Proper Storage of raw and cooked food in areas deficit in electricity
Sunday 22 May 2016
Saturday 21 May 2016
Friday 20 May 2016
Bibliography
Websites cited:
>https://www.finedininglovers.com/blog/food-drinks/how-to-preserve-food-techniques/ 3/4/16 14:00
>http://www.fao.org/wairdocs/x5002e/x5002e02.htm 3/4/16 15:30
>http://www.villageearth.org/pages/sourcebook/crop-drying-preservation-and-storage 5/4/16 23:00
>http://www.iitmandi.ac.in/istp/projects/2014/reports/Group%2007%20Food%20Preservation.pdf 5/4/16 16:30
>https://ruralspin.com/2012/03/10/food-preservation-lets-talk-methods/ 5/4/16 17:00
>https://www.nabard.org/pdf/Model_scheme_on_construction_of_Rural_Godown.pdf 6/4/16 1:30
>http://www.who.int/water_sanitation_health/publications/ssf9241540370.pdf 9/5/16 10:00
>http://www.who.int/water_sanitation_health/dwq/nutwaterrequir.pdf 9/5/16 11:30
>https://www.google.co.in/url?sa=t&rct=j&q=&esrc=s&source=web&cd=2&cad=rja&uact=8&ved=0ahUKEwj7g-OU6JnMAhXGlJQKHS8NBogQFggmMAE&url=https%3A%2F%2Fwww.researchgate.net%2Ffile.PostFileLoader.html%3Fid%3D56fb1175eeae3949dc7a27f8%26assetKey%3DAS%253A345120642748416%25401459294581037&usg=AFQjCNGDM8R_0q_IO4WvJ2NNl5CqT53LHQ&sig2=ygZk1XEXkJcc7KIIoGcgSg 11/5/16 22:00
>http://www.matangi.in/calculation.html 11/5/16 23:00
>http://www.atcmtanks.org.uk/pdfs/Float%20Valves%20-%20Their%20characteristics%20&%20performance%20.pdf 11/5/16 23:30
>http://censusindia.gov.in/Data_Products/Data_Highlights/Data_Highlights_link/data_highlights_hh1_2_3.pdf 15/5/16 16:00
>http://www.nestle-waters.com/healthy-hydration/daily-water-needs 15/5/16 18:00
>https://www.finedininglovers.com/blog/food-drinks/how-to-preserve-food-techniques/ 3/4/16 14:00
>http://www.fao.org/wairdocs/x5002e/x5002e02.htm 3/4/16 15:30
>http://www.villageearth.org/pages/sourcebook/crop-drying-preservation-and-storage 5/4/16 23:00
>http://www.iitmandi.ac.in/istp/projects/2014/reports/Group%2007%20Food%20Preservation.pdf 5/4/16 16:30
>https://ruralspin.com/2012/03/10/food-preservation-lets-talk-methods/ 5/4/16 17:00
>https://www.nabard.org/pdf/Model_scheme_on_construction_of_Rural_Godown.pdf 6/4/16 1:30
>http://www.who.int/water_sanitation_health/publications/ssf9241540370.pdf 9/5/16 10:00
>http://www.who.int/water_sanitation_health/dwq/nutwaterrequir.pdf 9/5/16 11:30
>https://www.google.co.in/url?sa=t&rct=j&q=&esrc=s&source=web&cd=2&cad=rja&uact=8&ved=0ahUKEwj7g-OU6JnMAhXGlJQKHS8NBogQFggmMAE&url=https%3A%2F%2Fwww.researchgate.net%2Ffile.PostFileLoader.html%3Fid%3D56fb1175eeae3949dc7a27f8%26assetKey%3DAS%253A345120642748416%25401459294581037&usg=AFQjCNGDM8R_0q_IO4WvJ2NNl5CqT53LHQ&sig2=ygZk1XEXkJcc7KIIoGcgSg 11/5/16 22:00
>http://www.matangi.in/calculation.html 11/5/16 23:00
>http://www.atcmtanks.org.uk/pdfs/Float%20Valves%20-%20Their%20characteristics%20&%20performance%20.pdf 11/5/16 23:30
>http://censusindia.gov.in/Data_Products/Data_Highlights/Data_Highlights_link/data_highlights_hh1_2_3.pdf 15/5/16 16:00
>http://www.nestle-waters.com/healthy-hydration/daily-water-needs 15/5/16 18:00
Tuesday 10 May 2016
Friday 6 May 2016
STAGE 5: Problem assessment analytical matrix
Problem assessment analytical matrix
We can see what factors affect our problem area most from the following:
Conclusions:
- Most of the food needs to be protected from insects and rodents and cooled for better storage.
- Vegetables, meat and eggs, leftovers and dairy are the foods that need proper storage the most.
Sunday 1 May 2016
Problem solving process
Problem solving can be done in endless ways. Each problem will have a unique way in which it can be solved. The problem solving process that I have used is:
start>>
step 1>> Define the problem by stating the context and extent of the brief
>>create mindmap/s related to the environment of brief
>>generate list of possible problems
>>understand what you are dealing with by answering the following:
>>what needs to be done?
>>who is it going to affect?
>>why is it needed?
