The exploration team must find oil reserves and maximize return on investment. They will study surveys to identify sedimentary basins, then bid on licenses for promising blocks. The team must also partner with others to share risks and costs by farming out a portion of their license or farming into other licenses. Finally, the team will need to choose a drilling rig to explore their block and begin assessing whether it contains oil.
The document provides an overview of an onshore oil and gas exploration simulation game. It outlines the key challenges players will face, including finding sedimentary basins using surveys, bidding on exploration licenses, and partnering to spread drilling risks. It explains concepts like source rocks, traps, seismic data interpretation, and farm-in/farm-out agreements. The goal is to maximize return on investment through successful exploration efforts and credibility points reward good decisions.
The document provides an overview of an onshore oil and gas exploration simulation. Players take on the role of an exploration team tasked with finding and drilling for reserves to maximize return on investment. The simulation involves completing challenges such as identifying sedimentary basins using surveys, bidding on exploration licenses, and partnering with other teams to share risks and costs. Players can earn credibility points for correct decisions which are considered when applying for funds or bidding on blocks. The goal is to learn about the key stages and decisions involved in onshore oil and gas exploration.
The document provides an overview of the tasks and objectives for an onshore oil and gas exploration simulation. Participants will take on the role of an exploration team tasked with finding and drilling for reserves to maximize return on investment. The challenges include identifying sedimentary basins using surveys, bidding on exploration licenses, acquiring partnerships through farm-ins and farm-outs, and selecting drilling rigs to explore blocks. The goal is to learn about the exploration process and industry while earning credibility points to demonstrate skills.
The document provides an overview of the OilSim simulation game. Players take on the role of an exploration team tasked with finding and drilling for new oil reserves. The simulation involves 3 challenges: 1) locating sedimentary basins using surveys, 2) bidding on exploration licenses, and 3) partnering and drilling exploratory wells. It explains gameplay mechanics like available finances, knowledge points that reward correct decisions, and calculating return on investment. The goal is for players to learn about the oil and gas industry through practical experience in the simulation.
Updated op ex power-point 22nd march 2011Meghan Clark
This document provides an overview and agenda for a three-part learning simulation about the oil and gas industry called OilSim. The simulation uses a team-based challenge where participants take on the role of an exploration team tasked with finding and drilling for new oil reserves. It outlines the objectives to learn about exploration, drilling, partnerships, licensing rounds, and applying business strategies. The agenda includes challenges to find sedimentary basins, identify promising blocks, form partnerships, conduct drilling, and participate in additional licensing rounds. It describes the evaluation of teams based on return on investment and credibility points awarded for correct decisions.
The document provides instructions for an exploration team on their tasks in finding and drilling for new petroleum reserves. The team's objective is to maximize return on investment. They are given $50 million to start and can apply for more funds later. Teams explore areas, identify sedimentary basins using surveys, bid on exploration licenses, drill wells using rigs, and can partner with other teams to share risks and rewards. The goal is to discover oil and gas fields and achieve the highest profit relative to funds received.
The document provides information and instructions for an exploration team participating in an online oil and gas exploration simulation. It outlines the team's objectives to find reserves and maximize returns. It also describes various exploration activities the team can undertake like acquiring surveys, identifying basins, bidding on licenses, partnering with other teams, drilling wells, and testing for oil and gas discoveries. The goal is to make successful exploration decisions and have the highest return on investment compared to other participating teams.
The document provides guidance for an exploration team tasked with maximizing return on investment from a new petroleum province. It outlines various challenges involved in the exploration and development process, including acquiring surveys, identifying sedimentary basins, bidding on licenses, partnering with other teams, drilling wells, and testing discoveries to prove reserves. The ultimate goal is to apply successful strategies to increase the net value of oil and gas fields discovered while minimizing costs.
The document provides an overview of an onshore oil and gas exploration simulation game. It outlines the key challenges players will face, including finding sedimentary basins using surveys, bidding on exploration licenses, and partnering to spread drilling risks. It explains concepts like source rocks, traps, seismic data interpretation, and farm-in/farm-out agreements. The goal is to maximize return on investment through successful exploration efforts and credibility points reward good decisions.
The document provides an overview of an onshore oil and gas exploration simulation. Players take on the role of an exploration team tasked with finding and drilling for reserves to maximize return on investment. The simulation involves completing challenges such as identifying sedimentary basins using surveys, bidding on exploration licenses, and partnering with other teams to share risks and costs. Players can earn credibility points for correct decisions which are considered when applying for funds or bidding on blocks. The goal is to learn about the key stages and decisions involved in onshore oil and gas exploration.
The document provides an overview of the tasks and objectives for an onshore oil and gas exploration simulation. Participants will take on the role of an exploration team tasked with finding and drilling for reserves to maximize return on investment. The challenges include identifying sedimentary basins using surveys, bidding on exploration licenses, acquiring partnerships through farm-ins and farm-outs, and selecting drilling rigs to explore blocks. The goal is to learn about the exploration process and industry while earning credibility points to demonstrate skills.
The document provides an overview of the OilSim simulation game. Players take on the role of an exploration team tasked with finding and drilling for new oil reserves. The simulation involves 3 challenges: 1) locating sedimentary basins using surveys, 2) bidding on exploration licenses, and 3) partnering and drilling exploratory wells. It explains gameplay mechanics like available finances, knowledge points that reward correct decisions, and calculating return on investment. The goal is for players to learn about the oil and gas industry through practical experience in the simulation.
Updated op ex power-point 22nd march 2011Meghan Clark
This document provides an overview and agenda for a three-part learning simulation about the oil and gas industry called OilSim. The simulation uses a team-based challenge where participants take on the role of an exploration team tasked with finding and drilling for new oil reserves. It outlines the objectives to learn about exploration, drilling, partnerships, licensing rounds, and applying business strategies. The agenda includes challenges to find sedimentary basins, identify promising blocks, form partnerships, conduct drilling, and participate in additional licensing rounds. It describes the evaluation of teams based on return on investment and credibility points awarded for correct decisions.
The document provides instructions for an exploration team on their tasks in finding and drilling for new petroleum reserves. The team's objective is to maximize return on investment. They are given $50 million to start and can apply for more funds later. Teams explore areas, identify sedimentary basins using surveys, bid on exploration licenses, drill wells using rigs, and can partner with other teams to share risks and rewards. The goal is to discover oil and gas fields and achieve the highest profit relative to funds received.
The document provides information and instructions for an exploration team participating in an online oil and gas exploration simulation. It outlines the team's objectives to find reserves and maximize returns. It also describes various exploration activities the team can undertake like acquiring surveys, identifying basins, bidding on licenses, partnering with other teams, drilling wells, and testing for oil and gas discoveries. The goal is to make successful exploration decisions and have the highest return on investment compared to other participating teams.
The document provides guidance for an exploration team tasked with maximizing return on investment from a new petroleum province. It outlines various challenges involved in the exploration and development process, including acquiring surveys, identifying sedimentary basins, bidding on licenses, partnering with other teams, drilling wells, and testing discoveries to prove reserves. The ultimate goal is to apply successful strategies to increase the net value of oil and gas fields discovered while minimizing costs.
