... konulu sunumlar: "Sıvı ve Gaz Yakıtlar – Kara Altın!"— Sunum transkripti:
1Sıvı ve Gaz Yakıtlar – Kara Altın! Presenter notes: Oil and Gas are natural resources of enormous economic importance. Together they provide about 60% of all the energy used by society today. They provide fuel for transport and are vital for heating, lighting and cooking. In addition they are used in the manufacture of synthetic fabrics, plastics, fertilizers, detergent as well as for many other purposes. In short, it is hard to imagine how our society could function without oil and gas.Additional background notes for the presenter: It would be useful if the presenter brought along some rock samples as props. These could include an organic rich mudstone (black shale) to illustrate a source rock such as the Kimmeridge Clay (see slide 11), an impermeable rock to illustrate the cap such as halite (see slide 13) and a porous sandstone to illustrate a reservoir rock such as the Penrith Sandstone (see slide 13-14).NASAen.wikipedia.org/wiki/Image:Ceratium_hirundinella.jpgen.wikipedia.org/wiki/Image:Oil_platform.jpg
2İçerik Bölüm 1: Sıvı ve gaz yakıtlar nasıl oluşur? Yenilenemeyen EnerjiBölüm 2: Keşif ve ÜretimPresenter notes: In this talk we will examine oil and gas from three angles.In the first part we will think about the biological and geological processes responsible for the formation of oil and gas. In Practical Exercise 1 we investigate the rate at which oil and gas deposits form and consider the meaning of non-renewable versus renewable energy.In the second part, we will look at the way geologists explore for new oil and gas deposits and consider the how oil and gas get from the well to the marketplace. In Practical Exercise 2, we will have a chance to explore for oil and gas fields ourselves in the ‘Prospector Game’.In the third part, we will examine the political importance of oil and gas. Specifically we will look at which countries control production, consider global supply and demand, and think about the likely future of oil and gas in our society.Bölüm 3: Sıvı ve gaz yakıtlar neden önemli?
3(1): Yakıt Kimyası Hidrokarbon en.wikipedia.org/wiki/Image:Petroleum.JPGen.wikipedia.org/wiki/Image:Octane_molecule_3D_model.pngHidrokarbonQuestions for discussion: What is oil and gas? Where does it come from?Presenter notes: As we begin to think about the origin of oil and gas, a basic question we need to answer is what exactly are oil and gas? Oil and gas are complicated mixtures of different hydrocarbons. A hydrocarbon is a large organic molecule. As the name suggests it is composed of hydrogen atoms attached to a backbone, or chain, of carbon atoms. Short chain hydrocarbons like methane are gases. Medium chain hydrocarbons like paraffin are liquids. Long chain hydrocarbons like bitumen are solids. When crude oil is extracted from the earth it may be a mixture of hydrocarbons in solid, liquid and gas states.Sıvı ve gaz yakıtlar farklı hidrokarbonların karışımıdır.İsminden de anlaşıldığı gibi hidrojen ve karbondan oluşurlar.Ham petrol
410,000 mikroorganizma 1 topluiğne başı kadar! (2): Planktonlarcache.eb.com/eb/image?id=9351010,000 mikroorganizma 1 topluiğne başı kadar!Bitki planktonlarıHayvan planktonlarıPresenter notes: It may come as a surprise but most of the world’s oil and gas is made up of the fossil remains of microscopic marine plants and animals. That’s why oil and gas are often referred to as a fossil fuel. One of the most important group of plankton involved in the formation of oil and gas are single-celled marine ‘plants’ called dinoflagellates, though many types of animal plankton are also important. Some oil and gas may have also originated from the remains of land plants, but we will not discuss these types of deposits in this talk.en.wikipedia.org/wiki/Image:Ceratium_hirundinella.jpgen.wikipedia.org/wiki/Image:Copepod.Birçok yakıtın hayatı okyanuslarda yaşayan mikroskobik bitkive hayvan olarak başlar
6(4): Okyanusun dibi Planktonlar ölünce okyanusun upload.wikimedia.org/wikipedia/en/0/04/Plankton.jpgPlanktonlar ölünce okyanusundibinde organik bir lapa oluşturmaküzere aşağı doğru inerleren.wikipedia.org/wiki/Image:Nerr0328.jpgOkyanusun dibindeki hayvanlarbunlarla beslenirPresenter notes: When plankton dies it slowly settles to the sea bed where it forms an organic mush. Usually there are lots of animals living on the sea floor that feed on this material. One important group is the polychaete worms. These are detritivores, which means they eat the dead and decay remains of other organismsOkyanus dibi
8(6): Pişme Siyah katman gömüldükçe ısınır. Organik madde sıcaklığın etkisiyle karojendenilen katı hidrokarbona dönüşürKerogen90°C, civarında petrole dönüşürOilPresenter notes: As more sediment accumulates on top, layers of Black Shale become buried more and more deeply in the Earth’s crust. As they do so, they slowly heat up because of the geothermal gradient. With progressive heating the organic material in the plankton undergoes chemical and physical changes. It gradually breaks down into smaller and smaller hydrocarbons. At temperatures of around 30°C, a solid, sticky bitumen is produced. Around 90°C liquid oil is formed. As temperatures reach 150°C, natural gases like methane are given off. A Black Shale that is heated and gives off oil and gas is known in the oil industry as a Source Rock.Background notes: This is natural chemical ‘cracking’ of the hydrocarbons – where the initially large molecules are broken into progressively smaller molecules by the increase in temperature – much the same as long chain hydrocarbons can be ‘cracked’ commercially.150°C, civarında gaz haline dönüşrGasBu şekilde kaya halinden yakıt üretilmesinePetrolojide Kaynak Kayaç denir.
