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Biodegradable Polymer Project Report

Urvish Radadiya
Urvish Radadiya

“Main Aim” of our project is to over control on Waste Production by using Biodegradable Polymers.

Science
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BIODEGRADABLE POLYMER 1 | P a g e Pacific School of Engineering, Surat Chapter 1: Introduction Design Engineering at Fourth Semester of BE  Subject of our report is “BIODEGRADABLE POLYMER” There are five members working on this project.  Members name:  Radadiya Urvish  Savaliya Henit  Ranpariya Ronak  Vaghani Mitul  Rakholiya Gaurav  There are three canvas :  Empathy mapping canvas  Ideation canvas  Product development canvas. First we get information about the canvas on GTU site than we thinking about all canvas, we also get guidance about the canvas with Prof. Shweta Joshi. Than we make all canvas. After making canvas we get the information about all topics of the canvas from different type of source  Purpose: “Main Aim” of our project is to over control on Waste Production by using Biodegradable Polymers.
BIODEGRADABLE POLYMER 2 | P a g e Pacific School of Engineering, Surat Chapter 2: Introduction BIODEGRADABLE POLYMER:  Biodegradable are solid polymeric materials and devices which break down due to macromolecular degradation with dispersion in vivo but no proof for elimination from the body.  The degradation of those polymers which take place mainly by enzymes, bacteria like microorganisms, hydrolysis and to some extent by oxidation are called biodegradable polymers  Biodegradable polymeric systems or devices can be attacked by biological elements.  Biodegradable polymers are active towards environmental processes.  Due to easy degradation of these polymers, after their usage, there is no issue of its disposal.as a result, there is no environmental pollution.  Most polymers which are degradable contain in their back bond labile linkages such as esters, orthoesters, anhydrides, carbonates, amides, urea’s, etc.  Synthetic biodegradable polymers can be synthesized which are convenient to living system and helpful to environmental cycle.  Examples of some biodegradable polymers are PHBV, PolyGlycolic acid, Dextran.  The polymers present in nature are called biopolymer. They are biodegradable polymer.  These polymers are found both naturally and synthetically made, and largely consist of esters, amides, and ether functional groups.  Their properties and break down mechanism are determined by their exact structure.  These polymers are often synthesized by condensation reaction, ring opening polymerization and metal catalyst.  Factors controlling the rate of degradation include :  Percent croistallinity  Molecular weight  Hydrophobicity.
BIODEGRADABLE POLYMER 3 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Following are the various steps in all canvases, so students can easily understand what they have to identify? Canvas 1: EMPATHY MAPPING These are the first step of the project or problem. In this canvas, you have to find out  What is user to your problems?  What is a stakeholder?  What are activities?  And what are broad stories of their activities? 1. Users  In this stage, we find the various users which are directly or indirectly related to our project.  Peoples  Industrial Workers  Doctors 2. Stakeholders  Stakeholders mean a person or organization with an interest.  In this stage, we find the user who will directly or indirectly related to users.  Pharmaceutical worker  Plastic Industrial Worker  Businessman
BIODEGRADABLE POLYMER 4 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas 3. Activities  Activities are directly or indirectly related to stakeholders.  Distribution of task  Internet Surfing  Planning  Group Discussion  Expert Advise  Environment Task 4. Story Boarding  Happy: When we went to " M & D " plastic factory at Hazira for knowing important biodegradable polymers in plastic, Same that time made of plastic spoon in factory and our one group member has test for strength of spoon, he started bending of spoon and spoon is brittle. The number of biomedical applications in which collagen have been utilized is too high; it not only has been explored for use in various types of surgery, cosmetics and drug delivery, but also in bioprospthetic in plants and issue engineering of multiple organs as well.
BIODEGRADABLE POLYMER 5 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas EMPATHY MAPPING  Sad : When we went to visit at hospital for getting information about use of biodegradable polymers in medical lines, same that time at hospital gate one man's motorcycle has slept and his head is impinge with big stone and necessary to take stitches These bio plastics are plant based and this means that they come from organic sources from farms, such as soybeans and corn. However, these organic plants are sprayed with pesticides which contain chemicals that can contaminate the crops and be transferred or included in the finished product.