The document provides instructions for participants in an oil and gas simulation game called OilSim. It outlines three main challenges: 1) finding sedimentary basins using magnetic and gravity surveys, 2) identifying and bidding on the most promising exploration blocks near a basin, and 3) reducing risk through partnerships while acquiring seismic data and drilling exploration/appraisal wells. The goal is to make economically viable hydrocarbon discoveries and maximize the net value of license blocks.
The document provides instructions for an oil exploration simulation game. Players take on the role of an exploration team tasked with discovering oil and gas reserves through licensing blocks, acquiring surveys, drilling wells, and managing finances. The goal is to maximize profit by finding hydrocarbons, developing any discoveries, and hedging risk through partnerships while balancing costs. Players must make strategic decisions around exploration, appraisal, development, and joint ventures to be successful.
Petro challengefinal 2010 ppt presentationMeghan Clark
The document provides information about an oil and gas exploration simulation game called International PetroChallenge2010. Players take on the role of an exploration team with the goal of maximizing financial returns through discovering and developing oil and gas reserves. The simulation involves multiple tasks such as identifying sedimentary basins using surveys, bidding on exploration licenses, partnering with other teams, drilling exploration wells, and calculating the value of any discovered resources. Players can learn about key aspects of the oil and gas industry through participating in the simulation.
Here are the key steps to follow based on the exploration results:
1. Reprocess seismic data for your discovery to better define the reservoir.
2. Drill at least one appraisal well into your largest discovery to determine if it can be commercially developed based on the size of recoverable reserves.
3. If the appraisal well looks promising, consider drilling a second appraisal well to further assess the field size.
4. Once you have a better understanding of the field size from appraisal drilling, evaluate if development costs can be recovered from future production revenues based on current oil/gas prices.
5. If the field is economically viable, proceed with field development planning. Otherwise, consider selling the license
Offshore - Dubai -Introduction to ExplorationMeghan Clark
The team is given $200 million to explore for oil and gas in a new petroleum province through activities like acquiring surveys, locating sedimentary basins, bidding on blocks, drilling exploratory wells, and seeking partnerships. The goal is to maximize the net value of discovered hydrocarbons minus all costs. Knowledge points are earned for correct decisions and can be used to get funds or bid on better blocks in future licensing rounds. The document provides guidance on the exploration and field development process.
OilSim is a simulation game that teaches about the oil and gas exploration process. Players take on the role of an exploration team with the goal of maximizing return on investment. The simulation involves bidding on exploration licenses, interpreting seismic data to find prospects, drilling exploration wells, testing any discoveries, and developing oil fields. Players must manage costs, risks, and environmental concerns at each stage of exploration.
Here are the key steps to apply for more funds in OilSim:
1. Click on the "Apply for More Funds" tab
2. Choose how much additional cash you want to apply for, up to a maximum of $200 million
3. Answer multiple choice questions about the OilSim simulation, with each correct answer worth 1 CP
4. Your CPs determine how much cash you receive and whether you keep the CPs:
- All correct answers gets full cash and you keep CPs
- One wrong answer gets full cash but you keep half CPs
- Two wrong answers gets half cash and you lose all CPs
- All wrong answers gets no cash and you lose all CPs
5
Opito petrochallenge 2010 offshore presentationMeghan Clark
The document provides an introduction to oil and gas exploration through a simulation game. It outlines the objectives to maximize return on investment and credibility points. It describes key steps like identifying sedimentary basins using surveys, bidding on licenses, partnering through farm-ins and farm-outs to spread risk, drilling exploration wells using appropriate rigs and service providers, and applying for additional funds. The goal is to discover and appraise hydrocarbon volumes through repeated exploration cycles to determine proven reserves.
This document provides information about an oil and gas exploration simulation game called PetroChallenge IPAA 2011. The simulation allows participants to take on the role of an exploration team with the goal of maximizing returns through various exploration and development activities. These include identifying sedimentary basins using surveys, bidding on licenses, acquiring partnerships through farm-ins and farm-outs, drilling exploration wells using various rigs and service providers, analyzing drilling results, and calculating field value. The game aims to enhance understanding of the full petroleum exploration and field development process.
The document provides information about using an oil and gas simulation game to learn about the oil and gas industry. It describes various challenges in the simulation that involve exploring for oil and gas, including identifying sedimentary basins, acquiring seismic data, bidding on exploration licenses, drilling wells, and planning production facilities. The goal is to maximize the net value of discovered oil and gas fields while gaining experience in decision making, teamwork, and evaluating economic and environmental factors.
The document provides information about an oil and gas simulation game. It describes challenges around finding sedimentary basins, bidding on exploration licenses, acquiring 3D seismic data, developing well plans, and designing production facilities. The goal is to maximize the net value of discovered oil and gas fields by making correct decisions that balance costs, production, the environment, and risk.
The document provides an overview of a simulation for an oil and gas exploration team. The team's task is to maximize return on investment by exploring a new petroleum province. They start with $200 million and can apply for more funds. The simulation involves multiple phases: finding basins from surveys, bidding on licenses, drilling exploration wells, testing discoveries, and applying for additional funding if needed. The goal is to accumulate knowledge points through accurate decisions and have the highest return on investment to win the simulation.
The document provides an overview of OilSim Greenland 2007, a simulation where participants take on the role of an oil exploration team. The objective is to maximize return on investment by discovering oil fields. The simulation involves multiple phases - finding oil basins, bidding on licenses, partnering with other teams, ordering rigs, drilling exploratory wells, and appraising any oil discoveries. Performance is measured based on earnings from oil fields minus costs, with the team achieving the highest return on investment declared the winner.
The document provides an overview of OilSim Greenland 2008, a simulation where participants take on the role of an exploration team for a new petroleum province. The objective is to maximize return on investment. Participants start with $200 million and can apply for more funds. Through various tasks and phases, participants work to discover oil fields by interpreting surveys, bidding on licenses, partnering with other teams, ordering rigs, drilling wells, and testing any discoveries. The best performing teams will receive bonuses based on their return on investment.
This document provides an overview of OilSim, a simulation for the oil and gas upstream value chain. It describes the learning objectives, challenges, and tasks involved in exploring for and developing oil and gas resources. The tasks include identifying sedimentary basins from surveys, bidding on exploration licenses, acquiring seismic data, drilling exploration and appraisal wells to evaluate discoveries, and developing field production plans to maximize resource recovery. The goal is to make economically viable decisions that consider costs, risks, environmental factors, and partnerships with other teams.
Offshore 3.4 presentation intro to explorationMeghan Clark
The document provides an introduction to an oil and gas exploration simulation game. Players take on the role of an exploration team with $200 million to discover and develop oil and gas fields. The challenges involve identifying sedimentary basins using surveys, bidding on exploration licenses, acquiring partnerships by farming-in and farming-out license shares, drilling exploration wells using rigs and service providers, and calculating the value of any discovered resources. Players earn knowledge points based on their decisions that can be used to bid on future blocks and funding.
