An Estimation of Embodied Energy Within Various Janger Single … · 2018. 12. 4. · Janger Single...
Transcript of An Estimation of Embodied Energy Within Various Janger Single … · 2018. 12. 4. · Janger Single...
An Estimation of Embodied Energy Within Various Janger Single Piece Moulded Polypropylene Garment Hangers in Comparison to That of Various Competitor Hanger Designs
Date: 12th October 2018
FaraPack Polymers Ltd, The Innovation Centre, 217 Portobello, Sheffield, S1 4DPVAT No: 842 5880 09, Registered No: 5063994www.farapackpolymers.comFP-Rep180821-V1.0
www.thejanger.com
In Association With:
Authors: Dr. Andrew Pryke PhD. BSc (Hons), Tony Ryan OBE
FaraPack Polymers Ltd, The Innovation Centre, 217 Portobello, Sheffield, S1 4DPVAT No: 842 5880 09, Registered No: 5063994www.farapackpolymers.comFP-Rep180821-V1.0
www.thejanger.com
Foreword
Dr. Andrew Pryke
Dr. Pryke was one of a group of researchers which founded FaraPack Polymers Ltd. in 2004 and has fulfilled the role of Principle Polymer Scientist since this time. Previous to this he worked for a contract chemical manufacturer immediately upon leaving school from 1988 until 1996 specialising in polymer R & D. During this time, he obtained a first class honours degree in chemistry and rose to become a senior laboratory scientist. In 1996 he successfully applied to the University of Sheffield to study for a PhD in “The synthesis and physical characterisation of well-defined linear and star polydienes” which was duly completed in 2000. Following this he carried out postdoctoral research with a number of academics before the inception of FaraPack Polymers.
FaraPack Polymers Ltd.
FaraPack was formed in 2004 by a group of researchers within the chemistry department of the University of Sheffield in order to commercialise the novel materials being produced within that department. Since this time they have moved into the area of providing bespoke polymer and material research, analysis and consultation from within the University sphere to clients in a wide range of industries. They are wholly owned by the University of Sheffield and boast three eminent professors from both science and engineering faculties as current board members. One of these is Professor Tony Ryan OBE. who is currently director of The Grantham Centre (http://www.granthamfoundation.org/ ) within the University of Sheffield, which aims to support sustainability research at the University of Sheffield and Ryan represented the Grantham Centre at the United Nations Climate Change Conference in Paris in December 2015.
www.farapackpolymers.com
Project ReportConfidential
Customer:Janger Ltd.
Contact(s):Guy Taylor (Janger)
Email: [email protected]
Researcher(s):FaraPack Polymers Ltd.
Coordinator:Dr. Andy Pryke
Date:26th September 2018
Reference:F1853-180926-R
Project Proposal:Estimation of embodied energy of various coat hanger designs.
Executive Summary
Janger Ltd. contacted FaraPack (FP) with the aim of carrying out a survey into the environmental cost benefits of using its single piece polypropylene hanger system (in its various guises) over that of the more commonly employed traditional single or multi-piece hangers of the type currently used by outlets to display garments for sale and to a lesser extent by consumers to hang purchased items once in the home. The ultimate aim being to inform consumers and retailers as to the benefits gained by switching to Janger hangers.
This research has proven the concept of a single piece injection moulded polypropylene hanger to be of the order of 3-4 times less environmentally damaging as the current larger hanger types and in addition they are 4-5 times more efficient to transport in terms of fuel per Km per item, a saving which can be fully exploited due to their proportionally smaller size.
Results
The following hangers were assessed:
Fig. 1) Janger products
Jangers’ range of one-piece polypropylene injection moulded hangers:i)
FaraPack Polymers Ltd, The Innovation Centre, 217 Portobello, Sheffield, S1 4DPVAT No: 842 5880 09, Registered No: 5063994www.farapackpolymers.comFP-Rep180821-V1.0
www.thejanger.com
Fig. 2) One piece moulded “traditional” hanger
Green one-piece injection moulded (brand unidentified) material subsequently identified as polypropylene:
Fig. 3) H&M multi component slide hanger, assembled.