>>where will it be used?
>>why will it be used?
>>compile your findings and define your problem statement
checkpoint >>
do you have a clear idea of what the problem really is?
if no: >>step 1
if yes:
step 2>> Gather data by research and investigation
>>decide what you need to know
>>determine what factors influence the problem environment
>>research
>>desk research
>>field research
>>dipstick research
checkpoint >>
have you identified other problems related to the area of research?
if yes: >>step 1
if no:
>>look up articles from people who have done similar work
checkpoint >>
do you have enough knowledge about the problem environment? || do you understand the systems related to the problem?
if no: >>step 2
if yes:
step 3>> Generate ideas
>>associate different aspects of the problem in order to find a fix
>>draw out all the ideas that come into your mind even if they are not practical
checkpoint >>
are you stuck with one/no idea?
if yes: revisit step 1 and step 2
if no:
>>combine different ideas to form integrated solutions
checkpoint >>
have you come up with a good number of ideas?
if no: >>step 3
if yes:
step 4>> Select a solution using the criteria for success
>>revisit the problem statement and data gathered in step 2
>>take into consideration one solution at a time and pass it through these filters:
>>aesthetics, feasibility & performance
>>cost & competition in the market
>>ease of manufacturing
>>safety, storage & transport
>>disposal & environmental factors
>>community issues & social impact
>>repair & maintenance
>>select the solution which best fits and meets the brief/problem statement
checkpoint >>
is there any scope for improvement in the solution?
if yes: >>step 3
if no:
step 5>> Describe the action plan
>>draw out the solution with measurements and other specifications
>>use data gathered in step 2
>>specify all the processes and mechanisms involved
>>gather answers to the following questions:
>>what materials are required?
>>how much material will be required to produce?
>>how long will it take to produce?
>>what will be the cost of production?
checkpoint >>
are there any changes required?
if yes: >>step 3 || step 4
if no:
>>make a prototype
checkpoint >>
does the solution work?
if no: go back to last checkpoint
if yes:
step 6>> Testing and debugging
>>see if the prototype withstands various conditions of the environment by running tests
checkpoint >>
have you identified problems that have raised due to the solution?
if yes: >> step 3
if no:
>>improve the design according to the brief >>revisit step 1
>>step 6
checkpoint >>
does the prototype fulfil all the requirements of the brief?
if no: >>step 4
if yes: problem solved.
>>end
>>http://www.rapidintellect.com/AEQweb/cho3557z6.htm<<
start>>
step 1>> Define the problem by stating the context and extent of the brief
>>create mindmap/s related to the environment of brief
>>generate list of possible problems
>>understand what you are dealing with by answering the following:
>>what needs to be done?
>>who is it going to affect?
>>why is it needed?
>>where will it be used?
>>why will it be used?
>>compile your findings and define your problem statement
checkpoint >>
do you have a clear idea of what the problem really is?
if no: >>step 1
if yes:
step 2>> Gather data by research and investigation
>>decide what you need to know
>>determine what factors influence the problem environment
>>research
>>desk research
>>field research
>>dipstick research
checkpoint >>
have you identified other problems related to the area of research?
if yes: >>step 1
if no:
>>look up articles from people who have done similar work
checkpoint >>
do you have enough knowledge about the problem environment? || do you understand the systems related to the problem?
if no: >>step 2
if yes:
step 3>> Generate ideas
>>associate different aspects of the problem in order to find a fix
>>draw out all the ideas that come into your mind even if they are not practical
checkpoint >>
are you stuck with one/no idea?
if yes: revisit step 1 and step 2
if no:
>>combine different ideas to form integrated solutions
checkpoint >>
have you come up with a good number of ideas?
if no: >>step 3
if yes:
step 4>> Select a solution using the criteria for success
>>revisit the problem statement and data gathered in step 2
>>take into consideration one solution at a time and pass it through these filters:
>>aesthetics, feasibility & performance
>>cost & competition in the market
>>ease of manufacturing
>>safety, storage & transport
>>disposal & environmental factors
>>community issues & social impact
>>repair & maintenance
>>select the solution which best fits and meets the brief/problem statement
checkpoint >>
is there any scope for improvement in the solution?
if yes: >>step 3
if no:
step 5>> Describe the action plan
>>draw out the solution with measurements and other specifications
>>use data gathered in step 2
>>specify all the processes and mechanisms involved
>>gather answers to the following questions:
>>what materials are required?
>>how much material will be required to produce?
>>how long will it take to produce?
>>what will be the cost of production?
checkpoint >>
are there any changes required?
if yes: >>step 3 || step 4
if no:
>>make a prototype
checkpoint >>
does the solution work?
if no: go back to last checkpoint
if yes:
step 6>> Testing and debugging
>>see if the prototype withstands various conditions of the environment by running tests
checkpoint >>
have you identified problems that have raised due to the solution?
if yes: >> step 3
if no:
>>improve the design according to the brief >>revisit step 1
>>step 6
checkpoint >>
does the prototype fulfil all the requirements of the brief?
if no: >>step 4
if yes: problem solved.
>>end
>>http://www.rapidintellect.com/AEQweb/cho3557z6.htm<<
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