Measurement and automatic monitoring insulation resistance of AC/DC mixed unearthed networks

  • Hoang Huy Vuong Institute of Information Technology - VAST, Hanoi, Vietnam
  • Minh Ngoc Pham Institute of Information Technology - VAST, Hanoi, Vietnam
  • Tan Duy Ngo Space Technology Institute - VAST, Hanoi, Vietnam
Keywords: Ammonia in aquaculture, Aquatic water environment monitoring system, Internet of Things

Abstract

Marine industry is one of the strong sectors bringing great economic benefits in the world and especially in Vietnam. However, the control of marine aquatic environment is always a complicated problem in both solutions and implementation. Currently, monitoring systems are capable of measuring most of the indicators but still face many difficulties with special indicators such as NH3, H2S, which need to integrate many specialized equipment applications, complex measurement procedures, or waiting for results from a laboratory. Therefore, the implementation is hindered and increases the investment cost. In this article, the authors apply an indirect measurement method to determine the rate of ammonia (NH3) for an automatic monitoring system of the aquatic environment. The monitoring system will monitor the basic water indicators in the National technical regulation on aquaculture water including temperature, salinity, pH, and based on that to calculate and determine the distribution rate of NH3 – factor major cause of losses in the marine products industry. The application of this indirect measurement method aims to directly assess the fluctuation of the Ammonia NH3 index and contribute to the reduction of aquatic environmental monitoring models.

References

Bộ Nông nghiệp và phát triển nông thôn, (2014). Quy chuẩn kỹ thuật quốc gia về cơ sở nuôi tôm nước lợ - điều kiện bảo đảm vệ sinh thú y, bảo vệ môi trường và an toàn thực phẩm. QCVN02-19: 2014/BNNPTNT.

Bộ Thủy sản, (2001). Quy chuẩn ứng xử cho nghề cá có trách nhiệm. Trung tâm Thông tin KHKT và kinh tế thủy sản – Bộ Thuỷ sản.

Carol E. B., Joseph P. B., (1978). Ionization of Ammonia in Seawater: Effects of Temperature, pH, and Salinity. Journal of the Fisheries Board of Canada, July 1978.

Claude E. B., Frank L., (1979). Water quality management in pond fish culture. International Center for Aquaculture Agricultural Experiment Station, April-1979.

Emerson K. , Russo R. C., Richard E. L., Robert V. T., (2011). Aqueous Ammonia Equilibrium Calculations: Effect of pH and Temperature. Journal of the Fisheries Research Board of Canada, April-2011.

Franklin D. A., Edward L. L., (2019). Ammonia toxicity and adaptive response in marine fishes.  Indian Journal of Geo Marine Sciences, March-2019.

Sở  Khoa học và Công nghệ tỉnh Ninh Thuận, (2018). Nghiên cứu  Amoni và Amoniac trong sản xuất Postlarvae. https://ninhthuan.gov.vn.

Published
2022-08-31
Issue
2022: Vol 63, Issue 4
Section
Applied sciences