This document reviews oil and gas prospects in the West Medvezhye license area located in western Siberia. It identifies four prospective horizons - the Upper Neocomian, Lower Neocomian shelf edge facies, Achimov base of slope fans, and Jurassic reservoirs. The document summarizes the geology of each prospect and proposes drilling four wells - Wells 103, 105, 107, and 109. Using probabilistic analysis, it estimates the gross prospective gas and condensate resources to be 966 billion cubic feet of gas and 161 million barrels of condensate across the 25 prospects, adjusted for the probability of geologic success.
Expandable liner hanger and packer exceed expectations for first deepwater we...Baker Hughes
The 113⁄4-in expandable liner hanger and packer system was successfully deployed on Saudi Aramco's first deepwater well in the Red Sea, overcoming challenges from the well's nature as a rank wildcat. The ELHP system was designed and qualified through testing to isolate a salt section and unknown rubble zone below, while preserving the preferred 95⁄8-in casing size. During drilling, losses were encountered but circulation was regained after pumping lost circulation material, allowing drilling to continue to further evaluate the pressure trend below the salt.
The vacuum vessel for the NSTX-U fusion reactor was redesigned to accommodate increased performance requirements. Stress analyses found high stresses around the Bay J-K and Bay L ports. Reinforcements were added in multiple iterations until stresses were acceptable. Reinforcements included plates, bars, bridges and thicker tubing. The redesign minimized impacts on resistive wall mode coils while supporting analyses. Installation of the new ports and some reinforcements was completed, with remaining internal reinforcements ongoing.
This document describes the proposed design and construction approach for the underground works of the John Hart Generating Station Replacement Project in Campbell River, British Columbia. Key points include:
- The project involves designing and constructing an underground powerhouse, access tunnels, intake and tailrace tunnels using drill-and-blast excavation methods.
- The underground powerhouse will house three turbines with a total capacity of 132MW.
- Extensive geological investigations including boreholes and mapping have been conducted to inform the tunnel and powerhouse support designs.
- The design will use empirical rock support methods along with numerical modeling to ensure support elements are not overstressed. Safety against hydrojacking during construction is a key consideration for
Dannenbaum Engineering - River Update 9-19-2015law138
Chris Sallese, Special Projects, Dannenbaum Engineering presentation at the FOR Annual meeting regarding progress reopening the mouth of the San Bernard
Global CCS Institute - Day 1 - Panel 1 - International Progress on CCS ProjectsGlobal CCS Institute
The document discusses the progress of the Quest CCS project in Alberta, Canada. It is a fully integrated CCS project led by Shell that will capture over 1 million tonnes of CO2 per year from an oil sands upgrader for storage. The CO2 will be transported via pipeline and stored in deep saline aquifers. The project received approval in September 2012. It discusses key aspects like the storage site, CO2 capture technology, monitoring plans, and the project's costs.
Revised and new drilling regulations, what is known as Chapter 78 of the 1984 Oil and Gas Act, in Pennsylvania. The revision process started in 2011. It separates drilling rules into conventional and unconventional. The drilling industry says the rules will cost drillers billions each year without a corresponding benefit for the environment or safety. The new rules will be adopted in mid-2016 if they are not challenged in court.
The document provides an overview of Sage Gold Corp., including forward-looking statements and risk factors to consider. It summarizes Sage Gold's corporate vision, structure, properties and projects. Specifically, it outlines plans to develop the Clavos gold mine in Timmins, Ontario, with existing infrastructure and a new resource study. It highlights drill results from 2011 indicating potential to increase resources and notes opportunities for near-term production.
The California Central Valley Groundwater-Surface Water Simulation Model (C2VSim) simulates the monthly response of the Central Valley’s groundwater and surface water flow system to historical stresses, and can also be used to simulate the response to projected future stresses. C2VSim contains monthly historical stream inflows, surface water diversions, precipitation, land use and crop acreages from October 1921 through September 2009. The model dynamically calculates crop water demands, allocates contributions from precipitation, soil moisture and surface water diversions, and calculates the groundwater pumpage required to meet the remaining demand.
