This document presents a project report on biodegradable polymers prepared by 5 students for their 4th semester Design Engineering course. The report includes sections on introduction, biodegradable polymers, various canvases used in the project including empathy mapping, ideation and product development. It discusses key users and stakeholders of biodegradable polymers as well as potential solutions and products. The report is aimed at addressing the problem of waste production through the use of biodegradable polymers.
DESIGN OF A 30 MLD SEWAGE TREATMENT PLANT(PROJECT REPORT) Ratnesh Kushwaha
This is a project report on design of a 30 MLD sewage treatment plant. It includes the different characteristics of waste water, various treatment units, design calculations and a layout of sewage treatment plant. This report also includes the future scope of this project.
Visit my slide share channel for downloading power point presentation of this project
Geopolymer cement concrete is made from utilization of waste materials such as fly ash and ground granulated blast furnace slag (GGBS). Fly ash is the waste product generated from thermal power plant and ground granulate blast furnace slag is generated as waste material in steel plant.
geopolymer concrete ppt
geopolymer concrete journals
geopolymer concrete pdf
making geopolymer concrete
diy geopolymer concrete
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the report on the effect of the biodegradable matter and the particulate matter in the effluent treatment plant for particulate industry. that is under the subject if the design engineering.
Hello Friends
Design Engineering Report based on 'Government School' here and also included all 4 canvases here..
' Mind Mapping' on Government School also Here...
DESIGN OF A 30 MLD SEWAGE TREATMENT PLANT(PROJECT REPORT) Ratnesh Kushwaha
This is a project report on design of a 30 MLD sewage treatment plant. It includes the different characteristics of waste water, various treatment units, design calculations and a layout of sewage treatment plant. This report also includes the future scope of this project.
Visit my slide share channel for downloading power point presentation of this project
Geopolymer cement concrete is made from utilization of waste materials such as fly ash and ground granulated blast furnace slag (GGBS). Fly ash is the waste product generated from thermal power plant and ground granulate blast furnace slag is generated as waste material in steel plant.
geopolymer concrete ppt
geopolymer concrete journals
geopolymer concrete pdf
making geopolymer concrete
diy geopolymer concrete
geopolymer concrete price
geopolymer solutions
geopolymer cement recipe
the report on the effect of the biodegradable matter and the particulate matter in the effluent treatment plant for particulate industry. that is under the subject if the design engineering.
Hello Friends
Design Engineering Report based on 'Government School' here and also included all 4 canvases here..
' Mind Mapping' on Government School also Here...
bricks made from recycled plastic
recycle plastic bottles into bricks
plastic brick edging
plastic bricks for walls
plastic bricks for construction
american plastic bricks toy
plastic brick wall covering
american plastic bricks by elgo
The Project Automatic Car Parking System using 89C51 Microcontroller is an interesting project which uses 89C51 microcontroller as its brain. The project is designed for car parking. The aim of this project is to atomize the car park for allowing the cars into the park. LCD is provided to display the information about the total number of cars that can be parked and the place free for parking. Two IR Tx Rx pairs are used in this project to identify the entry or exit of the cars into out of park. These two IR TX-RX pairs are arranged either side of the gate. The TX and Rx are arranged face to face across the road so that the RX should get IR signal continuously. Whenever the mains are switched on, the LCD displays the message"parking space for 10 vehicles". The number indicates the maximum capacity of park in this project. Whenever a car comes in front of the gate, the IR signal gets disturbed and the microcontroller will open the gate by rotating the stepper motor. The gate will be closed only after the car leaves the second IR pair since the microcontroller should know whether the car left the gate or not. Now the microcontroller decrements the value of the count and displays it on LCD. In this way, the microcontroller decrements the count whenever the car leaves the park and displays it on LCD. lf the count reaches'0', i e. if the park is completely filled, the microcontroller will display"NO SPACE FOR PARKING" on LCD. And now if any vehicle tries to enter the park, the gate will not be opened since there is no space. If any vehicle leaves the park, the controller will increment the count and allows the other vehicles for parking This project uses regulated 5v. 500mA power supply. Unregulated 12v DC is used for relay. 7805 three terminal voltage regulator is used for voltage regulation. Bridge type full wave rectifier is used to rectify the ac output of secondary of 230/12V step down transformer
This ppt describes the usage of plastics and its management
Though plastics has huge applications, it has various harm fullness. So we need to find methods to manage plastic waste.
Textile dyeing industry: wastewater treatment and managementMd. Shamim Ahmed
small overview on wastewater treatment and management made by my brother(Roni Das) from another mother. I helped him to made this because he is greenhorn about power point presentation.
As a project in undergraduate college, we decided to explore soil and ways to reinforce using plastic fibers. Our study included Geo synthetic meshes as well as chemical stabilizers. Our scope of study study was finalized to be Waste Plastic Fiber Reinforced soil, as plastic was being used experimentally in small projects while waste plastic is easily available.
