Difference between revisions of "Oil Production 2030"

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===[[4) N@NO]]===
===[[4) N@NO]]===
The global population continuous to increase in size up to 9 billion by 2030. Although the virtual technology provides a realistic alternative to face to face contact the increase in distance travelled and number of travellers results in an increase of total road transportation. Due to the increased investment into alternative energies in the second decade of the 21st century a  stream of enabling technologies come online supporting the full scale use of electrical cars.  
The global population continuous to increase in size up to 9 billion by 2030. Although the virtual technology provides a realistic alternative to face to face contact the increase in distance travelled and number of travellers results in an increase of total road transportation. Due to the increased investment into alternative energies in the second decade of the 21st century a  stream of enabling technologies come online supporting the full scale use of electrical cars.  
A first key breakthrough was the third generation derivative of the thin-layered paint-able Nano-solar technology. As a result the electricity required to “fuel” the increasing number of electrical cars is becoming available. For many years the main barrier to move from the now common hybrids to full electrical cars is the required battery capacity. Finally in 2019 the “biobattery” is industrially feasible. The technology was initially developed by the Texas Univeristy in Austin in 2003,; the device produces electric energy owing to the same glucose oxidation reaction that occurs in the human body.  
A first key breakthrough was the third generation derivative of the thin-layered paint-able Nano-solar technology. As a result the electricity required to “fuel” the increasing number of electrical cars is becoming available. For many years the main barrier to move from the now common hybrids to full electrical cars is the required battery capacity. Finally in 2019 the “biobattery” is industrially feasible. The technology was initially developed by the Texas Univeristy in Austin in 2003,; the device produces electric energy owing to the same glucose oxidation reaction that occurs in the human body.  
As a result of the move towards the full electrical cars, there is a reduced demand for oil. In the second decade of the 21st century the annual oil production has increased from 80 to 90 billion barrels, the price has followed the same gradual increase and trades around 100 € per barrel. Especially in dense areas like the US East Coast, Europe and Japan the electrical grid is fully realized by 2025. The global oil demand is dramatically impacted by this move and apart from some 40 million oil fuelled cars in Africa, India and South America the main use of oil is in plastics, fertilisers and the pharmaceutical industry. By 2030 production is around 30 billion per year.  
As a result of the move towards the full electrical cars, there is a reduced demand for oil. In the second decade of the 21st century the annual oil production has increased from 80 to 90 billion barrels, the price has followed the same gradual increase and trades around 100 € per barrel. Especially in dense areas like the US East Coast, Europe and Japan the electrical grid is fully realized by 2025. The global oil demand is dramatically impacted by this move and apart from some 40 million oil fuelled cars in Africa, India and South America the main use of oil is in plastics, fertilisers and the pharmaceutical industry. By 2030 production is around 30 billion per year.  
Less money is spent in the oil sector as further exploration and technology advancement is no longer required as the conventional reserves appear to be enough to satisfy demand for quite some time. The crew change problem ceases to exist as there is less demand for qualified and experienced personnel.  
Less money is spent in the oil sector as further exploration and technology advancement is no longer required as the conventional reserves appear to be enough to satisfy demand for quite some time. The crew change problem ceases to exist as there is less demand for qualified and experienced personnel.


==New Driving Forces==
==New Driving Forces==

Revision as of 18:07, 11 October 2009

Team Members

  • Mihai Andreoiu
  • Michael Aouad
  • Joost d'Hooghe
  • Phil Poetter
  • Shirley Yuen


Scenarios

Following are the 4 scenarios that have been developed for 'oil production 2030':

1) Business as usual

Under "Business as usual" the world continues its economic growth with main engines being China and India. The latter especially experiences a leapfrog towards industrialization. Western countries support the growth of emerging markets as they are huge consumer markets. World population grows to 9 bn.

Following both the increased population and the prosperity increase, especially in the Western hemisphere, the energy demand grows significantly. Energy efficiency makes progress however, it is not sufficient to compensate for the total demand. Green tech remains rather expensive and perceived as too complicated by the end user.