Offshore 3.4 presentation intro to explorationMeghan Clark
The document provides an introduction to an oil and gas exploration simulation game. Players take on the role of an exploration team with $200 million to discover and develop oil and gas fields. The challenges involve identifying sedimentary basins using surveys, bidding on exploration licenses, acquiring partnerships by farming-in and farming-out license shares, drilling exploration wells using rigs and service providers, and calculating the value of any discovered resources. Players earn knowledge points based on their decisions that can be used to bid on future blocks and funding.
Offshore 3.4 presentation intro to explorationMeghan Clark
The document provides an introduction to an oil and gas exploration simulation game. Players take on the role of an exploration team with $200 million to discover and develop oil and gas fields. The challenges involve identifying sedimentary basins using surveys, bidding on exploration licenses, acquiring partnerships by farming-in and farming-out license shares, drilling exploration wells using rigs and service providers, and calculating the value of any discovered resources. Players earn knowledge points based on their decisions that can be used to bid on future blocks and funding.
The document provides instructions for an oil and gas exploration simulation game. Players take on the role of an exploration team tasked with finding and developing oil and gas reserves. Key aspects of the simulation include acquiring seismic data, identifying potential reserves, drilling exploration wells, calculating costs and revenues, partnering with other teams, and applying for additional funds. The ultimate goal is to maximize the net value of discovered hydrocarbons while managing costs and credibility points.
Offshore 3.4 presentation intro to explorationMeghan Clark
The team is tasked with exploring a new petroleum province with $200 million. They must locate sedimentary basins using magnetic and gravity surveys, identify promising blocks and bid on licenses. Partnerships can be formed through farm-ins and farm-outs to spread risk. Wells are drilled to find oil and gas, with tests conducted to prove reserves. Additional funds can be applied for, with the goal of maximizing net value through exploration and development.
Offshore 3.4 presentation intro to explorationMeghan Clark
The team is tasked with exploring a new petroleum province with $200 million. They must locate sedimentary basins using magnetic and gravity surveys, identify promising blocks and bid on licenses. Partnerships can be formed through farm-ins and farm-outs to spread risk. Wells are drilled using rented rigs to find oil and gas reserves. Additional funds can be applied for by answering knowledge questions. The overall goal is to maximize the net value of discovered hydrocarbons minus costs.
The document provides instructions for an oil exploration simulation game. Players take on the role of an exploration team with $200 million to discover and develop oil fields. The goal is to maximize net value from oil sales while minimizing costs. Players must locate promising sedimentary basins, acquire oil exploration licenses, conduct seismic surveys, drill exploratory wells, develop any oil discoveries, and carry out corporate social responsibility projects to earn credibility points to improve their chances of winning new licenses. Farming in and farming out partnerships allow players to share risks and costs with other teams.
The document provides instructions for participants in an oil and gas simulation game called OilSim. It outlines three main challenges: 1) finding sedimentary basins using magnetic and gravity surveys, 2) identifying and bidding on the most promising exploration blocks near a basin, and 3) reducing risk through partnerships while acquiring seismic data and drilling exploration/appraisal wells. The goal is to make economically viable hydrocarbon discoveries and maximize the net value of license blocks.
The document provides instructions for an oil exploration simulation game. Players take on the role of an exploration team tasked with discovering oil and gas reserves through licensing blocks, acquiring surveys, drilling wells, and managing finances. The goal is to maximize profit by finding hydrocarbons, developing any discoveries, and hedging risk through partnerships while balancing costs. Players must make strategic decisions around exploration, appraisal, development, and joint ventures to be successful.
Petro challengefinal 2010 ppt presentationMeghan Clark
The document provides information about an oil and gas exploration simulation game called International PetroChallenge2010. Players take on the role of an exploration team with the goal of maximizing financial returns through discovering and developing oil and gas reserves. The simulation involves multiple tasks such as identifying sedimentary basins using surveys, bidding on exploration licenses, partnering with other teams, drilling exploration wells, and calculating the value of any discovered resources. Players can learn about key aspects of the oil and gas industry through participating in the simulation.
Here are the key steps to follow based on the exploration results:
1. Reprocess seismic data for your discovery to better define the reservoir.
2. Drill at least one appraisal well into your largest discovery to determine if it can be commercially developed based on the size of recoverable reserves.
3. If the appraisal well looks promising, consider drilling a second appraisal well to further assess the field size.
4. Once you have a better understanding of the field size from appraisal drilling, evaluate if development costs can be recovered from future production revenues based on current oil/gas prices.
5. If the field is economically viable, proceed with field development planning. Otherwise, consider selling the license
Offshore - Dubai -Introduction to ExplorationMeghan Clark
The team is given $200 million to explore for oil and gas in a new petroleum province through activities like acquiring surveys, locating sedimentary basins, bidding on blocks, drilling exploratory wells, and seeking partnerships. The goal is to maximize the net value of discovered hydrocarbons minus all costs. Knowledge points are earned for correct decisions and can be used to get funds or bid on better blocks in future licensing rounds. The document provides guidance on the exploration and field development process.
OilSim is a simulation game that teaches about the oil and gas exploration process. Players take on the role of an exploration team with the goal of maximizing return on investment. The simulation involves bidding on exploration licenses, interpreting seismic data to find prospects, drilling exploration wells, testing any discoveries, and developing oil fields. Players must manage costs, risks, and environmental concerns at each stage of exploration.
Here are the key steps to apply for more funds in OilSim:
1. Click on the "Apply for More Funds" tab
2. Choose how much additional cash you want to apply for, up to a maximum of $200 million
3. Answer multiple choice questions about the OilSim simulation, with each correct answer worth 1 CP
4. Your CPs determine how much cash you receive and whether you keep the CPs:
- All correct answers gets full cash and you keep CPs
- One wrong answer gets full cash but you keep half CPs
- Two wrong answers gets half cash and you lose all CPs
- All wrong answers gets no cash and you lose all CPs
5
Opito petrochallenge 2010 offshore presentationMeghan Clark
The document provides an introduction to oil and gas exploration through a simulation game. It outlines the objectives to maximize return on investment and credibility points. It describes key steps like identifying sedimentary basins using surveys, bidding on licenses, partnering through farm-ins and farm-outs to spread risk, drilling exploration wells using appropriate rigs and service providers, and applying for additional funds. The goal is to discover and appraise hydrocarbon volumes through repeated exploration cycles to determine proven reserves.
This document provides information about an oil and gas exploration simulation game called PetroChallenge IPAA 2011. The simulation allows participants to take on the role of an exploration team with the goal of maximizing returns through various exploration and development activities. These include identifying sedimentary basins using surveys, bidding on licenses, acquiring partnerships through farm-ins and farm-outs, drilling exploration wells using various rigs and service providers, analyzing drilling results, and calculating field value. The game aims to enhance understanding of the full petroleum exploration and field development process.
The document provides information about using an oil and gas simulation game to learn about the oil and gas industry. It describes various challenges in the simulation that involve exploring for oil and gas, including identifying sedimentary basins, acquiring seismic data, bidding on exploration licenses, drilling wells, and planning production facilities. The goal is to maximize the net value of discovered oil and gas fields while gaining experience in decision making, teamwork, and evaluating economic and environmental factors.
