Clean water is a problem for some countries, mainly in Africa. In my last post about water there is a link to a documentary called FLOW. For 4 or 5 seconds a guy mention something about a playpump. So I decided to know a little bit more about that idea. Roundabout Water Solutions, who has an agreement with the South African Department of Water Affairs and the Governments of Malawi, Lesotho and Swaziland, is raising donor funds to supply rural communities, with clean drinking water, by means a sustainable pumping system, called a PlayPump, that is powered by the play of children.
PlayPump
Ideas like that to help small communities are more than welcome as in How Solar Energy Empowered a Nicaraguan Community Once Devastated by War. However there are some disadvantages as mentioned by this report released by UNICEF in 2007. For example the pumps cost around $14 000 which are more expensive than traditional pumps. Also a Playpump could theoretically provide the bare minimum water requirements for about 200 people a day based on two hours’ constant “play” every day[1]. It is a great idea but it is not to solve to problem the intention is to mitigate it. Of course the costs should be lower than that.
That’s what I first heard. It is clean because it does not release CO2. Indeed, nuclear power plants produce energy without the releasing of large CO2 amount but is it really clean? I tried to learn a bit more about the topic. I won’t get into the details about how nuclear power is generated, I think this wikipedia text does a good job explaining how it works:
Just as many conventional thermal power stations generate electricity by harnessing the thermal energy released from burning fossil fuels, nuclear power plants convert the energy released from the nucleus of an atom via nuclear fission that takes place in a nuclear reactor. The heat is removed from the reactor core by a cooling system that uses the heat to generate steam, which drives a steam turbine connected to a generator producing electricity.
So the key factor is basically the nuclear fission:
nuclear fission is a process in which the nucleus of an atom splits into smaller parts. The fission process often produces free neutrons and photons (in the form of gamma rays), and releases a very large amount of energy even by the energetic standards of radioactive decay.
An induced fission reaction.
The products of nuclear fission are on average far more radioactive than the heavy elements which are normally fissioned as fuel (for example Uranium), and remain so for significant amounts of time. Thus, is it nuclear energy safe? The world had 434 operable reactors with 66 others currently under construction. Statistically, considering the number of reactors and number of accidents, nuclear power plants are not really unsafe. Well, statistics is powerful and should be used carefully. Each nuclear accident could represent environmental concerns of hundreds of years (maybe thousands depending of the element and nuclear decay process). Therefore, only one accident can lead to catastrophic environmental consequences.
I started watching a movie about the Chernobyl accident and then I found more documentaries including nuclear power accidents, nuclear footprints and nuclear waste. It was an amazing journey. I hope these movies help you to understand more about this technology which is amazing but at the same time scary. Personally, after all these movies I though: “Wow, coal energy is kind of cleaner when compared to nuclear energy.”. It is important to mention there is a debate about the use of Thorium instead of Uranium or Plutonium in the nuclear power plants. The claim is that Thorium is cheaper, safer and also abundant. Well, soon we will see the reality of these claims.
Into Eternity
This wasn’t the first movie that I saw about the topic but it was the most impressive for me. It was for me the scariest because of the time-dimension of the problem and the solution. 100,000 years. Wow, 100,000 years!
Every day, the world over, large amounts of high-level radioactive waste created by nuclear power plants is placed in interim storages, which are vulnerable to natural disasters, man-made disasters, and to societal changes.
In Finland the world’s first permanent repository is being hewn out of solid rock – a huge system of underground tunnels – that must last 100,000 years as this is how long the waste remains hazardous.
Once the waste has been deposited and the repository is full, the facility is to be sealed off and never opened again. Or so we hope, but can we ensure that?
And how is it possible to warn our descendants of the deadly waste we left behind? How do we prevent them from thinking they have found the pyramids of our time, mystical burial grounds, hidden treasures? Which languages and signs will they understand? And if they understand, will they respect our instructions?
