, the pressure inside the loop would increase, faster when the heater power is higher and could reach the critical pressure. It is concluded that in all cases to avoid the saturation condition, the heater power should be maintained lower than 10 kW, especially when the loop pipe is insulated.

show abstract

Preliminary Study on Mass Flow Rate in Passive Cooling Experimental Simulation During Transient Using NC-Queen Apparatus

Cited by 15 publications

References 14 publications

Karakteristik Energi Internal Penukar Kalor Berdasarkan Variasi Temperatur Pemanas Sirkulasi Alam Untai Uji Fassip-02

Karakteristik Energi Internal Penukar Kalor Berdasarkan Variasi Temperatur Pemanas Sirkulasi Alam Untai Uji Fassip-02

Estimation of natural circulation flow based on temperature in the FASSIP-02 large-scale test loop facility

Simulation of Operational Conditions of Fassip-02 Natural Circulation Cooling System Experimental Loop

Contact Info

Product

Resources

About