Design of cigarette disposal blower and automatic freshner using mq-5 sensor based on atmega 8535 microcontroller

  • Authors

    • M Miftakul Amin Politeknik Sriwijaya
    • M Azel Aji Nugratama Politeknik Sriwijaya
    • Andino Maseleno Universiti Tenaga Nasional
    • Miftachul Huda Universiti Teknologi Malaysia
    • Kamarul Azmi Jasmi Universiti Teknologi Malaysia
    2018-06-23
    https://doi.org/10.14419/ijet.v7i3.11917
  • Cigarette disposal, automatic freshner, microcontroller.
  • Design is an important thing in this research. This design includes the specifications of the components contained in the circuit and how the circuit works. In the early stages, component selection is done as needed. After getting the required components, the next step is the design and manufacture of tools. This design is intended to learn the circuit and work system tool that will be made. The purpose of making this tool is design and make blower smoke and auto fragrance disposal using MQ-5 sensor based microcontroller ATMega 8535. The benefits of making smoke disposal and auto fragrance blower using MQ-5 sensor based microcontroller ATMega 8535 is to dispose cigarette smoke and automatically fragrances the room to prevent the build-up of cigarette smoke in a room and to help minimize the dangers of cigarette smoke for passive smokers so that the air circulation in the room keeps going well.

     

  • References

    1. [1] Godase, S.M.; Korake, P.M.; Navarkhele, V.V.; Bhanarkar, M.K. 2016. Review on WSN Based Outdoor Air Pollution Monitoring System. International Journal Series, Archives of Electronics and Electrical Engineering, v.02, n.05, p.1-13.

      [2] Sood, A.; Sonkar, B.; Ranjan, A.; Faisal, A. 2015. Microcontroller Based LPG Gas Leakage Detector Using GSM Module. International Journal of Electrical and Electronics Research, v.3, n.2, p.264-269.

      [3] Selvapriya, C.; Sathya, P.S.; Abdulrahim, M.; Aarthi, K.C. 2013. LPG Leakage Monitoring and Multilevel Alerting System. International Journal of Engineering Sciences & Research Technology, v.2, n.11, p.3287-3290.

      [4] Sahu, P.; Dixit, S.; Mishra, S.; Srivastava, S. 2017. Alcohol Detection based Engine Locking. International Research Journal of Engineering and Technology (IRJET), v.04, n.04, p.979-981.

      [5] Rao, T.V.N.; Yellu, K.R. 2017. Preventing Drunken Driving Accidents using IOT. International Journal of Advanced Research in Computer Science, v.8, n.3, p.397-400.

      [6] Kumar, S.S.; Anjali, S.; Parveen, H.S.; Aishwarya, R. 2018. Automatic Car Window Opener for safe Driving. International Journal of Tren in Scientific Research and Development (IJTSRD), v.02, n.02, p.1253-1256.

      [7] Kishore, C.V.V.R.; Suman, M. 2014. A Novel Approach to Implement Self-Controlled Air Pollution Detection in Vehicles using Smoke Sensor. International Journal of Engineering Trends and Technology (IJETT), v.16, n.06, p.263-267.

      [8] Balasubramaniyan, C.; Manivannan, D. 2016. IOT Enabled Air Quality Monitoring System (AQMS). Indian Journal of Science and Technology, v.09, n.39, p.1-6.

      [9] Tandon, M.; Singh, S.S.K. 2016. Design of Air Quality Monitoring System in IOT Environment. International Journal of Current Trends in Engineering & Research (IJCTER), v.02, n.05, p.654-657.

      [10] Shivakumar, K.M.; Aishwarya, B.; Arjun, K.V.; Chethan, D.S.; Shetty, S.D. 2017. IOT Based Air and Sound Pollution Detecting System. International Journal of Emerging Research in Management & Technology, v.06, n.05, p.718-721.

      [11] Saikumar, C.V.; Reji, M.; Kishoreraja, P.C. 2017. IOT Based Air Quality Monitoring System. International Journal of Pure and Applied Mathematics, v.117, n.09, p.53-57.

      [12] Taskar, A.C.; Gupta, N.; Kulkarni, I.; Patil, P.; Sutar, S. 2017. IOT-Enabled Air Pollution Meter with Digital Dashboard on Smart-Phone for Vehicles. International Journal for Research in Applied Science & Engineering Technology (IJRASET), v.5, n.10, p.768-771.

