Difference between revisions of "Essay"
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Revision as of 15:16, 3 June 2015
Work in Progress!
Working title
"April 6, 2012 - Information about Biophotovoltaics coming soon!"[ https://biophotovoltaics.wordpress.com/ ]
Intro
During a course the students WdKA Spatial Design visited the exhibition "Bio Design" in the New Institute in Rottedam.[1]
In a following course a student has been working on the design of a paviljon for a square in Rotterdam. She discovered that the square is covered with moss. She makes the connection with the Cambridge Moss Table [2] which was on display in "Bio Design". Based on this table, she calculated that around 12 square meters of moss were needed to illuminate the paviljon during the night.
What is the Cambridge Moss Table?
This table is designed by a team of designers and scientists at Cambridge University[ ]. It is called a prototype table and a showcase of emerging technology[ ]. Although the setup is not producing enough energy to power the lamp incorporated in the design in 2011 the technology is forecasted to be competitive with the solar cell within 5-10 years [3].
Why is the Moss Table made
"The moss table was produced as part of a research project called “Design in Science”, which set out to explore how designers might be able to support scientific research." [4]
About the predictions
"Currently, the moss generates about 50 milliwatts per square metre (mW/m2). Scientists anticipate that future devices may be able to generate up to 3W/m2 (Strik at al., 2011). "[5]
Calculations
The given figures or the table and moss .....
Mosstable: currently 50 mW/m2.[6]
Currently the table can produce about 520 Joules (J) of energy per day = 0.006 J/s (Watt) [7]
Predicted for moss: up to 3W/m2 = 3J/s.
In the article, these values are compared to a laptop consuming 25W (J/s).
The lamp fitted in the design table can be estimated at 10 - 25W.
Comparison with a solar cell: 5.2W [8], which is indicated to have enough power to charge your cell phone.
My samsung cell phone uses 700mA at 5V for 4 hours meaning 3.5W during 4 hour is needed with an adaptor).
Comparison with a standard battery: 2000 mAh at 1.6V = 3.2 W during 1 hour.
Compare to solar power on a roof top: for Rotterdam, panel facing South [ http://solarelectricityhandbook.com/solar-irradiance.html]
From 0.80 kWh/m2/day in January to 4.98 kWh/m2/day in June = 1.38 W/m2
But considering moss:
Why moss and not another plant? The seasonal variation, a factor 7 for Holland, is this also valied for moss, since moss gets it's energy from light.
About the calculations
Citing the numbers:
Each one (moss plant?)generates a potential of about 0.4-0.6 volts (V) and a current of 5-10 microamps (µA).[9]
In a comparable article [10] on BPV is briefly mentioned the following: "voltage and amperage were measured in all the experiments, and even though voltage was always present, no amperes were observed.".
Appreciation
"As for the rest, it was more difficult to say. There were some beautiful aesthetic pieces, like the Meridian Audio M80, the Moss Table and the Prestige kettle, which drew the eye with their innovative design."
[11]
"A moss table has won the People’s Choice poll to be included in the Design Icons: Cambridge Innovation Festival exhibition at Anglia Ruskin University from February 8 to 23."
[12]
What makes the moss table attractive?
The table seems to provide free energy.
The plants generating the energy are conveying the feeling of "green uncontaminated energy".
Nobody seems to suffer for generating this energy.
The energy will be creating in our home, at our table, without interference or energy companies sending a bill.
The environment is not polluted by generating this energy, nor do we need specially manufactured materials or technical complexity like very pure silicium needed for solar panels.
The temptation of the predicted 3W/m2 is huge: charging your cell phone...
The idea that these tiny lovely plants, growing in all forests will help us reduce the energy bill, even inside our homes is a marvellous promise.
Description of the Design
A design table with moss plants nicely arranged in the table top. A table light is part of the table. The legs and the frame of the table are indistinguishable from a basic camping table. The design contribution is in the way the moss plants are growing under a glass table top and the way the table light is added in the circular shape. The nicely arranged fresh moss plants under the glass are very appealing for the eye.
Critical remarks
On the internet no critical remarks about the mosstable or BPV are found. The promises from 2011, that moss will produce within 5-10 year 3W/m2 is apparently accepted. The only critical factor is time. After this table no new facts about BPV or moss are published.
The short statement mentioned above about the measured voltage without any current sis not stop the designers at all. They continued this article with very convincing graphics and every aspect of this energy generating wall was carefully reflected upon and explained visually. But what is the value of these graphical details when the reason why you make this design is apparently not functioning?
Other research on energy from plants
This research from the University of Georgia (2013) is done directly inside the photosynthesis cycle of the plant.
[13]
Other articles are not found at the moment.