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February 2008

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From:
Joe Fjelstad <[log in to unmask]>
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Environmental Issues <[log in to unmask]>, [log in to unmask]
Date:
Fri, 29 Feb 2008 16:00:40 EST
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February 29, 2008
Copyright (c) 2008, Japan for  Sustainability

Japan for Sustainability (JFS) is a non-profit  communication platform to
disseminate environmental information from Japan to  the world, with the
aim of helping both move onto a sustainable  path.

See what's new on our web site:  http://www.japanfs.org/
E-mail:  [log in to unmask]

--------------------------------------------------------------------

In  the February 2008 issue of the JFS Newsletter:

- Could Japan Be Rich in  Resources? 
Exploiting the 'Urban Mine' Effectively

- Towards a  Sustainable Japan--Corporation at Work Article Series No. 69
Promoting  Sustainability through Real Estate
(Jones Lang LaSalle)

-  Government Initiatives to Support a Sustainable Agricultural Industry
in  Japan

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Could  Japan Be Rich in Resources? Exploiting the 'Urban Mine' Effectively

Japan  is generally regarded as a country with not many resources,
particularly  lacking in minerals and fossil fuels, and is considered
dependant on imports  for most of its supplies. Japan used to be capable
of importing as many  resources as necessary to sustain its industries,
but the global resource  situation is now changing rapidly.

One recent trend is that China, the  biggest resource exporter, has
started to restrict its resource export  volumes due to increasing
domestic demand from its surging economy. In  addition to China, the
resource demands of the other three BRIC countries -  Brazil, Russia and
India - are also rapidly rising as these countries emerge  as economic
powers. Resource demand trends in these countries are boosting  resource
prices around the world.

In this context, the concept of the  "urban mine" is getting more
attention. An "urban mine" sounds like a mine  located in a city but
these mines do not require digging into the ground -  the urban mine is
the stock of resources already existing in society. For  example, iron
bridges are regarded as a stock of iron. Mobile phones use  various rare
metals, and thus constitute a stock of resources.

Some  metal resources are already collected and recycled from mill ends
after  manufacturing or from products discarded after use. For example,
18.36  billion aluminum cans, amounting to 298,641 tons in weight, were
used for  juice and beer in fiscal 2006. Of the weight consumed, 90.9
percent was  recycled, and the ratio of recycled material used to
manufacture new cans  reached 62.1 percent.

In short, recycling aluminum cans several times  over makes it possible
to deliver drinks in these containers with less use of  virgin aluminum. 
In the context of the urban mine concept, all aluminum cans  in the
society - including those now on the market and those in between uses  -
can be regarded as an "aluminum mine" in the cities. Likewise, scraps  of
iron, copper, aluminum, lead, etc are important material  sources.

Growth in demand for the so-called rare metals and rare earths  is
particularly rapid, as they serve in a wide range of functions  that
support product innovation, for example in mobile phones and  televisions.
Since the stock of available resources on earth is limited,  resource
supply risk is rapidly expanding due to resource depletion  and
skyrocketing prices.

One possible way to reduce resource risk is  effective use of the urban
mine, that is, recycling scarce resources already  existing in cities.
However, the extent Japan's urban mine stock of these  resources is
presently unknown.

Komei Harada, chief of the material  laboratory of the National Institute
for Materials Science (NIMS) tried to  determine the total amount of
recyclable metals stocked in Japan. He  calculated estimates for a wide
range of metals: gold, silver, copper, iron,  tin, zinc, lead, aluminum,
nickel, antimony, cobalt, indium, lithium,  molybdenum, platinum,
tantalum, tungsten, and vanadium. The results of his  study, announced in
January 2008, revealed the scale of the urban mine in  Japan.

These calculations were based on foreign trade statistics, or  records of
exports and imports, but Harada also used input-output tables  because
raw materials are often traded after being made into components  or
products. First of all, using the input-output table, he estimated  the
percentage of raw materials exported from Japan in the form of parts  and
products. Then, after multiplying the percentages by component  demand
determined from industrial statistics, he deducted the amount of  raw
materials that were exported as finished products. With respect to  the
volume of the iron stockpile, Japan's ferrous raw materials  association
calculated the domestic stockpile by using data on material flows  in
2003. The results of Harada's calculation were almost coincident  with
the 2003 figures calculated by this association. This indicated  that
using input-output tables is a credible way to calculate the  stockpile
of each metal.