The document provides information about an oil and gas simulation game. It describes challenges around finding sedimentary basins, bidding on exploration licenses, acquiring 3D seismic data, developing well plans, and designing production facilities. The goal is to maximize the net value of discovered oil and gas fields by making correct decisions that balance costs, production, the environment, and risk.
The document provides an overview of a simulation for an oil and gas exploration team. The team's task is to maximize return on investment by exploring a new petroleum province. They start with $200 million and can apply for more funds. The simulation involves multiple phases: finding basins from surveys, bidding on licenses, drilling exploration wells, testing discoveries, and applying for additional funding if needed. The goal is to accumulate knowledge points through accurate decisions and have the highest return on investment to win the simulation.
The document provides an overview of OilSim Greenland 2007, a simulation where participants take on the role of an oil exploration team. The objective is to maximize return on investment by discovering oil fields. The simulation involves multiple phases - finding oil basins, bidding on licenses, partnering with other teams, ordering rigs, drilling exploratory wells, and appraising any oil discoveries. Performance is measured based on earnings from oil fields minus costs, with the team achieving the highest return on investment declared the winner.
The document provides an overview of OilSim Greenland 2008, a simulation where participants take on the role of an exploration team for a new petroleum province. The objective is to maximize return on investment. Participants start with $200 million and can apply for more funds. Through various tasks and phases, participants work to discover oil fields by interpreting surveys, bidding on licenses, partnering with other teams, ordering rigs, drilling wells, and testing any discoveries. The best performing teams will receive bonuses based on their return on investment.
This document provides an overview of OilSim, a simulation for the oil and gas upstream value chain. It describes the learning objectives, challenges, and tasks involved in exploring for and developing oil and gas resources. The tasks include identifying sedimentary basins from surveys, bidding on exploration licenses, acquiring seismic data, drilling exploration and appraisal wells to evaluate discoveries, and developing field production plans to maximize resource recovery. The goal is to make economically viable decisions that consider costs, risks, environmental factors, and partnerships with other teams.
Offshore 3.4 presentation intro to explorationMeghan Clark
The document provides an introduction to an oil and gas exploration simulation game. Players take on the role of an exploration team with $200 million to discover and develop oil and gas fields. The challenges involve identifying sedimentary basins using surveys, bidding on exploration licenses, acquiring partnerships by farming-in and farming-out license shares, drilling exploration wells using rigs and service providers, and calculating the value of any discovered resources. Players earn knowledge points based on their decisions that can be used to bid on future blocks and funding.
Offshore 3.4 presentation intro to explorationMeghan Clark
The document provides an introduction to an oil and gas exploration simulation game. Players take on the role of an exploration team with $200 million to discover and develop oil and gas fields. The challenges involve identifying sedimentary basins using surveys, bidding on exploration licenses, acquiring partnerships by farming-in and farming-out license shares, drilling exploration wells using rigs and service providers, and calculating the value of any discovered resources. Players earn knowledge points based on their decisions that can be used to bid on future blocks and funding.
Offshore 3.4 presentation intro to explorationMeghan Clark
The document provides an introduction to an oil and gas exploration simulation game. Players take on the role of an exploration team with $200 million to discover and develop oil and gas fields. The challenges involve identifying sedimentary basins using surveys, bidding on exploration licenses, acquiring partnerships by farming-in and farming-out license shares, drilling exploration wells using rigs and service providers, and calculating the value of any discovered resources. Players earn knowledge points based on their decisions that can be used to bid on future blocks and funding.
The document provides instructions for an oil and gas exploration simulation game. Players take on the role of an exploration team tasked with finding and developing oil and gas reserves. Key aspects of the simulation include acquiring seismic data, identifying potential reserves, drilling exploration wells, calculating costs and revenues, partnering with other teams, and applying for additional funds. The ultimate goal is to maximize the net value of discovered hydrocarbons while managing costs and credibility points.
Offshore 3.4 presentation intro to explorationMeghan Clark
The team is tasked with exploring a new petroleum province with $200 million. They must locate sedimentary basins using magnetic and gravity surveys, identify promising blocks and bid on licenses. Partnerships can be formed through farm-ins and farm-outs to spread risk. Wells are drilled to find oil and gas, with tests conducted to prove reserves. Additional funds can be applied for, with the goal of maximizing net value through exploration and development.
Offshore 3.4 presentation intro to explorationMeghan Clark
The team is tasked with exploring a new petroleum province with $200 million. They must locate sedimentary basins using magnetic and gravity surveys, identify promising blocks and bid on licenses. Partnerships can be formed through farm-ins and farm-outs to spread risk. Wells are drilled using rented rigs to find oil and gas reserves. Additional funds can be applied for by answering knowledge questions. The overall goal is to maximize the net value of discovered hydrocarbons minus costs.
The document provides instructions for an oil exploration simulation game. Players take on the role of an exploration team with $200 million to discover and develop oil fields. The goal is to maximize net value from oil sales while minimizing costs. Players must locate promising sedimentary basins, acquire oil exploration licenses, conduct seismic surveys, drill exploratory wells, develop any oil discoveries, and carry out corporate social responsibility projects to earn credibility points to improve their chances of winning new licenses. Farming in and farming out partnerships allow players to share risks and costs with other teams.
The document provides an overview of OilSim, a simulation for the oil and gas upstream value chain. It describes the learning objectives, challenges, and tasks involved in exploring for and developing oil and gas fields. The tasks include identifying sedimentary basins using surveys, bidding on exploration licenses, partnering to share risks and costs, 3D seismic analysis, exploration drilling, appraising discoveries, and developing field production plans. The goal is to maximize the net value of discoveries through correct decisions and efficient operations while gaining experience in the upstream process.
This document provides an overview of OilSim, a simulation for the oil and gas upstream value chain. It describes the learning objectives, challenges, and tasks involved in exploring for and developing oil and gas resources. The tasks include locating sedimentary basins using surveys, bidding on exploration licenses, acquiring seismic data, drilling exploration and appraisal wells to evaluate discoveries, and developing field production plans to maximize resource recovery. The goal is to make economically viable decisions that consider costs, risks, environmental factors, and partnerships with other teams.
The document discusses various aspects of oil and gas exploration, including:
1) Finding sedimentary basins using magnetic and gravity surveys and submitting the coordinates of three basin centers.
2) Identifying the most promising oil and gas blocks and bidding on licenses to drill exploration wells.
3) Choosing corporate social responsibility projects to increase credibility points to improve chances of winning licenses.
4) Farming into other licenses by investing a percentage in exchange for a share of future revenues.
The document discusses various aspects of oil exploration and production, including:
1) Teams are tasked with finding sedimentary basins using magnetic and gravity surveys to earn credibility points.
2) Teams then bid on blocks near identified basins and choose corporate social responsibility projects to increase points for license awards.
3) Licensed blocks can be farmout to acquire funding and farmin to other blocks to spread risk, with the goal of drilling exploration and appraisal wells to prove oil reserves.
The document provides instructions for an oil exploration simulation game. Players take on the role of an exploration team tasked with maximizing return on investment by discovering oil fields. Key steps include identifying basins from surveys, bidding on exploration licenses, ordering drilling rigs, drilling wells to discover oil fields, and conducting production tests to determine proven reserves. The goal is to end with the highest return on investment compared to initial funds.