BIODEGRADABLE POLYMER 6 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas AEIOU SUMMARY Users:- Our project users are as follows:-  People  Scientist  Engineer  chemist  Doctors Activities:-  Cationic Mechanism  Elastomeric fibres thermoplastic  Vulcanizations of Rubber  Biomaterials directly contact living cell  Drug Delivery Systems.  Good solution for the Environmental pollution.  Medical applications
BIODEGRADABLE POLYMER 7 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Environment:-  Polluted  Dirty  Hazards Interaction:-  Engineer to manager  Engineer to worker  Supervisor to worker  Lab asst. to operator  Manager to CEO  Supplier to Receiver
BIODEGRADABLE POLYMER 8 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Objects:-  Collection tank  Mixer  Condenser  Waste Collector
BIODEGRADABLE POLYMER 9 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Canvas 2: IDEATION These are the second step of the project or problem. From the user canvas, you have an idea what are the people? In ideation canvas, you have to carry out which type of activities is related to your project and people? What is situation and location regarding to activities? Then after you find the possible solutions. It is depend or not depend to your activities. People :  People who interact with the problem of " BIODEGRADABLE POLYMERS " are below:-  Doctors  Pharmacist  Engineers  Common Peoples  Shopkeepers Activities:-  Activities which can affect the " BIODEGRADABLE POLYMERS " given below  Cationic Mechanism  Elastomeric fibres thermoplastic  Vulcanizations of Rubber  Biomaterials directly contact living cell  Drug Delivery Systems.  Good solution for the Environmental pollution.  Medical applications
BIODEGRADABLE POLYMER 10 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Situation/Context/Location: -  Situation/context/location which cause " BIODEGRADABLE POLYMERS " are below:  Flowers and plant packaging  Industrial sucks and bags  wrapping and covering  Lamination Film Props/Possible Solutions: -  Props/possible solution of biodegradable polymer of are below:  Reliable source of Raw material  Reduction of Mechanical properties like as Modulus , strength and Molar mass.
BIODEGRADABLE POLYMER 11 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Canvas 3: Product Development Third step is development of the product. From possible solutions, you have idea about what is product? In this canvas, following things is to do. Purpose:-  Recycling  Decomposition  Packing  Shopping bags People: -  Doctors  Pharmacist  Engineers  Common Peoples  Shopkeepers Product Function:-  Plastic Products  Drug Components
BIODEGRADABLE POLYMER 12 | P a g e Pacific School of Engineering, Surat Chapter 3:Canvas Product Features:-  Wound management  Orthopaedic Devices  Issue Engineering Components: -  Bacteria  Natural monomers  Synthetic monomers
BIODEGRADABLE POLYMER 13 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Product Experience:  Inexpensive  Take more time for making product.  Easy to use Customer Revalidation:  Eco-friendly  Cheap  Mobile
BIODEGRADABLE POLYMER 14 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Reject, Redesign and Retain (3-R): -  High Elasticity  Non Reusable  Make Synthetic monomers.
BIODEGRADABLE POLYMER 15 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Mind Mapping
BIODEGRADABLE POLYMER 16 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Learning Needs Matrix
BIODEGRADABLE POLYMER 17 | P a g e Pacific School of Engineering, Surat Chapter 4: Future Scope of Work Future Scope of Work We can implement biodegradable technology to resolve the problems. Technology depends upon our ideas such as generation of electricity from waste.
BIODEGRADABLE POLYMER 18 | P a g e Pacific School of Engineering, Surat Chapter 5:Conclusion Conclusion We have conclude that waste is a problem for everyone. It can be resolve easily by the managing it and creating new solution for the resolve of waste. Moreover, the problems is for only in the urban areas.
BIODEGRADABLE POLYMER 19 | P a g e Pacific School of Engineering, Surat Chapter 6: Reference Reference Book: 1) “Engineering chemistry” by p.c. Jain, Monika Jain, 6th edition: dhanpat rai publishing company (p) ltd., 188-190, 198-202. 2) “Shape selective zeolite catalysis for bio plastics productions” by Michele dusselier, Pieter van wouwe, annelies dewaele, and Pierre Jacobs, science, DOI : 10.1126/science.aaa7169 Provided by KU Leuven. 3) “Plastics the facts 2012”(pdf), Plastics Europe, retrieved 9th February 2014. 4) “Biodegradation – Life of science”, Rolando chamy and francisca, ISBN 978- 953-51-115-4-2 Ch 6 5)“Environmental silicate Nano – bio composites" L.Averous, E pollet, ISBN -978- 1- 4471-4101-3 5) Doi Y(1990) microbial polyester, widely, new york 6) Mutton, Vivian (2012), ancient medicine (2nd Eds.) London: rout ledge ISBN 9780415520942 7) Narayan R (2001) drivers for biodegradable/compostable plastics and role of compositing in waste management, orbit. J 1(1): 1-9

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Biodegradable Polymer Project Report

  • 1. BIODEGRADABLE POLYMER 1 | P a g e Pacific School of Engineering, Surat Chapter 1: Introduction Design Engineering at Fourth Semester of BE  Subject of our report is “BIODEGRADABLE POLYMER” There are five members working on this project.  Members name:  Radadiya Urvish  Savaliya Henit  Ranpariya Ronak  Vaghani Mitul  Rakholiya Gaurav  There are three canvas :  Empathy mapping canvas  Ideation canvas  Product development canvas. First we get information about the canvas on GTU site than we thinking about all canvas, we also get guidance about the canvas with Prof. Shweta Joshi. Than we make all canvas. After making canvas we get the information about all topics of the canvas from different type of source  Purpose: “Main Aim” of our project is to over control on Waste Production by using Biodegradable Polymers.