A number of multi-component multi-material spring clip style hangers, two general examples of which are given below, along with their corresponding parts once disassembled.
ii)
iii)
FaraPack Polymers Ltd, The Innovation Centre, 217 Portobello, Sheffield, S1 4DPVAT No: 842 5880 09, Registered No: 5063994www.farapackpolymers.comFP-Rep180821-V1.0
www.thejanger.com
Fig. 3) H&M multi component slide hanger disassembled. Individual parts are: 1) hanger, 2) cross bar, 3) springs x2, 4) clips x4, 5) grips x 4 (removed by soaking clips in hexane overnight)
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35
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Brand/Logo Type Type of part & number present in whole
Total part mass (g) present in the
whole item *
Overall mass (g)
Slim Janger One-piece 1 5.6 (10) 5.6
Original Janger One-piece 1 9.6 (10) 9.6
Junior Janger One-piece 1 7.1 7.1
Deboss Janger One-piece 1 10.2 10.2
Dogtag Janger One-piece 1 15.9 15.9
Next Sliding clip multi-piece 5 piece hanger 7.21 65.2
Jack Reid Sliding clip multi-piece 5 piece hanger 5.5 59.8
Matalan Sliding clip multi-piece 5 piece hanger 6.2 50.8
Evans Sliding clip multi-piece 5 piece hanger 5.8(2) 61.9
H&M Sliding clip multi-piece 5 piece hanger 7.1 67.9
Table 1) Item and part masses for all hangers investigated,
* Numbers in parenthesis indicate an average value was taken with the number contained representing the sample set used.
A number of multi-component multi-material spring clip style hangers, two general examples of which are given below, along with their corresponding parts once disassembled.
iii)
FaraPack Polymers Ltd, The Innovation Centre, 217 Portobello, Sheffield, S1 4DPVAT No: 842 5880 09, Registered No: 5063994www.farapackpolymers.comFP-Rep180821-V1.0
www.thejanger.com
Transport
In addition to the figures calculated above it may also be useful to compare the costs associated with transporting a given mass a given distance and equating this to the cost of transporting a single item.
Transport Type Ton miles/gallon fuel Gallons fuel per mile per ton
Truck 41 0.02439
Plane 5 0.2
Train 100 0.01
Ship 140 0.007143
This data, along with the mass of one item of the various hanger types is then used to calculate the volume of fuel required (cm-3) to transport 1000 of a particular item one mile, using the various modes of transport, the following is found:
Fuel cost: cm-3 per 1000 items per mile (fossil fuel)
Brand/Logo Truck Plane Train Ship
Original Janger PP 0.977017 8.011538 0.400577 0.286126
Slim Janger PP 0.569926 4.673397 0.23367 0.166907
Inj Moulded one-piece PP 4.732425 38.80589 1.940294 1.385925
Slide average multi part 5.963874 48.90376 2.445188 1.746563
Which leads to the conclusion that transporting multi-part slide hangers commonly used today costs between 5 and 10 time that of transporting the corresponding number of Jangers.
FaraPack Polymers Ltd, The Innovation Centre, 217 Portobello, Sheffield, S1 4DPVAT No: 842 5880 09, Registered No: 5063994www.farapackpolymers.comFP-Rep180821-V1.0
www.thejanger.com
Conclusion
In conclusion it can be stated quite confidently that Janger type hangers are better than the traditional type hangers already on the market for 3 main reasons:
Per item they are much lighter and therefore consume much less energy to produce. In addition, this leads to savings in transport costs between both the hanger producer and the garment producer and the consumer and the recycling facility. Typically, in terms of the energy costs incurred from cradle (materials in the ground) to gate (manufactured product) a Janger is approximately one seventh that of a single piece traditional hanger and one eighth that of a slide hanger.
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They are considerably smaller, in fact the excluded volume of an original Janger is approximately 18 times less than an injection moulded one-piece shoulder type traditional hanger and 60 times less than that of a multi-part slide hanger, which leads to savings in transport.
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They are single-piece, one-material designs and as such are cheaper to produce due to no post-moulding assembly steps being required and are, for the same reason, far easier to put back into the recycling stream at the end of life stage.
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FaraPack Polymers Ltd, The Innovation Centre, 217 Portobello, Sheffield, S1 4DPVAT No: 842 5880 09, Registered No: 5063994www.farapackpolymers.comFP-Rep180821-V1.0
www.thejanger.com
Key Points
The volume of a Janger
is approx. 18x lessthan a traditional hanger
Transporting Jangers
costs 5x to 10x lessthan the same number ofmulti-part slide hangers
& 60x less than that of a
multi-part slide hanger.
Jangers do not require anypost-moulding assembly
which means
much cheaperproduction costs
1-piece, 1-material designs
make Jangers
far easierto put back into therecycling stream
Producing a Janger uses
1/7 of the energyit would take to produce atraditional hanger
FaraPack Polymers Ltd, The Innovation Centre, 217 Portobello, Sheffield, S1 4DPVAT No: 842 5880 09, Registered No: 5063994www.farapackpolymers.comFP-Rep180821-V1.0
www.thejanger.com