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Plastic is used [ PP, HDPE, LDPE, PS] .
By :
1-Ali Jumaah Thamer
2-Ali Kadhim Morwad
3- Muslim Kareem
4-Omar Montaser
Iraq-Basra
bricks made from recycled plastic
recycle plastic bottles into bricks
plastic brick edging
plastic bricks for walls
plastic bricks for construction
american plastic bricks toy
plastic brick wall covering
american plastic bricks by elgo
The Project Automatic Car Parking System using 89C51 Microcontroller is an interesting project which uses 89C51 microcontroller as its brain. The project is designed for car parking. The aim of this project is to atomize the car park for allowing the cars into the park. LCD is provided to display the information about the total number of cars that can be parked and the place free for parking. Two IR Tx Rx pairs are used in this project to identify the entry or exit of the cars into out of park. These two IR TX-RX pairs are arranged either side of the gate. The TX and Rx are arranged face to face across the road so that the RX should get IR signal continuously. Whenever the mains are switched on, the LCD displays the message"parking space for 10 vehicles". The number indicates the maximum capacity of park in this project. Whenever a car comes in front of the gate, the IR signal gets disturbed and the microcontroller will open the gate by rotating the stepper motor. The gate will be closed only after the car leaves the second IR pair since the microcontroller should know whether the car left the gate or not. Now the microcontroller decrements the value of the count and displays it on LCD. In this way, the microcontroller decrements the count whenever the car leaves the park and displays it on LCD. lf the count reaches'0', i e. if the park is completely filled, the microcontroller will display"NO SPACE FOR PARKING" on LCD. And now if any vehicle tries to enter the park, the gate will not be opened since there is no space. If any vehicle leaves the park, the controller will increment the count and allows the other vehicles for parking This project uses regulated 5v. 500mA power supply. Unregulated 12v DC is used for relay. 7805 three terminal voltage regulator is used for voltage regulation. Bridge type full wave rectifier is used to rectify the ac output of secondary of 230/12V step down transformer
This ppt describes the usage of plastics and its management
Though plastics has huge applications, it has various harm fullness. So we need to find methods to manage plastic waste.
Textile dyeing industry: wastewater treatment and managementMd. Shamim Ahmed
small overview on wastewater treatment and management made by my brother(Roni Das) from another mother. I helped him to made this because he is greenhorn about power point presentation.
As a project in undergraduate college, we decided to explore soil and ways to reinforce using plastic fibers. Our study included Geo synthetic meshes as well as chemical stabilizers. Our scope of study study was finalized to be Waste Plastic Fiber Reinforced soil, as plastic was being used experimentally in small projects while waste plastic is easily available.
Fuel from waste plastic by pyrolysis
Plastic is used [ PP, HDPE, LDPE, PS] .
By :
1-Ali Jumaah Thamer
2-Ali Kadhim Morwad
3- Muslim Kareem
4-Omar Montaser
Iraq-Basra
Welcome to 2nd International Conference On Green, Sustainable & Analytical Chemistry which is scheduled during November 16-17, 2021.
THEME: Advancement and Challenges in The Field of Green Chemistry.
For more information : https://www.conferencemind.com/conference/greensustainableanalyticalchemistry
It is just an literature survey presentation about self healing Polymer technology and its classification and different types of method to implement in a real word in future..
In this Research I'll find all of possibility Eco Friend Auto Mobile out come and how eco friendly auto mobile are affect on non eco firendly auto mobile and how this can effect on sales in pakistan and global.
Plant Design for bioplastic production from Microalgae in Pakistan.pdfMianHusnainIqbal2
Microalgae is an organism that belongs to the unicellular eukaryotic protists, prokaryotic
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forms of species among which 15 has major use as a resource of many industrial products. Many
environmental friendly green plant processes have been develope in order to minimize the waste
and for energy saving such as Phytoremediation. Which is an excellent recovery system for
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Spraying nanocellulose on a polished impermeable surface is a novel concept to produce a film which has two distinct surfaces. The spray coated surface is very smooth and replicates the nanoscale roughness from the base surface. This process reduces the operational time for film formation by one order of magnitude compared to vacuum filtration, which is the standard method. The spraying process was optimised to develop highly uniform sheets. The films were recyclable and sustainable. Spraying process has been successfully implemented to develop high performance nanocomposites for barrier applications and smooth films for electronics.
Sustainable Manufacturing Process of Insulator and Sanitary Ware by MD MAHABU...MD MAHABUB HASAN
Sustainable manufacturing processes for insulators and sanitary ware prioritize Eco-friendly materials, resource efficiency and waste reduction. These processes often incorporate renewable energy sources and emphasize recycling to minimize environmental impact. Water conservation and energy efficiency measures are also integral, reducing overall resource consumption. Additionally, sustainable manufacturing promotes the use of environmentally friendly materials and adopts a circular economy approach, aiming to minimize waste and maximize product lifespan. By integrating these practices, manufacturers can produce insulators and sanitary ware with lower carbon footprints and contribute to a more sustainable future.