Bite size guide for PetroChallenge Faroe Islands 2010simprentisfo
This document provides guidance on three challenges for an oil exploration simulation:
1) Initial screening - Submit coordinates for 3 basin centres for up to 100 credibility points.
2) Prospecting - Select 3 licensing blocks and well commitments based on environmental, geological, and seismic data for up to 300 credibility points.
3) Exploration - Partner by farming out licenses, drill exploration wells, appraise discoveries, and sell blocks to maximize value for up to 300 credibility points.
Presentation for PetroChallenge Faroe Islands 2010simprentisfo
This document outlines the objectives, scenario, and challenges for a simulation game about petroleum exploration. Players take on the role of an exploration team sent to an island to discover oil and gas. They are given $200 million to spend on surveys, licenses, drilling, and investing. The goal is to earn the most Credibility Points by meeting several challenges: 1) Locating 3 sedimentary basins, 2) Identifying the 3 most promising blocks of land, and 3) Finding and proving oil and gas reserves. Players must acquire seismic data, bid on land, sell portions of licenses, drill exploration/appraisal wells, and ultimately sell their license to determine if reserves are commercially viable. The team with the highest total points
Seismic data provides an image of underground rock formations and structures using sound waves. It is collected by sending sound waves into the ground from vibrators or explosives and recording the reflections with sensors. This allows oil and gas companies to locate optimal drilling sites. Landowners are paid for surface access and potential damages, but incur no other costs, while benefitting if more production increases revenues.
Conversational agents, or chatbots, are increasingly used to access all sorts of services using natural language. While open-domain chatbots - like ChatGPT - can converse on any topic, task-oriented chatbots - the focus of this paper - are designed for specific tasks, like booking a flight, obtaining customer support, or setting an appointment. Like any other software, task-oriented chatbots need to be properly tested, usually by defining and executing test scenarios (i.e., sequences of user-chatbot interactions). However, there is currently a lack of methods to quantify the completeness and strength of such test scenarios, which can lead to low-quality tests, and hence to buggy chatbots.
To fill this gap, we propose adapting mutation testing (MuT) for task-oriented chatbots. To this end, we introduce a set of mutation operators that emulate faults in chatbot designs, an architecture that enables MuT on chatbots built using heterogeneous technologies, and a practical realisation as an Eclipse plugin. Moreover, we evaluate the applicability, effectiveness and efficiency of our approach on open-source chatbots, with promising results.
"Scaling RAG Applications to serve millions of users", Kevin GoedeckeFwdays
How we managed to grow and scale a RAG application from zero to thousands of users in 7 months. Lessons from technical challenges around managing high load for LLMs, RAGs and Vector databases.
The Microsoft 365 Migration Tutorial For Beginner.pptxoperationspcvita
This presentation will help you understand the power of Microsoft 365. However, we have mentioned every productivity app included in Office 365. Additionally, we have suggested the migration situation related to Office 365 and how we can help you.
You can also read: https://www.systoolsgroup.com/updates/office-365-tenant-to-tenant-migration-step-by-step-complete-guide/
"NATO Hackathon Winner: AI-Powered Drug Search", Taras KlobaFwdays
This is a session that details how PostgreSQL's features and Azure AI Services can be effectively used to significantly enhance the search functionality in any application.
In this session, we'll share insights on how we used PostgreSQL to facilitate precise searches across multiple fields in our mobile application. The techniques include using LIKE and ILIKE operators and integrating a trigram-based search to handle potential misspellings, thereby increasing the search accuracy.
We'll also discuss how the azure_ai extension on PostgreSQL databases in Azure and Azure AI Services were utilized to create vectors from user input, a feature beneficial when users wish to find specific items based on text prompts. While our application's case study involves a drug search, the techniques and principles shared in this session can be adapted to improve search functionality in a wide range of applications. Join us to learn how PostgreSQL and Azure AI can be harnessed to enhance your application's search capability.
Northern Engraving | Modern Metal Trim, Nameplates and Appliance PanelsNorthern Engraving
What began over 115 years ago as a supplier of precision gauges to the automotive industry has evolved into being an industry leader in the manufacture of product branding, automotive cockpit trim and decorative appliance trim. Value-added services include in-house Design, Engineering, Program Management, Test Lab and Tool Shops.
From Natural Language to Structured Solr Queries using LLMsSease
This talk draws on experimentation to enable AI applications with Solr. One important use case is to use AI for better accessibility and discoverability of the data: while User eXperience techniques, lexical search improvements, and data harmonization can take organizations to a good level of accessibility, a structural (or “cognitive” gap) remains between the data user needs and the data producer constraints.
That is where AI – and most importantly, Natural Language Processing and Large Language Model techniques – could make a difference. This natural language, conversational engine could facilitate access and usage of the data leveraging the semantics of any data source.
The objective of the presentation is to propose a technical approach and a way forward to achieve this goal.
The key concept is to enable users to express their search queries in natural language, which the LLM then enriches, interprets, and translates into structured queries based on the Solr index’s metadata.
This approach leverages the LLM’s ability to understand the nuances of natural language and the structure of documents within Apache Solr.
The LLM acts as an intermediary agent, offering a transparent experience to users automatically and potentially uncovering relevant documents that conventional search methods might overlook. The presentation will include the results of this experimental work, lessons learned, best practices, and the scope of future work that should improve the approach and make it production-ready.
AppSec PNW: Android and iOS Application Security with MobSFAjin Abraham
Mobile Security Framework - MobSF is a free and open source automated mobile application security testing environment designed to help security engineers, researchers, developers, and penetration testers to identify security vulnerabilities, malicious behaviours and privacy concerns in mobile applications using static and dynamic analysis. It supports all the popular mobile application binaries and source code formats built for Android and iOS devices. In addition to automated security assessment, it also offers an interactive testing environment to build and execute scenario based test/fuzz cases against the application.
This talk covers:
Using MobSF for static analysis of mobile applications.
Interactive dynamic security assessment of Android and iOS applications.
Solving Mobile app CTF challenges.
Reverse engineering and runtime analysis of Mobile malware.
How to shift left and integrate MobSF/mobsfscan SAST and DAST in your build pipeline.
Introducing BoxLang : A new JVM language for productivity and modularity!Ortus Solutions, Corp
Just like life, our code must adapt to the ever changing world we live in. From one day coding for the web, to the next for our tablets or APIs or for running serverless applications. Multi-runtime development is the future of coding, the future is to be dynamic. Let us introduce you to BoxLang.
Dynamic. Modular. Productive.
BoxLang redefines development with its dynamic nature, empowering developers to craft expressive and functional code effortlessly. Its modular architecture prioritizes flexibility, allowing for seamless integration into existing ecosystems.
Interoperability at its Core
With 100% interoperability with Java, BoxLang seamlessly bridges the gap between traditional and modern development paradigms, unlocking new possibilities for innovation and collaboration.
