Our technology, capturing air exhaust from central air conditioners for electricity generation, extends its benefits to agriculture and greenhouse farming. Enhancing energy efficiency, reducing costs, and minimizing environmental impact, it offers a sustainable solution for optimizing energy consumption in farming operations.

1. PROGRESS DEFENSE
ON
‘’ RECYCLING AIR EXHAUST FROM CENTRAL AIR CONDITIONING SYSTEM TO PRODUCE ELECTRICITY
EFFICIENTLY”
CAPSTONE PROJECT GROUP NUMBER:2023.1.9
List of groupmates
Name: ID no.
 REDOY, MONJURAL ZAHID 20-42910-1
 CHISTE, MOIN UDDIN 18-37840-2
 SHAHIN, MD. SHAHRIAR BIN 20-41871-1
 KUMAR, ANUP 20-43222-1
Under the Supervision of
KAZI FIROZ AHMED
Associate Professor, American International University-Bangladesh (AIUB)

2.  Introduction
 Goals and Objectives
 Social Impacts
 Block Diagram Of Project
 Experimental/Simulation Result
 3D Modeling
 Project Reference
 Project Timeline
 Reference
 Graphical Representation Of The Survey Findings
 Question and Answer Session
Table Of Contents

3. Introduction
The topic of "Recycling Air Exhaust from Central Air Conditioning
System to Produce Electricity Efficiently" explores an innovative
approach to harnessing wasted energy from air conditioning systems
for the efficient generation of electricity. This approach has the
potential to contribute to energy conservation and reduce the
environmental impact of traditional cooling systems.

4.  Goals and Objectives
To generate renewable energy from the waste air exhaust from central air conditioning
systems. To produce electricity in an efficient manner by reusing air exhaust, hence
reducing energy use and reliance on conventional power sources. To promote the use of
clean and renewable energy technology in order to aid in sustainable development. To
lessen the negative effects on the environment caused by the production of traditional
power by cutting back on greenhouse gas emissions.
 Objectives
Develop a system to capture and channel air exhaust for energy conversion, optimize
energy conversion process, conduct testing and analysis, implement in commercial and
residential buildings, monitor energy generation and savings, and continuously improve
and innovate the recycling system.

5. • Social Impact
Reusing the exhaust air from the central air conditioning system to
generate electricity can reduce energy consumption, energy
efficiency, power requirements, innovation and technological
advances, and economic opportunities. This process utilizes waste
heat and converts it into usable energy, minimizing greenhouse gas
emissions and reducing dependence on traditional fossil fuel-based
power generation. It also promotes sustainability and contributes to
climate change mitigation.

6.  Block Diagram Of Project:

7.  Experimental/Simulation Result:

8.  3D Modeling:

9. PROJECT MANAGEMENT:
Tasks Milestones
Addressing problem (Complete) Proposal Submission(Complete)
Research solution (ongoing) Progress Report & Defense
Survey (Complete) Project book Completion (ongoing)
Readjustment of Selected Solution based on Poster & Summary (ongoing)
Survey results (40%)
Implement Design (Incomplete) Final defense (incomplete)
Testing and result Analysis (30%)
Critical Design Review (50%)

10.  Reference:

11.  Project Timeline:

13. for listening