While gigantic monster machines dig deeper and deeper into the dark, experts above ground strive to find solutions to this crucially important radioactive waste issue to secure mankind and all species on planet Earth now and in the near and very distant future.
Is Nuclear Energy Safe? Nuclear Energy Risks and Consequences
Three Mile Island, Chernobyl and Fukushima: This original Earth Focus investigative report looks at the untold stories behind three of the world’s largest nuclear disasters.
Discovery Channel – The Battle of Chernobyl (2006)
This documentary analyzes the Thursday 26th April 1986 when one of the reactors at the Chernobyl nuclear power station in northern Ukraine, exploded. The plant, just 20 km away from the town centre, was made up of four reactor units each generating an output of 1,000 megawatts. The reactor in question exploded due to operational errors and inadequate safety measures and the meltdown was directly linked to routine testing on the reactor unit’s turbine generators.
More than 200 people died or were seriously injured by radiation exposure immediately after the explosion. 161,000 people had to be evacuated from a 30 kilometer radius of the reactor and 25,000 square km of land were contaminated. As time went on millions of people suffered radiation related health problems such as leukemia and thyroid cancer and around 4,000 people have died as a result of the long-term effects of the accident.
Nobody was prepared for such a crisis. For the next seven months, 500,000 men will wage hand-to-hand combat with an invisible enemy – a ruthless battle that has gone unsung, which claimed thousands of unnamed and now almost forgotten heroes. Yet, it is thanks to these men that the worst was avoided; a second explosion, ten times more powerful than Hiroshima which would have wiped out more than half of Europe. This was kept secret for twenty years by the Soviets and the West alike.
Uranium – Is It A Country? Tracking the Origins of Nuclear Power
This is a documentary that takes a look at the footprints of nuclear energy. In Europe nuclear energy is more and more often celebrated as saving the climate. Clearly, nuclear power plants need uranium.
The aim is to comprehensively illustrate the opportunities and risks posed by nuclear energy, whilst paying particular attention to uranium mining. Australia has the world’s largest deposits of this resource. They go to the “land down under” to exemplify where uranium comes from, where it goes to and what is leftover from it.
The Fukushima Nuclear Accident
Examines the incident, aftermath and implications for the adoption of Nuclear energy in other countries. From ‘Four Corners’, an Australian investigative program on the ABC.
NASA successfully launched its first spacecraft dedicated to studying atmospheric CO2. Orbiting Carbon Observatory-2 (OCO-2) will be NASA’s first dedicated Earth remote sensing satellite to study atmospheric carbon dioxide from Space. OCO-2 will be collecting space-based global measurements of atmospheric CO2 with the precision, resolution, and coverage needed to characterize sources and sinks on regional scales. “Sources and sinks” are the keys words here. As I posted before, when CO2 is added in the atmosphere only a part stays in there (which drives warming). The remained part could be absorbed by the ocean, and land. However, exactly where is highly uncertain. Thus this sensors will help to solve this part of the puzzle. Also OCO-2 will also be able to quantify CO2 variability over the seasonal cycles year after year.
Sometimes I am surfing on the internet and I find something interesting. I like to discuss more the topic but due lack of time I can not. So for now on, I’ll try to write a short post (probably on Fridays) with some interesting environmental random news like these:
A new billboard in Calgary claims: “The sun is the main driver of climate change. Not you. Not CO2.” Well I am Ok if someone says that we don’t really know if humans are causing the global warming, but blaming the sun? That is not cool. The best part is the name of the organization: http://friendsofscience.org/
Brazil is the host country of the 2014 FIFA World Cup. As thousands of tourists are arriving and the country is preparing for one of the world’s major sporting events, drought is affecting Brazil’s water availability and electricity generation in the Northeast and Southeast regions.Continue reading
First the definition of Renewable energy from wikipedia:
is generally defined as energy that comes from resources which are continually replenished on a human timescale such as sunlight, wind, rain, tides, waves and geothermal heat.
Spider X bass 