      [13] Sivasankari, B. 2017. IOT based Indoor Air Pollution Monitoring using Raspberry PI. International Journal of Innovations in Engineering and Technology (IJIET), v.9, n.2, p.16-21.

      [14] Subbarayudu, A.; Pavithra, M.; Susmitha, M. 2018. Automated LPG Gas Monitoring, Booking & Leakage Detector for Home Safety. International Journal for Scientific Research & Development, v.5, n.11, p.602-604.

      [15] Bante, R.; Bhure, P.; Raut, K.; Vatti, R. 2017. GSM Based Home Automation and Gas Leakage Detector. International Journal of Advanced Computing and Electronics Tehnology (IJACET), v.2, n.2, p.1-9.

      [16] John, A.M.; Purbia, B.; Sharma, A.; Udapurkar, A.S. 2017. LPG/CNG Gas Leakage Detection System with GSM Module. International Journal of Advanced Research in Computer and Communication Engineering, v.6, n.5, p.536-540.

      [17] Ashraf, M.; Saif, S.; Saifuddin, S.; Khan, M.I.; Tabassum, S.A. 2017. LPG Leakage Detecting and Alerting System. International Journal for Scientific Research & Development, v.5, n.01, p.162-164.

      [18] Loshali, G.; Basera, R.; Darmwal, L.; Varma, S. 2017. LPG Leakage Detecting and Alerting System. International Journal of Emerging Technologies, v.8, n.01, p.98-100.

      [19] Ayeevinotha, J.; Manasi, M.; Marikannan, A.; Dharani, S.; Negarajalakshmi, K. 2017. Automatic Gas Booking, Leakage and Detection using GSM. International Journal of Recent Trends in Engineering & Research (IJRTER), v.8, n.01, p.219-224.

      [20] Shanthini, S.; Marshell, M.J. 2017. Smart Automation in Gas Level Monitoring with Leakage Detection and Refill Booking using Embedded System. Journal of Advances in Communication Engineering and Its Innovations, v.4, n.6, p.17-19.

      [21] Leavline, E.J.; Singh, D.A.A.G.; Abinaya, B. 2017. LPG Gas Leakage Detection and Alert System. International Journal of Electronics Engineering Research, v.4, n.7, p.1095-1097.

      [22] Hermawan, D.; Setiawan, E.B. 2017. Prototype of Gas Warning Monitoring Application Using Mobile Android Smartphone: A Case Study. International Journal of New Media Technology, v.4, n.1, p.17-24.

      [23] Sharma, S.; Singh D.; Rathore, S.S. 2017. Fire Detection System with GSM using Arduino. Imperial Journal of Interdiscplinary Resarch (IJIR), v.3, n.4, p.2243-2245.

      [24] Singh, D.; Sharma, N.; Gupta, M.; Sharma, S. 2017. Development of System for Early Fire Detection using Arduino UNO. International Journal of Engineering Science and Computing, v.7, n.5, p.10857-10860.

      [25] Okeke, R.O.; Ehikhamenle, M. 2017. Design and Simulation of Gas and Fire Detector and Alarm System with Water Springkle. International Journal of Engineering Research and General Science, v.5, n.1, p.216-225.

      [26] Laksmi, N.V.P.; Rao, T.V.J.; Anuragh, V. 2014. ARM based Road and Fire Accidents Detection and Prevention System in Vehicles with GPS. International Journal of Informative & Futuristic Research, v.2, n.3, p.732-738.

      [27] Maguluri, L.P.; Srinivasarao, T.; Ragupathy, R.; Syamala, M.; Nalini, N.J. 2018. Efficient Smart Emergency Response System for Fire Hazard using IoT. International Journal of Advanced Computer Science and Applications (IJACSA), v.9, n.1, p.314-320.

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  • How to Cite

    Miftakul Amin, M., Azel Aji Nugratama, M., Maseleno, A., Huda, M., & Azmi Jasmi, K. (2018). Design of cigarette disposal blower and automatic freshner using mq-5 sensor based on atmega 8535 microcontroller. International Journal of Engineering & Technology, 7(3), 1108-1113. https://doi.org/10.14419/ijet.v7i3.11917