Substantial power resides with National Oil Companies where reserves are located, these companies engaging in bilateral deals with the emerging countries. Oil is provided not only for Dollars but also for ideological support to Venezuela, where Hugo Chavez rules the “new Cuba”. The 600 billion barrel conventional oil reserves decline steadily. However, the non-conventional oil reserves (i.e. tar sands in Canada, heavy oil on Venezuela) become more viable. Approx. 3 trillion barrels of oil seem to be available with the new extraction and production technology.

With the increased energy demand and diminished conventional oil reserves oil price rockets to USD 300 per barrel thus allowing for more spending towards non-conventional oil exploration and production. As the oil industry is very much alive and pays well more people are drawn to it so the old “crew change” phenomenon disappears.

Global warming is tackled mainly by “cap and store” solutions whereby the harmful CO2 emissions are stored underground and owned by specially created state owned enterprises.

Peak oil has not happened and global daily oil production reaches 120 mbpd.


2) Change of Guards

The world characterized by the "Change of Guards" is at a turning point. Sequel to previous forums in Kyoto and Copenhagen, multi-lateral engagements at the political scene unfold and have a lasting impact. Environmental pressures is going hand in hand with an increasingly stiffening geopolitical landscape. Discussions on key issues - mainly related to global warming and its arguably strong correlation to CO2 emissions by fossil fuels - is fierce, but constructive. It becomes increasingly clear that a strong mandate and commitment is required to move forward. As a result far-reaching regulations with binding agreements are put in place, paving the way for a joint effort of the G20.

This comes at a time, where the world continues its economic growth, while population growth (at 0.8% annually) is leveling off sooner than anticipated, leading to a world population just shy of 8 billion in 2030; +17% compared to 2010 levels. Still, total global energy demand increases by twice as much in line with economic development in populous emerging markets.

Increased efforts at R&D level leads to energy efficiency gains quickly outstripping increases in global energy demand. Strong governmental support is reflected by putting in place the required infrastructure for large-scale alternative energy coverage and required production capacities.

Oil peak occurred a few years just before the turn of the decade. In 2015, ongoing discussion on reserve figures leads to a reevaluation after which OPEC countries have to adjust their figures significantly downward. From then on, oil reserves are depleting at an increasingly fast rate from a maximum of 1.3 trillion barrels and are expected to dwindle down to 100 billion barrels in 2030. While non-conventional oil resources are not economically viable to exploit, ongoing production cannot replace dwindling production rates. Globally, most wells are in their final stage of their life cycle.

With the financial competitiveness and increasing availability of alternative energy sources not only in advanced but also emerging markets, oil prices are starting a continuous decline. The much anticipated scarcity of skilled labor in the oil industry fails to appear as decreasing operating activity can be covered by the existing pool of people and productivity gains. Moreover, the Middle East and parts of Central and South America are becoming the main centers of oil production as the focus shifts towards easily accessible and cheap oil.

The oil-age is coming to an end - the age of alternative energies is in full swing.


3) Too little - too late

Under “too late too little” the world has not had a speedy recovery from the current economic crisis. The economic crisis has led to a tendency of countries to be more inward focused. Hence there is less international cooperation and stronger nationalistic activism. The world becomes more polarized between West and East, Christian and Muslims. Growth in emerging markets is starting to decline as emerging markets economies are very dependent on international trade which is lagging given the more restrictive trade policies of developed countries. World population continues to grow. Peak oil has happened, but major oil companies and countries are not aware yet. Global warming is getting worse. Big international conferences regarding climate policies keep on failing to produce agreements and countries are not willing to work together to solve climate issues or invest sufficiently into alternative energy sources. Oil production is concentrated on exploring conventional sources and little investments are made in efficiency. Oil prices are going down due to a second wave economic recession and companies need to produce more money in order to receive same income. Crew change is getting worse as oil prices are low, people are not interested to join oil companies thus the decline of the oil industry feeds on itself.

