Problem Statement
According to the U.S. Department of interior, approximately 90% of all wildfires are caused by human interference leading to approximately 6.9 million acres of burnt fields and homes. This problem has led to millions of people without homes and has led to major economic problems, due to the fact that most cities cannot function without proper human infrastructure. If this problem continues, wildfires can lead to long term effects that can be irreversible and many people living near forests have the potential of losing their home.
Introduction
Testing is conducted to ensure the successful performance of any engineering design solution. During testing, I will examine and evaluate my solution to determine its ability to meet the predetermined specifications. I will also be documenting the effectiveness and reliability of the materials to ensure I get precise results.
Bill of Materials
· Cooler pump 60Hz/0.7A 1/140 HP Model Econ 5000 with 6ft Power Cord cost $19.99 Purchased from Home Depo
· Normal inside PVC pipe ½” in diameter, 2 meters long. Purchased from Home Depo $1.31
· Irrigation tubing 4 ft Purchased from Home Depo $2.87
· 3M Multi-use Duct Tape Purchased from Home Depo $5.97
· 1/2 in. x 260 in. Thread Sealing PTFE Plumber's Tape $0.59
· Fogger mister on Barb (5) Purchased from Home Depo $4.26
Total expense: $34.99
Testing Procedures
#1 Calculate how much area can be covered with water
Names: Gustavo Rubio
Testing Date: 3/27/21
Testing Location: My house
Purpose:
· The purpose of this test is to determine how much square footage the residential fire system can cover.
Pass/Fail Criteria:
· During the first test, the residential fire system was able to cover 37.7 ft^2 of area.
Materials: Ruler, calculator, Notebook
Initial Conditions: Prototype completed and reliable water source.
Safety Concerns: electric shock may occur if water touches the water pump
Test Termination:
· Terminate this procedure if any of the following conditions occur: Electric shock or one of the water jets breaks
Data Qualitative: How much water is being covered, How much water is being used, and How much pressure can it handle before failing.
Stepwise Procedure:
1. All materials are on hand.
2. All initial conditions have been verified.
3. All participants are familiar with safety concerns.
4. Record all data on the accompanying datasheet.
5. Connect the prototype to the water pump and make sure that it has enough water.
6. Turn on the water pump and wait 10 seconds to allow the water to cover enough surface.
7. Turn off the water pump and measure the area that has been wet.
8. All data will be compiled and analyzed
9. Repeat the procedure; however, increment the time by 5 seconds for every test.
#2 Calculate how much area can be covered with water
Names: Gustavo Rubio
Testing Date: 4/03/21
Testing Location: My house
Purpose:
· The purpose of this test is to determine how much square footage the residential fire system can cover.
Pass/Fail Criteria:
· During the second test, the residential fire system was able to cover 51.31 ft^2 of area.
Materials: Ruler, calculator, Notebook
Initial Conditions: Prototype completed and reliable water source.
Safety Concerns: electric shock may occur if water touches the water pump
Test Termination:
· Terminate this procedure if any of the following conditions occur: Electric shock or one of the water jets breaks
Data Qualitative: How much water is being covered, How much water is being used, and How much pressure can it handle before failing.
Stepwise Procedure:
1. All materials are on hand.
2. All initial conditions have been verified.
3. All participants are familiar with safety concerns.
4. Record all data on the accompanying datasheet.
5. Connect the prototype to the water pump and make sure that it has enough water.
6. Turn on the water pump and wait 10 seconds to allow the water to cover enough surface.
7. Turn off the water pump and measure the area that has been wet.
8. All data will be compiled and analyzed
9. Repeat the procedure; however, increment the time by 5 seconds for every test.
#3 Calculate how much area can be covered with water
Names: Gustavo Rubio
Testing Date: 4/03/21
Testing Location: My house
Purpose:
· The purpose of this test is to determine how much square footage the residential fire system can cover.
Pass/Fail Criteria:
· During the third test, the residential fire system was able to cover 104.72 ft^2 of area.