Insulators and sanitary ware represent indispensable components in the realms of electricity and personal hygiene, respectively. While insulators ensure the smooth flow of electricity, safeguarding infrastructure, sanitary ware contributes to creating hygienic and comfortable living and working spaces. The evolution of materials and designs in both categories continues to shape the landscape of construction and infrastructure, enhancing the quality of life for individuals around the globe. Applications & Integral, Overhead power lines, Electrical substations, High-voltage equipment, Telecommunication infrastructure.
this is the design engineering report on the topic of the GAS-LIQUID reactions. which involves the primary information about this topic for DE for chemical engineering......
Elevating Tactical DDD Patterns Through Object CalisthenicsDorra BARTAGUIZ
After immersing yourself in the blue book and its red counterpart, attending DDD-focused conferences, and applying tactical patterns, you're left with a crucial question: How do I ensure my design is effective? Tactical patterns within Domain-Driven Design (DDD) serve as guiding principles for creating clear and manageable domain models. However, achieving success with these patterns requires additional guidance. Interestingly, we've observed that a set of constraints initially designed for training purposes remarkably aligns with effective pattern implementation, offering a more ‘mechanical’ approach. Let's explore together how Object Calisthenics can elevate the design of your tactical DDD patterns, offering concrete help for those venturing into DDD for the first time!
LF Energy Webinar: Electrical Grid Modelling and Simulation Through PowSyBl -...DanBrown980551
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The framework is mostly written in Java, with a Python binding so that Python developers can access PowSyBl functionalities as well.
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GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
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Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
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Securing your Kubernetes cluster_ a step-by-step guide to success !KatiaHIMEUR1
Today, after several years of existence, an extremely active community and an ultra-dynamic ecosystem, Kubernetes has established itself as the de facto standard in container orchestration. Thanks to a wide range of managed services, it has never been so easy to set up a ready-to-use Kubernetes cluster.
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The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
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UiPath Test Automation using UiPath Test Suite series, part 4DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 4. In this session, we will cover Test Manager overview along with SAP heatmap.
The UiPath Test Manager overview with SAP heatmap webinar offers a concise yet comprehensive exploration of the role of a Test Manager within SAP environments, coupled with the utilization of heatmaps for effective testing strategies.
Participants will gain insights into the responsibilities, challenges, and best practices associated with test management in SAP projects. Additionally, the webinar delves into the significance of heatmaps as a visual aid for identifying testing priorities, areas of risk, and resource allocation within SAP landscapes. Through this session, attendees can expect to enhance their understanding of test management principles while learning practical approaches to optimize testing processes in SAP environments using heatmap visualization techniques
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Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
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The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
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Kubernetes & AI - Beauty and the Beast !?! @KCD Istanbul 2024
Biodegradable polymer
1. I
GUJARAT TECHNOLOGICAL UNIVERSITY
Pacific School of Engineering, Surat
Affiliated with GTU
A
Project report
On
“BIODEGRADABLE POLYMER”
Prepared as a part of the requirements for the subject of
DESIGN ENGINEERING – 1B(2140002)
B. E. Semester – 4
(Chemical Branch)
Submitted by Group:
Sr. Name of student Enrollment No
1 RADADIYA URVISH 151120105067
2 RANPARIYA RONAK 151120105051
3 VAGHANI MITUL 151120105068
4 RAKHOLIYA GAURAV 151120105049
5 SAVALIYA HENIT 151120105057
(Faculty Guide)
Prof. Shweta Joshi
Chemical Engineering Department
Pacific School of Engineering, Surat
Academic year
(2016-2017)
2. II
PACIFIC SCHOOL OF ENGINEERING, SURAT
Chemical Engineering Department
CERTIFICATE
This is to certify that the project entitled “BIODEGRADABLE POLYMER”Submitted by
Sr.No. Name of student Enrollment No
1 RADADIYA URVISH 151120105067
2 RANPARIYA RONAK 151120105051
3 VAGHANI MITUL 151120105068
4 RAKHOLIYA GAURAV 151120105049
5 SAVALIYA HENIT 151120105057
In partial fulfillment of the requirement for the DESIGN ENGINEEING-1B(2140002) in
PACIFIC SCHOOL OF ENGINEERING, SURAT is recorded on their own work carried out
under my supervision and guidance. The matter embodied here is not being submitted elsewhere
forward of any degree.