9(7): Göçme Sıcak petrol ve gaz kayalardan daha az yoğundur Petrol ve gaz kayaların üst kısmınadoğru yoğunluk farkından dolayı, aynıgaz kabarcıklarının sudan çıkması gibiyükselir.Presenter notes: The hot oil and gas does not stay in the Source Rock for long. As the hydrocarbons are less dense than the water in the source rocks that surround them, they gradually migrate upwards through the rock in much the same way that the less dense air bubbles of an underwater diver will rise through water. The migrating oil and gas may travel up through the spaces between the sand grains that make up the rock (called pores) or they may find their way up through cracks, fissures, and faults in the overlying rocks. As we will see when we look at oil exploration, eventually oil and gas get trapped in pockets of rock known as reservoirs.PetrolünyükselişiYükselen petrol ve gaz sonunda bir yerde toplanır.
11Keşif ve Üretim (1): Petrol yatağı Bazı kayalar geçirgendir vepetrolün serbest hareketineizin verir.Diğerleri geçirgen değildir veyukarı harekete izin vermezlerPetrol ve gaz yukarı hareketebaşlar ve bir kubbede birikir veilerleyemezse petrol yataklarındanbirisi olan kubbe şeklinde petrol yatağı oluşur.Geçirgen olmayanPresenter notes: In the first practical we thought about the immense amount of time it takes to form oil and gas. Consequently, it is an extremely valuable resource and huge amounts of money are poured into trying to locate new oil and gas fields. In this section, we will investigate how reservoirs of oil and gas are discovered and how it eventually reaches the marketplace.As we have already seen, once produced, oil and gas migrates out of its Source Rock and accumulates in overlying rocks. Some rocks like sandstone or limestone are permeable to oil and gas, which means that they can pass freely through them. Other rocks like clay or salt are impermeable, which means they block the upward passage of hydrocarbons.One of the most common ways that oil and gas becomes trapped in pockets in the rock is where it is rises into a structural dome capped by impermeable rocks. The cap rocks prevent the oil and gas escaping upwards. The buoyancy of the less dense hydrocarbons in the pore waters prevent them from sinking back down. This is an example of an Oil Trap.Optional exercise: An excellent additional exercise to get students thinking further about how Oil Traps form go to click on Earth-related Activities, and look under the Resource and Environment section.Kubbe yatağıGeçirgen
12(2): Depo Kayalar Petrol yataklarının geçirgen kısmında Depo kayalar bulunurDepo kayalar içerisinde irili ufaklıbirçok gözenek bulunur ve bunlarsayesinde petrolü sünger gibi çekerPetrol göçtükçe bu hali alırPresenter notes: The permeable rocks than contain oil and gas within the oil trap are known as the Reservoir Rock. Reservoir rocks have lots of interconnected holes called pores. These allow them to absorb the oil and gas like a sponge. The picture on the left shows a good reservoir rock with lots of pore spaces filled with water shown in blue. As we advance the slide, we see the pores gradually fill with oil. This rock can soak up a large amount of oil.Depo kayanın sulu haliEarth Science World Image Bank Image #h5innl
13(3): Sismik Çalışmalar Burayı kaz! Presenter notes: We’ve just established what kind of structures tend to trap oil and gas in the Earth’s crust, but how do we locate potential traps underground? One technique is to use seismic surveys. In this technique, a Vibrator Truck fires shock waves into the ground. The shock waves pass through some rock layers and bounce off others. By recording how long it takes for the shock waves to arrive back at the surface allows geologist to build a picture of the internal structure of the rocks beneath their feet. An example of a seismic survey is shown in the diagram on the right. It reveals a large underground dome in the rocks. As we have seen domes often trap oil and gas so this may be a potential site to drill.Background notes: The term seismic is derived from the Greek for “shake” (think earthquakes!)Earth Science World Image Bank Image #h5inorEarth Science World Image Bank Image #h5inpjPetrol ve gazın olabileceği yerlerin araştırılmasında kullanılır.Şok dalgaları yer altına yollanır ve katmanlara çarpan dalgalarınSinyalleri toplanır, böylece yer altının bir nevi haritası çıkarılır
