Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Siti Sendari, Mokh Sholihul Hadi, Yuni Rahmawati, Nur Cholis Hadi, Fauzy Satrio Wibowo, Danang Arengga Wibowo, Whyna Agustin, Ira Kumalasari, Indriyani Rachman, And Toru Matsumoto

Judul : Design and analysis of safety hazardous gas instruments for laboratory experiments

Abstrak :
In this paper, a safety of hazardous gas instruments for laboratory experiments was designed using a microcontroller and connected to personal computer to save the data. Here, the carbon monoxide gas (CO) and methane gas (CH4) sensors are applied to the systems to measure the concentration of gases in case of laboratory. Commonly, the gas instruments are used in object tested directly without considering the flow of gases toward the user. Comparing to that system, in order to protect the users’ safety from of direct contact with the gases, inlet-outlet pipes and fill-discharge tubes are used in this proposed system. The performance of the proposed system is analysed trough experiments. Some results were presented according to the time of activating inlet to inject the gas. Thus, the effect of changing the gas concentration was analysed

Tahun : 2021 Media Publikasi : Prosiding

Kategori : Prosiding No/Vol/Tahun : 020006 / 2173 / 2019

ISSN/ISBN : doi : https://doi.org/10.1063/1.5133921

PTN/S : University of Kitakyushu Program Studi : PENDIDIKAN ILMU PENGETAHUAN ALAM

Bibliography :
[1] I. M. Joni, Y. A. Hidayati, T. B. A. Kurnani, E. T. Marlina, K. N. Rahmah, H. Ellin, AIP Conference Proceedings 1927. (AIP Publishing) Vol. 1927, pp. 30021-1-30021–4, 2018. [2] A. Demirbas, Methane Gas Hydrate, vol. X. 2010. [3] L. W. Cheng, L. Z. Qing, Z. Z. Xin, L. Hai, Applied Mechanics and Materials 220-223:517-520, 2016. [4] N. Fareeza et al, IOP Conf. Ser. Earth Environ. Sci. 32 012042, 2016. [5] M. B. Frish, Proceedings of the SPIE, Volume 9101, id. 91010H 12 pp. (2014) [6] D.-D. Lee and D.-S. Lee, IEEE Sens. J., Vol. 1, no. 3, pp. 214–224, 2001. [7] W. Vapor and H. Dew-point, Technical paper water vapor and hydrocarbon dew-point in natural gas, 2011. [8] L. Asiyanthi, N. Hirofumi, S. Takayuki, Kyushu University Institutional Repository, Vol. 75, no. 1, pp. 29–46, 2015. [9] D. Sudhir, S. N. Pawar, International Journal of Computer Applications, Vol. 121, no. 14, pp. 34–38, 2015. [10] D. Gonzá, E. R. González, and M. M. D. Pérez, Journal of Laboratory Chemical Education, Vol. 1, no. 2, pp. 11–18, 2013. [11] C. Monoxide, MQ-7 gas sensor, Vol. 1, pp. 3–5. [12] P. Information, Product information TGS 2611 - for the detection of methane basic measuring circuit [13] M. E. Khan, International Journal of Advanced Computer Science and Applications, Vol. 3, no. 6, pp. 12–15, 2012. [14] T. Yumoto, T. Matsuodani, and K. Tsuda, Procedia - Procedia Computer Science, Vol. 22, pp. 551–560, 2013. [15] K. Sunil, G. Aaklin, G. Deven, Proceedings of the 10th INDIACom; INDIACom-2016. IEEE Conference ID: 37465) pp. 3803-3807, 2016.

URL : https://aip.scitation.org/doi/10.1063/1.5133921

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Detail Karya Ilmiah Dosen

Siti Sendari, Mokh Sholihul Hadi, Yuni Rahmawati, Nur Cholis Hadi, Fauzy Satrio Wibowo, Danang Arengga Wibowo, Whyna Agustin, Ira Kumalasari, Indriyani Rachman, And Toru Matsumoto

Judul	:	Design and analysis of safety hazardous gas instruments for laboratory experiments
Abstrak	:	In this paper, a safety of hazardous gas instruments for laboratory experiments was designed using a microcontroller and connected to personal computer to save the data. Here, the carbon monoxide gas (CO) and methane gas (CH4) sensors are applied to the systems to measure the concentration of gases in case of laboratory. Commonly, the gas instruments are used in object tested directly without considering the flow of gases toward the user. Comparing to that system, in order to protect the users’ safety from of direct contact with the gases, inlet-outlet pipes and fill-discharge tubes are used in this proposed system. The performance of the proposed system is analysed trough experiments. Some results were presented according to the time of activating inlet to inject the gas. Thus, the effect of changing the gas concentration was analysed
Tahun	:	2021	Media Publikasi	:	Prosiding
Kategori	:	Prosiding	No/Vol/Tahun	:	020006 / 2173 / 2019
ISSN/ISBN	:	doi : https://doi.org/10.1063/1.5133921
PTN/S	:	University of Kitakyushu	Program Studi	:	PENDIDIKAN ILMU PENGETAHUAN ALAM
Bibliography	:	[1] I. M. Joni, Y. A. Hidayati, T. B. A. Kurnani, E. T. Marlina, K. N. Rahmah, H. Ellin, AIP Conference Proceedings 1927. (AIP Publishing) Vol. 1927, pp. 30021-1-30021–4, 2018. [2] A. Demirbas, Methane Gas Hydrate, vol. X. 2010. [3] L. W. Cheng, L. Z. Qing, Z. Z. Xin, L. Hai, Applied Mechanics and Materials 220-223:517-520, 2016. [4] N. Fareeza et al, IOP Conf. Ser. Earth Environ. Sci. 32 012042, 2016. [5] M. B. Frish, Proceedings of the SPIE, Volume 9101, id. 91010H 12 pp. (2014) [6] D.-D. Lee and D.-S. Lee, IEEE Sens. J., Vol. 1, no. 3, pp. 214–224, 2001. [7] W. Vapor and H. Dew-point, Technical paper water vapor and hydrocarbon dew-point in natural gas, 2011. [8] L. Asiyanthi, N. Hirofumi, S. Takayuki, Kyushu University Institutional Repository, Vol. 75, no. 1, pp. 29–46, 2015. [9] D. Sudhir, S. N. Pawar, International Journal of Computer Applications, Vol. 121, no. 14, pp. 34–38, 2015. [10] D. Gonzá, E. R. González, and M. M. D. Pérez, Journal of Laboratory Chemical Education, Vol. 1, no. 2, pp. 11–18, 2013. [11] C. Monoxide, MQ-7 gas sensor, Vol. 1, pp. 3–5. [12] P. Information, Product information TGS 2611 - for the detection of methane basic measuring circuit [13] M. E. Khan, International Journal of Advanced Computer Science and Applications, Vol. 3, no. 6, pp. 12–15, 2012. [14] T. Yumoto, T. Matsuodani, and K. Tsuda, Procedia - Procedia Computer Science, Vol. 22, pp. 551–560, 2013. [15] K. Sunil, G. Aaklin, G. Deven, Proceedings of the 10th INDIACom; INDIACom-2016. IEEE Conference ID: 37465) pp. 3803-3807, 2016.
URL	:	https://aip.scitation.org/doi/10.1063/1.5133921