Materials: Ruler, calculator, Notebook
Initial Conditions: Prototype completed and reliable water source.
Safety Concerns: electric shock may occur if water touches the water pump
Test Termination:
· Terminate this procedure if any of the following conditions occur: Electric shock or one of the water jets breaks
· Since there was a large amount of water pressure one of the jet sprays popped off the system.
Data Qualitative: How much water is being covered, How much water is being used, and How much pressure can it handle before failing.
Stepwise Procedure:
1. All materials are on hand.
2. All initial conditions have been verified.
3. All participants are familiar with safety concerns.
4. Record all data on the accompanying datasheet.
5. Connect the prototype to the water pump and make sure that it has enough water.
6. Turn on the water pump and wait 10 seconds to allow the water to cover enough surface.
7. Turn off the water pump and measure the area that has been wet.
8. All data will be compiled and analyzed
9. Repeat the procedure; however, increment the time by 5 seconds for every test.
#4 Calculate how much area can be covered with water
Names: Gustavo Rubio
Testing Date: 4/10/21
Testing Location: My house
Purpose:
· The purpose of this test is to determine how much square footage the residential fire system can cover.
Pass/Fail Criteria:
· During the third test, the residential fire system was able to cover 150.8 ft^2 of area.
Materials: Ruler, calculator, Notebook
Initial Conditions: Prototype completed and reliable water source.
Safety Concerns: electric shock may occur if water touches the water pump
Test Termination:
· Terminate this procedure if any of the following conditions occur: Electric shock or one of the water jets breaks.
· Since there was a large amount of water pressure on the previous test I had to readjust the jet spays and ensure that there were no leaks.
Data Qualitative: How much water is being covered, How much water is being used, and How much pressure can it handle before failing.
Stepwise Procedure:
1. All materials are on hand.
2. All initial conditions have been verified.
3. All participants are familiar with safety concerns.
4. Record all data on the accompanying datasheet.
5. Connect the prototype to the water pump and make sure that it has enough water.
6. Turn on the water pump and wait 10 seconds to allow the water to cover enough surface.
7. Turn off the water pump and measure the area that has been wet.
8. All data will be compiled and analyzed
9. Repeat the procedure; however, increment the time by 5 seconds for every test.
#5 Calculate how much area can be covered with water
Names: Gustavo Rubio
Testing Date: 4/10/21
Testing Location: My house
Purpose:
· The purpose of this test is to determine how much square footage the residential fire system can cover.
Pass/Fail Criteria:
· During the third test, the residential fire system was able to cover 205.25 ft^2 of area.
Materials: Ruler, calculator, Notebook
Initial Conditions: Prototype completed and reliable water source.
Safety Concerns: electric shock may occur if water touches the water pump
Test Termination:
· Terminate this procedure if any of the following conditions occur: Electric shock or one of the water jets breaks.
· Since there was a large amount of water pressure on the previous test I had to readjust the jet spays and ensure that there were no leaks.
· After readjusting the jet sprays, the residential fire system was capable of reaching its maximum potential before collapsing.
Data Qualitative: How much water is being covered, How much water is being used, and How much pressure can it handle before failing.
Stepwise Procedure:
1. All materials are on hand.
2. All initial conditions have been verified.
3. All participants are familiar with safety concerns.
4. Record all data on the accompanying datasheet.
5. Connect the prototype to the water pump and make sure that it has enough water.
6. Turn on the water pump and wait 10 seconds to allow the water to cover enough surface.
7. Turn off the water pump and measure the area that has been wet.
8. All data will be compiled and analyzed
9. Repeat the procedure; however, increment the time by 5 seconds for every test.
Conclusion
In this phase of the design process I learned the importance of collecting all required materials including cost, quantity, and place of purchase. In addition, I learned the value of developing detailed testing procedures to collect data that can be analyzed to understand how my prototype meets my design specifications. Lastly, performing the test was truly a satisfying event as the results of our brainstorming, research and design were truly measured.