Harada's calculations revealed that the scale  of the urban mine in Japan
can compare with the stocks held by the world's  leading mineral
resource-rich countries. The amount of gold stockpiled in  Japan is about
6,800 tons, which accounts for 16 percent of the world's  current
reserves of 42,000 tons. Its silver stocks amount to about 60,000  tons,
accounting for 22 percent of the world's stocks. As these metals  are
used extensively in electronic parts, demand for them will increase  and
the supply is expected to be in crisis worldwide.

Japan's stock of  indium, which is used in the form of transparent
electrodes for display  devices and solar power generators, equals 61
percent of world stocks.  Moreover, Harada's calculations revealed that
Japan's stock of many other  metals amount to over 10 percent of world's
reserves, such as tin (used for  electronic parts) at 11 percent and
tantalum at 10 percent.

In order  to understand the scale of the urban mine in Japan, Harada also
tried to  calculate how many years the stocks will last if current global
demands for  metals are supplied only by Japan's urban mine. In these
calculations, he  found that Japan has accumulated as much as the entire
volume of metals  consumed in the entire world for two to three years. In
particular, its  stockpiles of lithium, expected to be in demand as a
material for batteries,  and platinum, essential as a catalyst and for
electrodes in fuel cells, are  large enough to meet total world demand
for six to eight  years.

Compared with the reserves at natural mines in major  mineral-producing
countries, Japan's urban mine has the largest quantity of  gold, silver,
lead and indium in the world, the second largest quantity of  copper,
and the third largest quantities of platinum and tantalum. It has  often
been said that Japan has few natural resources and Japanese people  have
believed this without question. However, the latest research shows  that
Japan has one of the world's largest stockpiles of rare  metals.

The importance of the urban mine has not been recognized  sufficiently in
Japan, and systems to recover and recycle most of these rare  metals have
not yet been set up. Thus, Japan's urban mine remains  undeveloped, and
worse yet, quite a lot of these metals end up overseas in  the form of
low-priced scrap. Japan, and the whole world, need to use these  urban
mine resources more actively and efficiently.

For this to  happen, collecting systems of used products and recycling
facilities need to  be set up. Japan's nonferrous metal industries
recover nonferrous metals from  waste such as discarded electronic
devices and vehicles by applying  separation and refining technologies
that originated in the ore smelting  process. Thus, to a certain extent,
recycling facilities are already in  place. In fact, a so-called "urban
mine" has been set up where a real mine  used to be: the Kosaka Smelting
& Refining Co. (formerly the Kosaka  Mine), in Kosaka Town, Akita
Prefecture, has been recovering metals from  electronic substrates using
the huge smelting facilities belonging to the  mine, which closed after
130 years of operations.

In this metal  recycling process, about 280 grams of gold can be
recovered from about 10,000  mobile phones, which weigh one ton.
Considering that only five grams of gold  are extracted from one ton of
gold ore, it is obvious that the urban mine is  an exceedingly rich
resource. This phenomenon is not limited to gold. It is  said that one
mobile phone weighing 100 grams, contains 0.028 grams of gold,  0.189
grams of silver, 13.7 grams of copper, and 0.014 grams of  palladium.

To take advantage of the urban mine, the collection rate of  used
products must inevitably be increased. For example, Japanese people  tend
to replace their mobile phones every 18 months on average. However,  the
collection rate of used phones is declining because an increasing  number
of users want to still keep their old phones for non-telephone  functions
- as an address book or camera - or for fear of leaking  private
information. Manufacturers also need to design easily  disassembled
products in order to make recycling collected used products  easier.

A wide variety of natural resources are being exhausted around  the world,
exacerbating the risks of resource depletion and driving up prices  for
industries everywhere. Mitigating such problems will require  the
creation of systems for resource recovery and recycling that  minimize
wasteful use of natural resources and make full use of the  rich
resources that have accumulated in urban areas. These  critical
challenges for Japan and other countries of the world are just  now
taking shape. We hope to continue monitoring related events and  report
back in our newsletters.

(Written by Junko  Edahiro)



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