  • 2. BIODEGRADABLE POLYMER 2 | P a g e Pacific School of Engineering, Surat Chapter 2: Introduction BIODEGRADABLE POLYMER:  Biodegradable are solid polymeric materials and devices which break down due to macromolecular degradation with dispersion in vivo but no proof for elimination from the body.  The degradation of those polymers which take place mainly by enzymes, bacteria like microorganisms, hydrolysis and to some extent by oxidation are called biodegradable polymers  Biodegradable polymeric systems or devices can be attacked by biological elements.  Biodegradable polymers are active towards environmental processes.  Due to easy degradation of these polymers, after their usage, there is no issue of its disposal.as a result, there is no environmental pollution.  Most polymers which are degradable contain in their back bond labile linkages such as esters, orthoesters, anhydrides, carbonates, amides, urea’s, etc.  Synthetic biodegradable polymers can be synthesized which are convenient to living system and helpful to environmental cycle.  Examples of some biodegradable polymers are PHBV, PolyGlycolic acid, Dextran.  The polymers present in nature are called biopolymer. They are biodegradable polymer.  These polymers are found both naturally and synthetically made, and largely consist of esters, amides, and ether functional groups.  Their properties and break down mechanism are determined by their exact structure.  These polymers are often synthesized by condensation reaction, ring opening polymerization and metal catalyst.  Factors controlling the rate of degradation include :  Percent croistallinity  Molecular weight  Hydrophobicity.
  • 3. BIODEGRADABLE POLYMER 3 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Following are the various steps in all canvases, so students can easily understand what they have to identify? Canvas 1: EMPATHY MAPPING These are the first step of the project or problem. In this canvas, you have to find out  What is user to your problems?  What is a stakeholder?  What are activities?  And what are broad stories of their activities? 1. Users  In this stage, we find the various users which are directly or indirectly related to our project.  Peoples  Industrial Workers  Doctors 2. Stakeholders  Stakeholders mean a person or organization with an interest.  In this stage, we find the user who will directly or indirectly related to users.  Pharmaceutical worker  Plastic Industrial Worker  Businessman
  • 4. BIODEGRADABLE POLYMER 4 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas 3. Activities  Activities are directly or indirectly related to stakeholders.  Distribution of task  Internet Surfing  Planning  Group Discussion  Expert Advise  Environment Task 4. Story Boarding  Happy: When we went to " M & D " plastic factory at Hazira for knowing important biodegradable polymers in plastic, Same that time made of plastic spoon in factory and our one group member has test for strength of spoon, he started bending of spoon and spoon is brittle. The number of biomedical applications in which collagen have been utilized is too high; it not only has been explored for use in various types of surgery, cosmetics and drug delivery, but also in bioprospthetic in plants and issue engineering of multiple organs as well.
  • 5. BIODEGRADABLE POLYMER 5 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas EMPATHY MAPPING  Sad : When we went to visit at hospital for getting information about use of biodegradable polymers in medical lines, same that time at hospital gate one man's motorcycle has slept and his head is impinge with big stone and necessary to take stitches These bio plastics are plant based and this means that they come from organic sources from farms, such as soybeans and corn. However, these organic plants are sprayed with pesticides which contain chemicals that can contaminate the crops and be transferred or included in the finished product.