Guided By :
Prof.Shweta Joshi
Chemical Engineering Department
Pacific School of Engineering, Surat
Prof .Miral Thakkar
Head of Department
Chemical Engineering Department
Pacific School of Engineering, Surat
3. III
PACIFIC SCHOOL OF ENGINEERING, SURAT
Chemical Engineering Department
EXAMINER’S CERTIFICATE OF APPROVAL
This is to certify that the project entitled “BIODEGRADABLE POLYMER” Submitted by
Sr.No. Name of student Enrolment No
1 RADADIYA URVISH 151120105067
2 RANPARIYA RONAK 151120105051
3 VAGHANI MITUL 151120105068
4 RAKHOLIYA GAURAV 151120105049
5 SAVALIYA HENIT 151120105057
In partial fulfillment of the requirement for the DESIGN ENGINEEING-1B (2140002) in
PACIFIC SCHOOL OF ENGINEERING, SURAT is here by approved for submitted their DE
Report for 4th
semester.
Place: Surat
Date:
Internal Examiner Sign External Examiner Sign
4. IV
ACKNOWLEDGEMENT
It is always pleasure to remind the experts in the science guidance which I
received to hold my practical as well as theoritical skills in engineering.
I am thankful to our H.O.D Prof. Miral Thakkar and our regarding all
faculties for giving me an opportunity to enhance my skills as an engineer by
allowing us to join this esteemed organization as training.
I would also like to thank Our Internal Guide Prof. Shweta Joshi guided us
in getting our project. It gives me immense pleasure in expressing our deep sense
of gratitude whom our successfully complete our project in their department.
I also thankful our all supporting faculty will help to create 2nd
year, 4th
semester DESIGN ENGINEERING project by sharing their knowledge. They
helped us in all possible ways to solve our doubts regarding application and
implementation of knowledge. It has been a great experience to work under their
supervision as always kept my moral high.
Finally, I apologize to all other unnamed who helped me in various ways
to have a safe and good training.
5. V
TABLE OF CONTENTS
TITLE I
CERTIFICATE II
EXAMINER’S CERTIFICATE III
ACKNOWLEDGEMENT IV
TABLE OF CONTENT V
ABSTRACT VI
1. INTRODUCTION
2. INTRODUCTION OF BIODEGRADABLE
POLYMER
1
2
3. CANVAS FRAME WORK 3
3.1 Empathy Mapping 3
3.2 AEIOU Summary 7
3.3 Ideation 10
3.4 Product Development Canvas 12
3.5 Mind Mapping 16
5. FUTURE SCOPE OF WORK 17
6. CONCLUSION 18
7. REFERENCES 19
6. VI
“BIODEGRADABLE POLYMER”
Submitted By
Sr. No Name of student Enrollment No
1 RADADIYA URVISH 151120105067
2 RANPARIYA RONAK 151120105051
3 VAGHANI MITUL 151120105068
4 RAKHOLIYA GAURAV 151120105049
5 SAVALIYA HENIT 151120105057
Supervised By
Prof. Shweta Joshi
Chemical Engineering Department
Pacific School of Engineering, Surat
ABSTRACT
The product of biodegradable polymer is ecofriendly and there are no pollution occurs.
So we need to maximum use of product which made by biodegradable polymer. The
biodegradable polymer should be stable and durable enough for use in their particular
application, but upon disposal they should easily break down. When products made of
PLA, It is making cheaper the use of PLA for making biodegradable products, then the
problem of cost and greener. If and environmental pollution is solved. In this method
most important variable is PLA, because during disposal it is very easily break down. We
will get result the extra ordinary process has been made in the development of practical
processes and products from polymers such as starch, cellulose and lactic acid. In
addition, no suitable infrastructure for the disposal of biodegradable materials exists as
yet. The processes which hold the most promise for further development of biopolymer
materials are those which employ renewable resources feedstock. The sectors of
agriculture, automotive, medicine and packaging all require biodegradation may be
tailored to specific needs each industry is able to create its own ideal materials.
8. 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.
9. 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.
10. 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
11. 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.
12. 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.
13. 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
14. 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
15. BIODEGRADABLE POLYMER
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Pacific School of Engineering, Surat
Chapter 3: Canvas
Objects:-
Collection tank
Mixer
Condenser
Waste Collector
16. 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
17. BIODEGRADABLE POLYMER
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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.
18. BIODEGRADABLE POLYMER
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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
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Chapter 3:Canvas
Product Features:-
Wound management
Orthopaedic Devices
Issue Engineering
Components: -
Bacteria
Natural monomers
Synthetic monomers
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Chapter 3: Canvas
Product Experience:
Inexpensive
Take more time for making product.
Easy to use
Customer Revalidation:
Eco-friendly
Cheap
Mobile
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Chapter 3: Canvas
Reject, Redesign and Retain (3-R): -
High Elasticity
Non Reusable
Make Synthetic monomers.
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Chapter 3: Canvas
Learning Needs Matrix
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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.
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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.
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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