1. Rochester Institute of Technology P17487: KonTiki Kiln Heat Recovery
System Design Review
October 4, 2016
Eta
RIT

2. Roles and Introductions
Student
Engineering Major
Role
Abby Higgins
Industrial
Project Manager
Leah Matczak
Mechanical
EDGE Admin
Eta Santoro
Communications
Kelsey Thompson
Lead Engineer
Thane Vollbrecht
Simulation Lead
Each Individual
Customer: Kathleen Draper
Advisor: Bill Nowak
Additional Support: Sarah Brownell

3. Agenda Problem Statement Developments Adjustments
Functional Decomposition
Morphological Table
Designs
Concept Selection Criteria
Pugh Chart
Design Selection
Benchmarking
Design Risks
Test Plan
Schedule
Eta

4. Problem Issue Goal Heat from the Kon-Tiki kiln is being wasted
Create a system that can recover the excess heat
Repurpose the heat warm water for showers
Bonus – Repurpose the heat to pasteurize water
Kelsey

5. Developments Completed first burn with Kathleen
Collected preliminary temperature data
Interviewed Dr. Stevens
Helped prioritize design concepts
Submitted FMS Report
Eta

6. Adjustments – Customer Requirements
Group ID
Description
Priority
Purpose
CR1
Uses recovered heat for a helpful purpose in a developing country 9
Economics
CR2
Costs < $250 to add to the system
CR3
Uses local materials and resources 3
Safety
CR4
Operated safely by farmer/homeowner
CR5
Prevents unintended steam discharge
CR6
Operates safely outdoors
Ergonomics
CR8
Easy to install (minimal steps, lightweight)
CR7
Simple to operate by farmer or homeowner
Adaptability
CR9
Attaches to the existing KonTiki Kiln
CR10
Adjustable for different KonTiki models
CR12
Adjustable for pit design
CR11
Design doesn’t interfere with kiln operations
Eta

7. Adjustments – Engineering MetricsID
Source
Description
Measure
Target
Accepted E1
CR4
pH level of shower water (Safe for skin contact) pH 7
±0.5 E2
CR1
Temperature of flame °C E3
CR1, CR11
Temperature of kiln E4
Temperature of output bathing water 65 45 E5
CR6
Temperature of surrounding environment
10-45
20-40 E6
CR2
Total cost of materials $
< $250 E7
CR11
Average burn time
Hours
< 2 2 E8
CR7
Hours of Training Required 3 E9
CR9, CR10
Kon Tiki kiln diameter (for multiple models)
Meters
1<
E10
Time to heat the recovery system
Minutes
<15
<25
E11
CR1, CR5
Heat recovered from working fluid/hour KJ
>8000
>4000
E12
Volume of water collected
Liters
>5 8
E13
CR8
Setup time to add recovery system
<30
<45
E14
Operation Steps #
<2
<4
E15
CR3
Travel radius for external materials
Miles 10 15
E16
Product lifetime
Years
>2 5
E17
Maximum weight of heat recovery system kg
<20
E18
% of materials by cost available within 100 miles %
100 90
E19
People needed to install system
2 or less
E20
CR7, CR9
Loading clearance
Cubic meters 1
0.75
E21
CR4, CR5, CR6
Potential unprotected burn hazards
Eta

8. Adjustments – HOQ
Eta

9. Functional Decomposition
Main Function: Heat Water
Explored Function: Collect Heat
Eta

10. Morphological Chart
Kelsey

11. Designs Kelsey Also looked into Condenser Hood Cookie Sheet
Boil Pot Above
Coil in Kiln
Brick Battery
Coils Above Kiln
Kelsey
Also looked into
Condenser
Hood
Cookie Sheet
Syn Gas After Burner
Hot Tub
Bucket in Fire
Coil Syn Gas Hybrid
Ring Around the Fire
Chem Spinner

12. Concept Selection Criteria
Safety
Feasibility (Materials)
Feasibility (Technology)
Simplicity of Use
Does not Obstruct Kiln Use
Cost
Effectiveness of Heat Collection
Size (Weight)
Adaptability to Other Models
Set-Up Time
Interaction Time
Lifetime
Thane

13. Original Pugh Continue Worth Keeping Eliminate Coils in the Kiln
Thane
Continue
Coils in the Kiln
Hood Collection
Hot Tub
Worth Keeping
Brick Battery
Ring Around the Fire
Eliminate
Syn Gas After Burner
Condenser
Chem Spinner
Bucket in Fire
Boil Pot Above
Cookie Sheet
Coil + Syn Gas Hybrid

14. Pugh Chart Round 2 When compared to the Hot Tub…
Thane
When compared to the Hot Tub…
None of the main options performed better
Coil did the best
Both of the side options proved to still be effective

15. Pugh Chart Round 3 When compared to the Coil…
Thane
When compared to the Coil…
The Hot Tub was the only main option the performed better
Both of the side options proved to still be effective

16. Selected Concept
Leah

17. Selected Concept
Leah

18. Selected Concept
Leah

19. Alternative Concepts
Leah

20. Alternative Concepts
Leah

21. Alternative Concepts
Leah

22. Alternative Concepts
Leah

23. Alternative Concepts
Leah

24. Preliminary Test Plan Test Last Years Gather data
Make needed adjustments
Create a simulation
Attempt to model convection
Create Prototype
Kelsey

25. Benchmarking Last Year’s Project Purpose Pasteurize water
Dry tea leaves
Method
Used a conical coil heat exchanger
Issues
Water temperature was too inconsistent to pasteurize
Abby

26. Benchmarking Solar Water Heater – Costa Rica Purpose
Use solar energy to heat water for showers
Method
Uses gravity to move water from the storage to the heating system
Abby

27. Benchmarking Solar Water Heater – Conduction Loop Purpose
Heats water by collecting solar energy
Method
Moves water with a passive convection loop
Abby

28. Design Risks
Abby

29. Schedule
Abby

30. Questions?