  • 6. BIODEGRADABLE POLYMER 6 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas AEIOU SUMMARY Users:- Our project users are as follows:-  People  Scientist  Engineer  chemist  Doctors Activities:-  Cationic Mechanism  Elastomeric fibres thermoplastic  Vulcanizations of Rubber  Biomaterials directly contact living cell  Drug Delivery Systems.  Good solution for the Environmental pollution.  Medical applications
  • 7. BIODEGRADABLE POLYMER 7 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Environment:-  Polluted  Dirty  Hazards Interaction:-  Engineer to manager  Engineer to worker  Supervisor to worker  Lab asst. to operator  Manager to CEO  Supplier to Receiver
  • 8. BIODEGRADABLE POLYMER 8 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Objects:-  Collection tank  Mixer  Condenser  Waste Collector
  • 9. BIODEGRADABLE POLYMER 9 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Canvas 2: IDEATION These are the second step of the project or problem. From the user canvas, you have an idea what are the people? In ideation canvas, you have to carry out which type of activities is related to your project and people? What is situation and location regarding to activities? Then after you find the possible solutions. It is depend or not depend to your activities. People :  People who interact with the problem of " BIODEGRADABLE POLYMERS " are below:-  Doctors  Pharmacist  Engineers  Common Peoples  Shopkeepers Activities:-  Activities which can affect the " BIODEGRADABLE POLYMERS " given below  Cationic Mechanism  Elastomeric fibres thermoplastic  Vulcanizations of Rubber  Biomaterials directly contact living cell  Drug Delivery Systems.  Good solution for the Environmental pollution.  Medical applications
  • 10. BIODEGRADABLE POLYMER 10 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Situation/Context/Location: -  Situation/context/location which cause " BIODEGRADABLE POLYMERS " are below:  Flowers and plant packaging  Industrial sucks and bags  wrapping and covering  Lamination Film Props/Possible Solutions: -  Props/possible solution of biodegradable polymer of are below:  Reliable source of Raw material  Reduction of Mechanical properties like as Modulus , strength and Molar mass.
  • 11. BIODEGRADABLE POLYMER 11 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Canvas 3: Product Development Third step is development of the product. From possible solutions, you have idea about what is product? In this canvas, following things is to do. Purpose:-  Recycling  Decomposition  Packing  Shopping bags People: -  Doctors  Pharmacist  Engineers  Common Peoples  Shopkeepers Product Function:-  Plastic Products  Drug Components
  • 12. BIODEGRADABLE POLYMER 12 | P a g e Pacific School of Engineering, Surat Chapter 3:Canvas Product Features:-  Wound management  Orthopaedic Devices  Issue Engineering Components: -  Bacteria  Natural monomers  Synthetic monomers
  • 13. BIODEGRADABLE POLYMER 13 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Product Experience:  Inexpensive  Take more time for making product.  Easy to use Customer Revalidation:  Eco-friendly  Cheap  Mobile
  • 14. BIODEGRADABLE POLYMER 14 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Reject, Redesign and Retain (3-R): -  High Elasticity  Non Reusable  Make Synthetic monomers.
  • 15. BIODEGRADABLE POLYMER 15 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Mind Mapping
  • 16. BIODEGRADABLE POLYMER 16 | P a g e Pacific School of Engineering, Surat Chapter 3: Canvas Learning Needs Matrix
  • 17. BIODEGRADABLE POLYMER 17 | P a g e Pacific School of Engineering, Surat Chapter 4: Future Scope of Work Future Scope of Work We can implement biodegradable technology to resolve the problems. Technology depends upon our ideas such as generation of electricity from waste.
  • 18. BIODEGRADABLE POLYMER 18 | P a g e Pacific School of Engineering, Surat Chapter 5:Conclusion Conclusion We have conclude that waste is a problem for everyone. It can be resolve easily by the managing it and creating new solution for the resolve of waste. Moreover, the problems is for only in the urban areas.
  • 19. BIODEGRADABLE POLYMER 19 | P a g e Pacific School of Engineering, Surat Chapter 6: Reference Reference Book: 1) “Engineering chemistry” by p.c. Jain, Monika Jain, 6th edition: dhanpat rai publishing company (p) ltd., 188-190, 198-202. 2) “Shape selective zeolite catalysis for bio plastics productions” by Michele dusselier, Pieter van wouwe, annelies dewaele, and Pierre Jacobs, science, DOI : 10.1126/science.aaa7169 Provided by KU Leuven. 3) “Plastics the facts 2012”(pdf), Plastics Europe, retrieved 9th February 2014. 4) “Biodegradation – Life of science”, Rolando chamy and francisca, ISBN 978- 953-51-115-4-2 Ch 6 5)“Environmental silicate Nano – bio composites" L.Averous, E pollet, ISBN -978- 1- 4471-4101-3 5) Doi Y(1990) microbial polyester, widely, new york 6) Mutton, Vivian (2012), ancient medicine (2nd Eds.) London: rout ledge ISBN 9780415520942 7) Narayan R (2001) drivers for biodegradable/compostable plastics and role of compositing in waste management, orbit. J 1(1): 1-9