Article: Energy integration of fired heaters into overall processes Journal: International Journal of Environment and Sustainable Development (IJESD) 2009 Vol.8 No.1 pp.36 - 59 Abstract: Energy analysis at the conceptual design stage helps in designing an energy efficient process plant. Predictions of performances of different equipments are necessary for optimal utilisation of energy. In this article, simplified model of a fired heater is proposed and an analytical procedure is developed for integration of a fired heater into the overall process. This procedure helps in estimating the minimum fuel required and the minimum air pre-heat temperature for energy efficient integration of a fired heater. It is shown that the minimum fuel requirement, for an integrated process, is independent of the air pre-heat temperature as long as it is more than a minimum. The fired heater efficiency remains same within a minimum and a maximum range of air pre-heat temperature and this property helps to fix the air pre-heat temperature considering emissions from the fired heater. Process heat below the process pinch can be utilised for further reduction in the fuel requirement. In the later case, however, it is demonstrated that there exits a maximum limit up to which process heat below the pinch can be utilised. Energy integration of fired heater also leads to reduction in greenhouse gas emission. Inderscience Publishers - linking academia, business and industry through research

Title: Energy integration of fired heaters into overall processes

Authors: James Varghese, Santanu Bandyopadhyay

Addresses: Department of Energy Science and Engineering, Indian Institute of Technology Bombay, Powai, Mumbai 400076, India. ' Department of Energy Science and Engineering, Indian Institute of Technology Bombay, Powai, Mumbai 400076, India

Abstract: Energy analysis at the conceptual design stage helps in designing an energy efficient process plant. Predictions of performances of different equipments are necessary for optimal utilisation of energy. In this article, simplified model of a fired heater is proposed and an analytical procedure is developed for integration of a fired heater into the overall process. This procedure helps in estimating the minimum fuel required and the minimum air pre-heat temperature for energy efficient integration of a fired heater. It is shown that the minimum fuel requirement, for an integrated process, is independent of the air pre-heat temperature as long as it is more than a minimum. The fired heater efficiency remains same within a minimum and a maximum range of air pre-heat temperature and this property helps to fix the air pre-heat temperature considering emissions from the fired heater. Process heat below the process pinch can be utilised for further reduction in the fuel requirement. In the later case, however, it is demonstrated that there exits a maximum limit up to which process heat below the pinch can be utilised. Energy integration of fired heater also leads to reduction in greenhouse gas emission.

Keywords: analytical methodology; energy conservation; fired heaters; process pinch; process integration; process plants; energy analysis; conceptual design; process heat; greenhouse gas emissions.

DOI: 10.1504/IJESD.2009.023711

International Journal of Environment and Sustainable Development, 2009 Vol.8 No.1, pp.36 - 59

Published online: 08 Mar 2009 *

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Title: Energy integration of fired heaters into overall processes

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