This paper is published in Volume 4, Issue 3, 2019
Area
Environmental
Author
Sowmiya M.
Co-authors
Saravanakumar K., Vignesh B.
Org/Univ
Gnanamani College of Engineering, Namakkal, Tamil Nadu, India
Pub. Date
26 March, 2019
Paper ID
V4I3-1151
Publisher
Keywords
Carbon dioxide, Global warming, CO2 emission, Geological carbon storage, Design model, Removal efficiencies

Citationsacebook

IEEE
Sowmiya M., Saravanakumar K., Vignesh B.. Study of carbon capture and sequestration techniques-modelling, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARnD.com.

APA
Sowmiya M., Saravanakumar K., Vignesh B. (2019). Study of carbon capture and sequestration techniques-modelling. International Journal of Advance Research, Ideas and Innovations in Technology, 4(3) www.IJARnD.com.

MLA
Sowmiya M., Saravanakumar K., Vignesh B.. "Study of carbon capture and sequestration techniques-modelling." International Journal of Advance Research, Ideas and Innovations in Technology 4.3 (2019). www.IJARnD.com.

Abstract

Carbon dioxide is the primary anthropogenic greenhouse gas. India’s CO2 emissions are expected to extend 70% by 2025. Geologic carbon storage (GCS) offers a way to reduce CO2 emission. Global climate change results in an urgent need for countries governments to reduce their carbon footprints by adopting sustainable development methods. To mitigate this devastating effect of global warming, the CO2 is captured from industrial utility and compressed either in supercritical form or sub-cooled liquid form for underground storage. We have adopted an air contactor design model with some modifications. Air capture plant is fabricated using heat resistance glass. Based on the experimental studies, chemical solutions are used to capture the CO2. The basic reaction of these solutions with the CO2 present in the air is discussed in our study. The reaction of hydrated oxide with air captures the CO2 as carbonate resolution by scouring techniques. Then the combined reaction of hydrated oxide and slaked lime leaves precipitates of carbonate. NaOH is redirected to air-contactor for any production of carbonate resolution. The comparative efficiency of Carbon dioxide capture will be analyzed using primarily based chemicals like sodium hydroxide (NaOH), calcium hydroxide (CaoH2).
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