14(4): Doğru sondajYer belirlenince kalite ve potansiyel ölçümü için bir delgi yapılır.Her metre delginin$10,000 lık bir masrafı vardır..Presenter notes: A potential oil trap is called a Prospect. Once a prospect has been identified, the next stage is to drill a hole into the top of the trap to see if it contains oil and gas. It is incredibly expensive to a drill hole. On an offshore rig is may cost $10,000 for every metre drilled. So if you are going to drill a hole 5000 metres underground it’s going to cost you 20 million pounds/ 25 million dollars! Consequently geologists have to be pretty confident that they going to hit oil. If they drill too many ‘dry holes’ they will soon lose their jobs!en.wikipedia.org/wiki/Image:Oil_platform.jpg
16(6): Taşıma Trans-Alaskan Boruhattı Petrol ve gaz çıkarılınca Rafineriye taşınmalıdırÇoğunlukla boru hatlarıkullanılırBüyük yakıt tankerleridetaşımada etkilidirPresenter notes: Once the oil and gas has been extracted from the ground, it must be safely transported from the well to the refinery where it will be processed. Oil is usually transported from the well to the refinery using pipelines. These may stretch over land or be laid over the sea bed. A spectacular example of an oil pipeline is the Trans-Alaskan pipeline which carries oil and gas for 1300 kilometres across Arctic permafrost. Another way that oil and gas are transported is by means of massive oil tankers. These gigantic vessels can carry up to half a million tonnes of oil.United States Geological Survey
17(7): Rafinasyon Destilasyon Petrol refinerisi Araç yakıtı Jet yakıtı Presenter notes: At the refinery, the crude oil, which also contains a lot of gas, is processed. This involves separating out all the different hydrocarbons in the crude oil. To do this, the crude oil is heated in a furnace and then passed through a cooling tower. The method relies on the fact that different hydrocarbons have different boiling points. Consequently the heavy hydrocarbons like bitumen with high boiling points accumulate at the bottom of the cooling tower. Light hydrocarbons like paraffin with low boiling points accumulate near the top of the top. This process is known as fractional distillation. The different hydrocarbons have different uses. For example, bitumen is used to surface roads while paraffin is mostly used as aviation fuel.Asfalten.wikipedia.org/wiki/Image:Anacortes_Refinery_31911.JPGen.wikipedia.org/wiki/Image:Crude_Oil_Distillation.pngKullanılmadan önce ham petrol rafine edilmeli.Hidrokarbonlar destilasyonla ayrılabilir, birçok fraksiyonoluşur
18(8):Yakın Tarihçe Petrol kullanımının modern çağı 1846 da Gesnerin parafin destilasyonunugeliştirmesiyle başlar.Bu dünya çapında petrolÜretiminin patlamasınıtetiklemiştir.Abraham Gesner( )en.wikipedia.org/wiki/Image:Abraham_Gesner.gifPresenter notes: People have been using oil and gas for four thousand years. However, the modern era of oil and gas exploration and production didn’t begin until That year, Abraham Gesner, a geologist based in New Brunswick, Canada figured out how to distill paraffin from crude oil. This made crude oil far more useful and triggered a global boom is exploration and production. California became an early centre of oil prospecting and was famous for its gushers. These were pressurized oil reservoirs, which when drilled, spurted massive fountains of oil into the air!en.wikipedia.org/wiki/Image:Oilfields_California.jpgKaliforniyada fışkıranpetrol kuyularıen.wikipedia.org/wiki/Image:Lucas_gusher.jpg
19(9): Bugünkü DurumPresenter notes: Following a hundred and fifty years of oil and gas exploration, most geologists think that we have now found most of the oil that lies in the Earth’s crust. The map shows the major oil and gas provinces of the world. Dark green provinces are the biggest field and the light green provinces are smaller. Only two regions of the planet have not yet been fully explored for oil and gas. These are the Arctic and Antarctica. These cold inhospitable environments make oil exploration and production too costly. However, as the climate of these regions changes with global warming and as technology advances, it may be only matter of time before these fields become ripe for exploitation. At present exploration in Antarctica is prohibited by the political Antarctic Treaty. Note: an oil province is the assemblage of numerous fields within a region; an oil field is a single accumulation.Question: Can you think of any reasons, why we should not exploit oil provinces in the Arctic and Antarctica (even if the technology were to make it possible and cost-effective)?USGSKutuplar dışında dünyanın her yerindeki rezervler hakkında yeterliBilgi edinilmiştir.