In year 2025, people finally realize that Peak Oil happened and that the conventional oil resources are almost depleted. The price of oil prize is skyrocketing to USD 400 a barrel. Due to the high prize of oil, this attracts people to work in the oil industry again, but it takes time to train people, so there is a shortage of qualified people, driving the price of oil even higher. Non-conventional oil exploration intensifies in a desperate effort to provide the much needed resource. Although there are some improvements in this, due to the slow start, non-conventional oil, alternative energy and more efficient use of energy are not enough to replace the conventional oil resources. Due to the shortage of energy,transportation becomes prohibitive. Trade and business lag behind. Recession worsens creating political instability within countries as there is a bigger delta between poor and rich. Regional issues between West and East, Christians and Muslims are worsening and terrorist attacks are the order of the day. World population growth is rapidly picking up due to poverty especially in emerging markets. Global warming issues are becoming increasingly worse and people have to seek refuge to different countries. Such climate refugees are causing more economic problems. All these issues are escalating each other and causing continued economic recession and political instability.

In 2030, there are no conventional oil reserves left. Alternative energy sources and the remaining reserves of non-conventional oil are not adequately covering the global energy demand. Economies remain in an extended recession and the world is aware that too little has been done to late.


4) N@NO

The global population continuous to increase in size up to 9 billion by 2030. Although the virtual technology provides a realistic alternative to face to face contact the increase in distance travelled and number of travellers results in an increase of total road transportation. Due to the increased investment into alternative energies in the second decade of the 21st century a stream of enabling technologies come online supporting the full scale use of electrical cars.

A first key breakthrough was the third generation derivative of the thin-layered paint-able Nano-solar technology. As a result the electricity required to “fuel” the increasing number of electrical cars is becoming available. For many years the main barrier to move from the now common hybrids to full electrical cars is the required battery capacity. Finally in 2019 the “biobattery” is industrially feasible. The technology was initially developed by the Texas Univeristy in Austin in 2003,; the device produces electric energy owing to the same glucose oxidation reaction that occurs in the human body.

As a result of the move towards the full electrical cars, there is a reduced demand for oil. In the second decade of the 21st century the annual oil production has increased from 80 to 90 billion barrels, the price has followed the same gradual increase and trades around 100 € per barrel. Especially in dense areas like the US East Coast, Europe and Japan the electrical grid is fully realized by 2025. The global oil demand is dramatically impacted by this move and apart from some 40 million oil fuelled cars in Africa, India and South America the main use of oil is in plastics, fertilisers and the pharmaceutical industry. By 2030 production is around 30 billion per year. Less money is spent in the oil sector as further exploration and technology advancement is no longer required as the conventional reserves appear to be enough to satisfy demand for quite some time. The crew change problem ceases to exist as there is less demand for qualified and experienced personnel.

New Driving Forces

Edited Driving Forces


Research Questions

  • Will strong political and religious agendas reflect in 'oil politics'?
  • Oil, as a strategic asset as well as an energy source. Will there be global political alliances between oil producing and non-producing countries?
  • Has OPEC gotten its act together in order to tighten control on oil supplies?
  • Will there be strong global government regulations regarding fossil fuel usage?
  • How successfull have international agreements (e.g. Kyoto Protocol) been in decreasing energy use?
  • How is the world economy developing?
  • How is the economy in the emerging markets developing? are they going through the same industrailization process like developed countries?
  • Are renewable energy sources economically viable?
  • Will consumers demand green energy supply due to ongoing global warming?
  • Will the growth of the population continue till 2030?
  • Do oil (and gas) continue to be the major source of energy?
  • Will the global energy consumption decrease due to improvements in more efficient use of energy?
  • What are the chances of finding oil in not yet explored locations such as deep see regions?
  • Will improvement in drilling technology increase the oil production?
  • What are the alternative energy sources?
  • Will changes in mobility change the use of energy?

Research Topics


Systems diagram

First draft systems diagram

  • Systemsmap 1.JPG

Second draft systems diagram

  • Oil production systems map 2.JPG

Third draft using mind map

Resources