Multi-Runtime
From the tiny 2m operating system binary to running on our pure Java web server, CommandBox, Jakarta EE, AWS Lambda, Microsoft Functions, Web Assembly, Android and more. BoxLang has been designed to enhance and adapt according to it's runnable runtime.
The Fusion of Modernity and Tradition
Experience the fusion of modern features inspired by CFML, Node, Ruby, Kotlin, Java, and Clojure, combined with the familiarity of Java bytecode compilation, making BoxLang a language of choice for forward-thinking developers.
Empowering Transition with Transpiler Support
Transitioning from CFML to BoxLang is seamless with our JIT transpiler, facilitating smooth migration and preserving existing code investments.
Unlocking Creativity with IDE Tools
Unleash your creativity with powerful IDE tools tailored for BoxLang, providing an intuitive development experience and streamlining your workflow. Join us as we embark on a journey to redefine JVM development. Welcome to the era of BoxLang.
Essentials of Automations: Exploring Attributes & Automation ParametersSafe Software
Building automations in FME Flow can save time, money, and help businesses scale by eliminating data silos and providing data to stakeholders in real-time. One essential component to orchestrating complex automations is the use of attributes & automation parameters (both formerly known as “keys”). In fact, it’s unlikely you’ll ever build an Automation without using these components, but what exactly are they?
Attributes & automation parameters enable the automation author to pass data values from one automation component to the next. During this webinar, our FME Flow Specialists will cover leveraging the three types of these output attributes & parameters in FME Flow: Event, Custom, and Automation. As a bonus, they’ll also be making use of the Split-Merge Block functionality.
You’ll leave this webinar with a better understanding of how to maximize the potential of automations by making use of attributes & automation parameters, with the ultimate goal of setting your enterprise integration workflows up on autopilot.
AI in the Workplace Reskilling, Upskilling, and Future Work.pptxSunil Jagani
Discover how AI is transforming the workplace and learn strategies for reskilling and upskilling employees to stay ahead. This comprehensive guide covers the impact of AI on jobs, essential skills for the future, and successful case studies from industry leaders. Embrace AI-driven changes, foster continuous learning, and build a future-ready workforce.
Read More - https://bit.ly/3VKly70
"$10 thousand per minute of downtime: architecture, queues, streaming and fin...Fwdays
Direct losses from downtime in 1 minute = $5-$10 thousand dollars. Reputation is priceless.
As part of the talk, we will consider the architectural strategies necessary for the development of highly loaded fintech solutions. We will focus on using queues and streaming to efficiently work and manage large amounts of data in real-time and to minimize latency.
We will focus special attention on the architectural patterns used in the design of the fintech system, microservices and event-driven architecture, which ensure scalability, fault tolerance, and consistency of the entire system.
"Frontline Battles with DDoS: Best practices and Lessons Learned", Igor IvaniukFwdays
At this talk we will discuss DDoS protection tools and best practices, discuss network architectures and what AWS has to offer. Also, we will look into one of the largest DDoS attacks on Ukrainian infrastructure that happened in February 2022. We'll see, what techniques helped to keep the web resources available for Ukrainians and how AWS improved DDoS protection for all customers based on Ukraine experience
The Department of Veteran Affairs (VA) invited Taylor Paschal, Knowledge & Information Management Consultant at Enterprise Knowledge, to speak at a Knowledge Management Lunch and Learn hosted on June 12, 2024. All Office of Administration staff were invited to attend and received professional development credit for participating in the voluntary event.
The objectives of the Lunch and Learn presentation were to:
- Review what KM ‘is’ and ‘isn’t’
- Understand the value of KM and the benefits of engaging
- Define and reflect on your “what’s in it for me?”
- Share actionable ways you can participate in Knowledge - - Capture & Transfer
As AI technology is pushing into IT I was wondering myself, as an “infrastructure container kubernetes guy”, how get this fancy AI technology get managed from an infrastructure operational view? Is it possible to apply our lovely cloud native principals as well? What benefit’s both technologies could bring to each other?
Let me take this questions and provide you a short journey through existing deployment models and use cases for AI software. On practical examples, we discuss what cloud/on-premise strategy we may need for applying it to our own infrastructure to get it to work from an enterprise perspective. I want to give an overview about infrastructure requirements and technologies, what could be beneficial or limiting your AI use cases in an enterprise environment. An interactive Demo will give you some insides, what approaches I got already working for real.
Keywords: AI, Containeres, Kubernetes, Cloud Native
Event Link: https://meine.doag.org/events/cloudland/2024/agenda/#agendaId.4211
ScyllaDB is making a major architecture shift. We’re moving from vNode replication to tablets – fragments of tables that are distributed independently, enabling dynamic data distribution and extreme elasticity. In this keynote, ScyllaDB co-founder and CTO Avi Kivity explains the reason for this shift, provides a look at the implementation and roadmap, and shares how this shift benefits ScyllaDB users.
2. Your Challenge Today You are an exploration team in charge of a new petroleum exploration area. Your task is to find and drill for new reserves and to maximize return on investment (ROI). You will need to work as a company as well as in partnership with others. You will show your new understanding of exploration and be rewarded through credibility Points.
3. Finances You will start with $50 millionYou can apply for more later. Creating ValueProfit is measured by the net value of the oil and gas fields discovered MINUS all costs involved. Winning team has highest ROIROI is calculated as Value created DIVIDED by Funds received.
4. Credibility Points You get CPs for doing wellduring the simulationCorrect answers and sensibledecisions are awarded with CPs CPs are a measure of ability and credibilityA team’s CPs are considered when bidding for blocks and applying for funds from the HQ
5. You will learn Where and how to find hydrocarbons. Various surveys during exploration. Licensing rounds. Farm-in and Partnerships. Drilling rigs and Sub-contractors. Environmental issues. Economically viable volumes. Reducing uncertainty. Team work and negotiation. Critical decision making, analytical skills. Multi-tasking.
9. Map Columns e.g C1, and C54 Rows e.g. R35 and R163 Block Blocks are divided into smaller cells e g. C57,R73
10. First challenge Challenge: Find three sedimentary basins in the area. Basins are sedimentary rocks in the deep subsurface where oil and gas has been generated. Procedure: Buy and study magnetic and gravimetric surveys; and to submit the coordinates, column and row number for each basin centre.
11. Gravimetric surveys Gravimetric surveys show the gravity in the sub-surface. Measured by airborne sensors. Sedimentary rocks have lower densities than the surrounding crystalline rocks. Low gravity means high probability of a basin below. Low gravity are basins. High gravity are crystalline rocks
16. Magnetic surveys Magnetic surveys show similar information as gravimetric surveys. The sedimentary rocks in the basins have a lower concentration of magnetic materials than the surrounding crystalline rocks. Sedimentary basins are the areas with the lowest magnetic field. Basins have low magnetic field Non-basins have high magnetic fields.
23. Centre may not be the same Example: Top basin on both maps Calculate the midpoint between the gravimetric and magnetic centres found = C55 and R105 C50 R100 C60 R110
25. Centre Midpoint calculation 3 centres – one Centre midpoint for each basin Example: C55, R105 Solve before deadline. All submissions are evaluated after the deadline (and not before). You may get 0-100 CPs. All three centres must be located to get full credibility points.