20Practical Exercise 2 The Oil Prospector Game Presenter notes: Now you know about the geological factors that control the distribution of oil and gas in the Earth, you should be able to locate oil and gas fields yourself! In Practical Exercise 2, you will try your hand as an exploration geologist as you play the ‘Prospector Game’. Will you make your fortune or will you get the sack?
21Yakıt Kaynakları Ham petrolün 84% ü genel olarak araç ve uçaklar için yakıta dönüştürülür.Presenter notes: So far we have thought about how oil and gas forms, how geologists find it, and how it is brought to the marketplace. However, this talk would not be complete without a look at the politics of oil and why it is so significant. That will be the topic of the final part of this presentation.As we mentioned at the start, its hard to imagine how modern society could function without oil and gas. The biggest single use of oil and gas is a fuel source. Fuel accounts for about 84% of all oil and gas consumed. Without oil and gas there would be no cars or planes and we would be more limited in the way we heat and light our homes, or cook meals. We can’t simply turn to electricity instead because much of our electricity is produced by power stations that burn oil and gas!Question for discussion: Apart from a fuel source, what other uses does oil and gas have?Özellikle Çin ekonomisininBüyümesiyle talep artmaktadır.blogs.sun.com/richb/resource/NBC_at_the_Pump.jpg
22(2): Diğer Kullanımları en.wikipedia.org/wiki/Image:CD-R.jpgen.wikipedia.org/wiki/Image:Konservering.jpgen.wikipedia.org/wiki/Image:Lilit.jpgGıda katkılarıCD ve DVD lerPresenter notes: Less well known is the fact that many household items are also made from oil and/or gas. Did you know that CDs and DVDs, plastic containers, fertilizers, pesticides, food additives, synthetic clothing, dyes, and detergents, all to a large degree, contain byproducts of oil and gas? In fact 16% of all oil and gas is used to make these and many other products. As a society we totally rely on oil and gas in our day-to-day lives.Gübre ve pestisitlerPlastikKalan 16% sentetik fiberler, deterjanlar gibi günlük ihtiyaçlarınYapımında kullanılır.
23(3): Esas Üreticiler- OPEC en.wikipedia.org/wiki/Image:Opec_Organization_of_the_Petroleum_Exporting_Countries_countries.PNGOrganization of the Petroleum Exporting Countries (OPEC) 13Ülkeden oluşur ve toplam petrolün 36% sını üretir, 32 milyonVaril günlük.En büyük üretici Suudi Arabistan, fakat İran, Birleşik ArapEmirliği, Kuveyt ve Venezuella da büyük üreticilerdir.Presenter notes: So, if oil and gas is of such importance to society, it’s important to understand who controls its production. Today, oil production is governed by three major groups who together produce 75% of the global supply.The single largest oil producer is the Organization of Petroleum Exporting Countries, also known as OPEC. Together these 13 countries produce 36% of the world’s oil, or to put it another way, some 32 million barrels of oil per day (based 2008 figures). The largest producers in OPEC are four Arab states, namely Saudi Arabia, Iran, the United Arab Emirates, and Kuwait, although Venezuela is also a major producer.
24(4): Diğer Üreticileren.wikipedia.org/wiki/Image:OECD-memberstates.pngOrganization for Economic Co-operation and Development(OECD) tüm petrolün 24% ünü üretir, 21 milyon varil günlük.En büyük üretici ABD dir, fakat Meksika, Kanada ve UKda büyük üreticilerdirOECD eski Soviyetler birliği de 15% lik paya sahiptir.Presenter notes: The other two major producers are the Organization for Economic Co-operation and Development, also known as OECD, and the states of the former Soviet Union.OECD produces 24% of the world’s oil supply, or 21 million barrels per day. Within OCED, the biggest single producer is the USA, but other major players include Mexico, Canada, and the UK. The states of the former Soviet Union supply a further 15% of the global production.
