clean and energy Idea-Presentation-For SIH2024.pptx
ramanathan1961
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Sep 10, 2024
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Basic Details of the Team and Problem Statement Problem Statement Title: Clean and Energy Technology Theme Name: Efficiency Solutions for Industrial Heat Team Name: MZCET BLOOMS Team Leader Name: N.S.KABILAN College Code: 9117 College Name: MZCET
Idea/Approach Details IDEA: Industrial heat and/or energy efficiency technologies: Topics that enable science and technology discovery and development include: fundamental research aimed at substituting clean energy sources for fossil fuels to provide industrial process heat. SOLUTION: Integration of energy systems and the grid with other infrastructure systems such as transportation; new device, circuit, and systems technologies and processes to harness energy from heat generated by advanced computing; and reducing power consumption in data centers. 2
Idea/Approach Details METHODOLOGY 3 Describe your Dependencies / Show stopper here Waste Heat Recovery : For many industrial and commercial sectors, heat and power recovery technologies offer the most significant single opportunity to reduce total fossil fuel consumption and improve energy efficiency. Harnessing and repurposing surplus heat with recovery technologies is one of the best strategies to achieve significant reductions in energy costs and greenhouse gas emissions. Efficiency opportunities in this area can be as simple as redirecting excess heat to the central heating system of a particular plant or related office building. FUEL-BASED ELECTRIC-BASED STEAM- BASED RENEWABLE – HEAT BASED SYSTEM
Team Member Details Team Leader Name: N.S.KABILAN Class : FINAL YEAR Stream* : ENGINEERING Age (in number): 20 Gender (M/F): MALE Team Leader Name: M.S.GOPINATH Class : FINAL YEAR Stream* : ENGINEERING Age (in number): 20 Gender (M/F): MALE Team Leader Name: MOHAMMED HUSSAIN Class : FINAL YEAR Stream* : ENGINEERING Age (in number): 20 Gender (M/F): MALE Team Leader Name: AJAY Class : FINAL YEAR Stream* : ENGINEERING Age (in number): 20 Gender (M/F): MALE Team Leader Name: PL.ALAGUMEENAL Class : THIRD YEAR Stream* : ENGINEERING Age (in number): 19 Gender (M/F): FEMALE Team Mentor 1 Name: R.RAMANATHAN Category (Academic/Industry/Parents): ACADEMIC Expertise : ELECTRICAL ENGINEERING Domain Experience (in years): 11.2 YRS
Industrial Heat Energy Efficiency Solutions Series September 3, 2024 Annual Review 5
September 3, 2024 Annual Review 6 Introduction Industrial heating and steam systems require large amounts of energy. Yet despite making up almost one-fifth of global energy consumption, industrial heat processes are often overlooked in the ettort to reduce costs and emissions. Considering that the vast majority of industrial heat originates from fossil-fuel combustion it is critical for organizations to take advantage of the many opportunities that improve energy efficiency in industrial heat processes.
Process Heat Optimization While thermal energy may be created and concentrated in a boiler, or a furnace , it’s critical to remember that industrial heat processes are part of a broader system. In some cases an industrial plant may involve various industrial heat systems, some require steam and others may be powered by gas for example. To achieve the best results in terms of energy efficiency I ndustry managers must consider the whole heat process system rather than just the individual components. Understanding the current operations and energy needs as well as the management of the industrial heat system is the first step toward systemically optimizing an entire heat process. This means measuring and assessing how much energy is currently used in each stage of a particular process and in the system as a whole.
Improving the efficiency of combustion (burners) and other heat generating equipment by controlling the air-fuel ratio and eliminating air leakages into direct- fire furnaces. Regular maintenance of furnaces and heating systems to increase heat transfer from heat source to process load. Reducing heat losses through effective insulation of piping and related transfer equipment which helps to trap and conserve heat, as well as the implementation of systemized procedures for regular maintenance Recover and reuse waste heat through various technologies and equipment. Where possible automate process measurements and controls. Identify and set appropriate operating temperatures to avoid overheating and waste heat. Avoid non-productive loads and idle periods where heat is being used. .
OVERVIEW OF HEATING EFFICENCY PROCESS September 3, 2024 Annual Review 9 Process Heater Isolation Valve Combustion Air Preheater END USE Forced Draft Fan Process Heater Economizer Shell and Tube Heat Exchanger Boiler Steam Trap Steam Trap Steam Trap Fuel Feed Pump Combustion Gases Combustion Air Condensate Pump Cond Rece Tank Deaerator RECOVERY
Environmental benefits: Industrial heat is predominately powered by non-renewable fossil fuels,3 efficient use of thermal energy and efforts to transition to renewable fuels for heat are among the most important ways industry can contribute to mitigating climate change and comply with emerging national environmental regulation.
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