27. Task 1 solved All teams have submitted their answers. Basin centres are located. Message in Inbox. All teams have answers and CPs awarded.
28. Challenge 2 : license round Sedimentary basins may contain oil and gas. The government has decided to put the blocks around one of the basins on offer. Challenge: Identify the 3 most promising blocks and offer an amount for each of them.
29. Challenge 2 : license round Any restrictions involved? Yes, you need to watch for Environmentally Sensitive Areas. What are we looking for? Hydrocarbon Prospects. Where do we find prospects? In sedimentary basins How do I find them? Interpreting 2D seismic and Common Risk Segment maps.
30. Source and migration 2. MIGRATION ROCK where hydrocarbons are driven through 3. CAP ROCK Impermeable rock that stops migration of hydrocarbons 1. SOURCE ROCK where organic material is put under sufficient pressure 4. PROSPECT
33. Sensitive Rangelands Survey Red areas You will not be allowed to bid, drill or operate in any of the red areas. Green areas Blocks in area may be awarded.
34. Common Risk Segments Is there a sedimentary basin and a migration route into the prospects in the area? Is there porous reservoir rock in the area, so that the oil or gas can be stored? Is there a sealing rock in the area, so that the oil and gas can be trapped? If all are positive, then green If some negative, then orange If mostly negative, then red
35. Common Risk Segment CRS. Common Risk Segment surveys tell you about the probability of a structure in the block/cell containing oil or gas Surface Layer 3 Eocene 1500m below the surface Layer 2 Paleocene 2500m below the surface Layer 1 Cretaceous 3500m below the surface
36. 2D Seismic surveys Traps can be found with seismic surveys 2D seismic survey is a cross section of the geological layers along either a column or a row. 2D seismic surveys are used for locating prospects.
47. License Round in OilSim Minimum bid is $250K Maximum bid is $7.5M Enter numbers without commas (ex: 250000) You will bid for 3 licenses but each team will only be awarded one license Highest bid wins the license If two teams bid the same, the team with the most CP’s gets it Random license awarded if none of your bids are high enough Submit your bid before the deadline!
51. Recap on Challenge 2 Study Sensitive Rangelands Survey to see which blocks to avoid Use Common Risk Segment surveys to see which blocks to examine closer (look for green) Buy and study many 2D surveys to identify which ones have the most potential traps, as well as the biggest traps.
53. Task 2 solved Message sent to all teams with the results Credibility Points are given for prosperity of the blocks you bid for Every team has got one exploration license
54. Challenge 3 : Exploration Drilling Company management has reviewed the licence that you were awarded and the potential cost to drill a well. Although the possibility of finding oil is fair, the costs involved are large. They have asked you to spread the risk. Challenge: Farm-out a minimum of 20% on your license and farm-in as much as you can on other good licences.
55. Partnerships Spread the risk: e.g Investing in other blocks divides the risks amongst all partners, much more preferable than keeping 100% of one field and all the risk. Increase probability of profit: investment in only 1 field which could be a dry prospect is possible, whereas the likelihood of investing in 5 fields which are all dry is unlikely.
56. Challenge 3.1 Partnering Acquire 3D Seismic interpretations for the block you operate, and study the results from the licensing round-can send under “surveys” to possible partners Farm-out: Get others to invest 20% or more in your license Farm-in: Send offers to other teams to buy shares in their viable licences. Submit an offer for each viable licence, with amount offered and share wanted in whole %.
64. Farm-in license OWNER decides whether to ACCEPT or REJECT the offer Partnerships established every time a license owner accepts an offer. Overview: On the main page, you can see all licenses. 1) licenses you operate, 2) licenses you have invested in, and other licenses.
65. Investing All your farm-in offers to other teams are shown under “Investing” on the right-hand side of the homepage . This is where a team offers investments to other teams for a % of their blocks
66. Partnerships Partners pay a proportional share of all future costs incurred by the partnership Partners receive a proportional share of the net proceedings from any oil or gas found on the license. The operator team makes all decisions regarding acquiring 3D seismics, drilling of wells and testing of wells. Information: partners in a block can access info about drilled wells and discovered oil and gas fields.
69. Choose Rig Max drilling depth is important Rig cost = drilling days * day rate
70. Rigs Few: limited number of rigs available. If you get one: start using it within 20 minutes. If you don’t: wait in a queue, if another team is using the rig. Price can change: rig day rates are dynamic.
71. Service providers 9 Star quality: Good- costs more Bad: - cheaper, but reliability is low 5 types of providers- Construction and Maintenance , Logistics, Well Services, Camp Services and Analysis
72. Penalties & Fines Certain problems can occur if Service Provider Selection is poor quality Other penalties can occur if you drill in areas indicated as problematic in the Environmental Impact Assessment As in real life, problems can occur randomly and these are also applied with fines levied accordingly. Oil spill control – 5% of overall drilling costs
79. Drilling Result Proven volume (MBOE) counts Test may increase proven volume Remember to tick the boxes!
80. Testing Only if you discover a field – find Oil or Gas You decide whether you want more information about that field More information by doing a production test (and other tests) Tests costs. Tests take 10 days per field. Tests have the same day-rate as the drilling if you use the same providers.
81. Value and ROI Volume Range, e.g. 1-897 Proven Reserves e.g. 1
82. Calculation of Value The total proven oil and gas = 18MBOE Allowing for 25% recovery factor 0.8 Production profile factor and 10% discount factor per year
83. Behind the scene calculation 18MBOE x 25% recovery factor = 4.5MBOE Sales price without discount factor ->4.5MBOE x $50 = $225,000,000 Sales price allowing for production profile -> $225,000,000 x 0.8 (production factor) = $180,000,000 Reduced sales price with 10% discount factor per year = $ 67,397,022
84. Value Calculation 12% $39.9M ($6 of $50 = 12% tax) Expected costs if you developed thefield (CAPEX) andproducedthe oil (OPEX) If total expenses arehigher than the salesvalue, the licence value is zero
86. Narrowing ranges Aero drilling - Only proven MBOE counts Exploration well: 1 to 897 MBOE (after drilling) 11 to 566 MBOE (after testing) First appraisal well: 25 to 333 MBOE (after drilling) 34 to 310 MBOE (after testing) Second appraisal well: 65 to 250 MBOE (after drilling) 101 to 152 MBOE (after testing)
87. Increasing proven volumes Appraisal wells - proven reserves increase Range between proven and possible is decreased
88. Effect on calculation of licence 397 MBOE @ $50 including 25% recovery factor, 0.8 production factor, 10% discount factor) 12% $39.9M $6 of $50 = 12% tax) Expected costs if you developed thefield (CAPEX) andproducedthe oil (OPEX) Now total expenses are lower than the sales value and so we have a positive licence value
90. Continue... Narrow uncertainty: Drill appraisal wells to get proven volumes Drill into other prospects to find more proven volumes. Farm-in and -out: Get into other good blocks. Two additional licensing rounds: Repeat the processes. Money: Apply for more money, if you run out of cash.