25(5): Arz Talepen.wikipedia.org/wiki/Image:OilConsumptionpercapita.pngABD toplam petrolün 24% ünü kullanıyor fakat Çinin kullanımı her yıl artıyor.Kişi başı petrol kullanım miktarıKoyu renkler fazla kullanım.Presenter notes: In 2007, the global consumption of oil was about 80 million barrels per days. Every year, this rate of consumption is rising by about 1.2 million barrels per day. The single largest consumers of oil is the USA, which sucks up 24% of the total oil produced. However, the oil consumption of the USA is slightly declining at the moment. The annual growth in global oil consumption is mostly being driven by China, who shows big year-on-year increases in usage.Geologists believe that the nations of OPEC and OECD cannot indefinitely increase the rate of oil production. At most, production rate can only be increased by another 2.5 million barrels per day. Consequently there may be a big squeeze in the availability of oil in the coming decade.2007 de, global arz günde 1.2 milyon varile çıktı.OPEC and OECD ülkeleri bunu en fazla 2.5 milyonaÇıkarabileceklerini söylüyorlar, yani bir kriz kapıda!!!
26(6): Petrol Piki Era of energy crisis Hubbert (1903-1989) en.wikipedia.org/wiki/Image:Hubbert.jpgen.wikipedia.org/wiki/Image:Hubbert_peak_oil_plot.svgEra ofenergycrisisPresenter notes: This global squeeze in oil supply was predicted more than fifty years ago by a geologist called M. K. Hubbert. In 1956, Hubbert predicted that the world would reach peak rates of oil supply about the Year Thereafter oil would become increasingly scarce. This would trigger an energy crisis, result in widespread power blackouts, and see the cost of fuel rise astronomically. Hubbert’s idea of ‘Peak Oil’ is controversial but supported by some scientists and politicians.Hubbert ( )1956 da, Hubbert petrol üretiminin 2000 li yıllarda pik yapacağınıSonrasında üretimin azalmasıyla, enerjinin pahalanacağını, krizlerÇıkacağını öngörmüştü
27(7): Artan Petrol Fiyatları $139 Haziran 2008Yıllardır düzenli artıyor.Presenter notes: One piece of evidence that suggests that Hubbert may have been right is rising cost of oil. For the past few years, oil prices have rapidly increased. In 1999, oil was priced at less than $10 per barrel but since then the price has sky-rocketed to $139 per barrel by June 2008 and will probably go even higher. Is this due to a squeeze in availability, as Hubbert suggested, or are other political or economic factors to blame?en.wikipedia.org/wiki/Image:Oil_Prices_Medium_Term.png
29(8): Küresel Isınmaen.wikipedia.org/wiki/Image:Coal_anthracite.jpgen.wikipedia.org/wiki/Image:Bluebbl.gifen.wikipedia.org/wiki/Image:Windpark_Galicia.jpgOILPresenter notes: Although there probably won’t be an “Oil Crisis” in the short-term, there are other good reasons for investing in alternative sources of power now. The main reason is that oil and gas are a major source of greenhouse gases like carbon dioxide and methane. Together they contribute to global warming which is one of the biggest headaches for modern society to deal with. Oil and gas produce far fewer greenhouse gases than coal per watt of energy produced. However, renewable energy sources like solar, wind and nuclear power are far less polluting. That said, renewable energy has not yet been sufficiently developed to replace fossil fuels as the world’s energy source. In particular it is difficult to develop renewable energy as a source of fuel for transportation. As a result, we will have to live with the environmental consequences of oil and gas for centuries to come – unless we change our habits quickly.Question for discussion after the practical: Apart from fossil fuels what other sources of energy are available? Why are these sources not used more widely?Petrol ve gaz 1 watt enerji için kömürden 15-30% daha az CO2Salınımı yapar. Yenilenebilir enerji temizdir ama henüz yakıtOlarak kabul edilmemektedir.
30Petrol ve GazPresenter notes: In this talk we have discussed how oil and gas are formed, how geologists find and produce it, and why it is of such political importance in modern society. I hope you have learned just how much we rely on this precious non-renewable resource and how pressing is the need to swiftly find alternative sources of energy. Oil and gas has been fundamental for the growth of society for the past fifty years, but in a further fifty years we will need to have weaned ourselves off our thirst for oil and gas.NASAen.wikipedia.org/wiki/Image:Ceratium_hirundinella.jpgen.wikipedia.org/wiki/Image:Oil_platform.jpg