91. Apply For More Funds Click on Apply for More Funds Tab. 1 CP for each $100,000 applied for. Answer the questions: All correct gives cash and you can keep CPs. One wrong gives cash and you keep ½ of your CPs. Two wrong gives ½ cash and you lose all CPs. All wrong, you get no cash and lose all CPs. <10 credibility points: Apply for cash and be fined $5million for each $20million requested.
The long and bumpy road for oil from the underground to your tank, is called the oil and gas industry value chain.The value chain is divided further into these parts:Upstream is about getting the hydrocarbons up from the ground, and comprises of activities related to exploration, field development, construction, production and abandonment. By its nature, the exploration phase is common for both oil and gas, but soon afterwards, the oil and gas value chain will segregate into two parallel value chains.Midstream is about transportation and storage, as well as oil refining and gas processing.Downstream is about distribution and retail sales of gas, fuels and lubricants, plastics and other hydrocarbon derivatives to industrial and consumer markets.OilSim Exploration is all about the exploration part of the oil and gas industry. Exploration is about finding the hydrocarbons and proving that they are in sufficient quantities to start producing. OilSim Field development and Production is about actually taking the oil or gas out of the subsurface.
Since the CRS show the probabilities of prospects in only one particular horizon or layer, it is necessary to purchase the CRS for all 3 layers so that you can determine which area within the licensing area contains the highest probability of containing oil and gas. So on the CRS maps shown here the area circled in black on the OilSim map and each of the CRS shows that the area in question is within the licensing area and is green on all three CRS layers, indicating high probability of oil and gas on all 3 layers within the same area or blocks. Potentially an area that requires further investigation for individual prospects.
Seismic surveys are made from sound waves that are sent into the subsurface, reflected, and measured when they get back to the surface.This slide shows an example of a real seismic line. It shows a cross-section of the subsurface with the blue and red lines indicating changes in velocity of the wave and therefore changes in geological structures in the subsurface.The black, red, and green lines are lines added as interpretation of the data by geologists.black lines are so-called faults, which have happened for instance after earth quakes or other dramatic geological events.green lines are where geologists think the reservoir rock beginsred lines are where the geologists think the sealing rock begins In this particular case there is a prospect indicated under the orange arrow, within the grey triangle.
Hear the area between the reservoir and the sealant rock has been shaded in to show you whether you still have a seal at the fault or a gap where leakage could occur.
As this figure illustrates, you can drill through all three horizons in one well.You can even drill a deviated well, so that the position is not exactly the same in all horizons.The deviation can be one cell per horizon.
To make your offers to other teams, you need to click on the licensing Tab, which will then show you a list of licences:Firstly, the one you operate, then ones you are invested in and finally other teams licences.Once you have negotiated with another team a farm-in deal, you need to find their team number and LICENCE NUMBER (MAKE SURE YOU FIND THE RIGHT TEAM AND LICENCE NUMBER-teams do manage to farm-in to the wrong companies if not careful) and then click on FARM-IN next to their licence number and owner name.
When reviewing a farm-out offer you can either accept the amount or % the license owner requests, or amend the amounts to your own offer. Add a message to the seller explaining why they should choose your team and press “Send offer”
Financing – Is where a team is able to accept offers, and therefore receive money or “finance” for a % of their own blocks When a team receives a Farm-In offer it appears under financing on the right hand side of the homepage
All your farm-in offers to other teams are shown under “Investing” on the right-hand side of the homepage . This is where a team offers investments to other teams for a % of their blocksRemember you must have farmed-out 20% of your own block before you can drill.
The next task is to choose which rig to use to drill the exploration well.There are three types of rigs: Rig mounted trucks, light duty and heavy dutyThe rigs have different costs per day, and the drilling days depend on how deep you drill into the subsurface and which service providers you choose
In most cases there are fewer rigs than teams, so you need to be fast to get good and cheap rigs for your wells.When you order a rig you need to start using it within 20 minutes.If you do not use it within the 20 minutes, you will pay for 20 days of use.You can release a rig that you have ordered on the home page.The rig rates are dynamic, so that popular rigs tend to have increasing prices, while less popular rigs become cheaper.
As this figure illustrates, you can drill through all three horizons in one well.You can even drill a deviated well, so that the position is not exactly the same in all horizons.The deviation can be 1 cell for each horizon.
Inputting estimated cost of drilling gives you credibility points. You need to add all the costs of the rig and the service providers together and multiply this by the number of days you think it will take you to drill. The oil spill control is voluntary but costs 5% of the drilling amount per day but will earn you more credibility points and cost you less to clear an oil spill if it happens.
To determine how long it will probably take to complete drilling, check out the “drilling Information” tab.
When you have discovered a field the first decision you need to make is whether you want more information about that field right away and BEFORE you drill another exploration well.You can get more information by doing a production test, which is a process in which you try to produce oil or gas from the field.In OilSim these tests take 10 days per oil and gas field and you use the same providers as before.
We have a total proven amount of 18mboe of oil and gas in our 2 prospectsNow at a price of $50 a barrel but taking into account that only 25% of field is likely to be recovered.Behind the scenes a complex calculation taking into account: that the production will not be the same each year of the field’s life – so a production factor of 0.8 is used for this purpose That a discount factor is applied of 10% each year to take into account unforeseen issues that will affect the sales value
So for those that are interested the behind the scene calculation is18MBOE x 25% recovery factor = 4.5MBOESales price without discount factor ->4.5MBOE x $50 = $225,000,000 Sales price allowing for production profile-> $225,000,000 x 0.8 (production factor)= $180,000,000 Now the system calculates that if there was no discount factor we would make £180,000,000 divided by 25 = 7,200,000 per yearTo this annual amount a discount factor of 10% is applied per year, so in year 1 our sales would be 7.2 million, but in year 2 it would be 6.48 million, etc. And then all these individual sales values per year are added together to give us our total expected sales value of 67,397,022
Next to calculate the actual licence value, we have to take into account our expenses of developing the fieldHere we apply the production tax of $6 a barrel, which is the equivalent to 12% taxWe also have a drilling and Well CAPEX for setting up that well and the OPEX for the maintenance and operations throughout life of wellBut also we have the facilities CAPEX and OPEX, the overall facility that will manage all the wells, accommodation for personnel, etc to pay for.So when you first start drilling you have a lot of expense and very often end up with a Zero or negative Value of the licence
When you have drilled the first well, you only have a small sample of the new-found oil or gas field. This is evident by the wide ranges of the area, thickness, quality, and volume variables. These wide ranges tell you that you actually do not know much about the field.After drilling and testing, your next step therefore is to drill another well – and test it. This is called an appraisal well.Normally it takes at least three or four wells into a field before the license block becomes economically viable.Sometimes it takes much more, and therefore you should not give up if the first wells into a field do not give any license value.However, you should give up if the upper boundaries of the field become so low that there is no chance that it becomes economically viable. This is often the case in deep-water blocks, where the CAPEX are very high.
So looking at another example of a different block. Here we can see 4 prospects that have had many appraisal wells drilled. Now the proven volumes are nearly the same as the possible volumes on 3 of the prospects.
So for the 4 prospects we have a Sales value of $1.473 billion , achieved through much higher proven reserves. We can deduct the expenses and have a positive value of our licence