Expandable liner hanger and packer exceed expectations for first deepwater we...Baker Hughes
The 113⁄4-in expandable liner hanger and packer system was successfully deployed on Saudi Aramco's first deepwater well in the Red Sea, overcoming challenges from the well's nature as a rank wildcat. The ELHP system was designed and qualified through testing to isolate a salt section and unknown rubble zone below, while preserving the preferred 95⁄8-in casing size. During drilling, losses were encountered but circulation was regained after pumping lost circulation material, allowing drilling to continue to further evaluate the pressure trend below the salt.
The vacuum vessel for the NSTX-U fusion reactor was redesigned to accommodate increased performance requirements. Stress analyses found high stresses around the Bay J-K and Bay L ports. Reinforcements were added in multiple iterations until stresses were acceptable. Reinforcements included plates, bars, bridges and thicker tubing. The redesign minimized impacts on resistive wall mode coils while supporting analyses. Installation of the new ports and some reinforcements was completed, with remaining internal reinforcements ongoing.
This document describes the proposed design and construction approach for the underground works of the John Hart Generating Station Replacement Project in Campbell River, British Columbia. Key points include:
- The project involves designing and constructing an underground powerhouse, access tunnels, intake and tailrace tunnels using drill-and-blast excavation methods.
- The underground powerhouse will house three turbines with a total capacity of 132MW.
- Extensive geological investigations including boreholes and mapping have been conducted to inform the tunnel and powerhouse support designs.
- The design will use empirical rock support methods along with numerical modeling to ensure support elements are not overstressed. Safety against hydrojacking during construction is a key consideration for
Dannenbaum Engineering - River Update 9-19-2015law138
Chris Sallese, Special Projects, Dannenbaum Engineering presentation at the FOR Annual meeting regarding progress reopening the mouth of the San Bernard
Global CCS Institute - Day 1 - Panel 1 - International Progress on CCS ProjectsGlobal CCS Institute
The document discusses the progress of the Quest CCS project in Alberta, Canada. It is a fully integrated CCS project led by Shell that will capture over 1 million tonnes of CO2 per year from an oil sands upgrader for storage. The CO2 will be transported via pipeline and stored in deep saline aquifers. The project received approval in September 2012. It discusses key aspects like the storage site, CO2 capture technology, monitoring plans, and the project's costs.
Revised and new drilling regulations, what is known as Chapter 78 of the 1984 Oil and Gas Act, in Pennsylvania. The revision process started in 2011. It separates drilling rules into conventional and unconventional. The drilling industry says the rules will cost drillers billions each year without a corresponding benefit for the environment or safety. The new rules will be adopted in mid-2016 if they are not challenged in court.
The document provides an overview of Sage Gold Corp., including forward-looking statements and risk factors to consider. It summarizes Sage Gold's corporate vision, structure, properties and projects. Specifically, it outlines plans to develop the Clavos gold mine in Timmins, Ontario, with existing infrastructure and a new resource study. It highlights drill results from 2011 indicating potential to increase resources and notes opportunities for near-term production.
The California Central Valley Groundwater-Surface Water Simulation Model (C2VSim) simulates the monthly response of the Central Valley’s groundwater and surface water flow system to historical stresses, and can also be used to simulate the response to projected future stresses. C2VSim contains monthly historical stream inflows, surface water diversions, precipitation, land use and crop acreages from October 1921 through September 2009. The model dynamically calculates crop water demands, allocates contributions from precipitation, soil moisture and surface water diversions, and calculates the groundwater pumpage required to meet the remaining demand.
A proposed "final" version of changes to PA's Chapter 78 (Conventional) and Chapter 78a (unconvetional/shale) drilling rules and regulations, made by the Dept. of Environmental Protection. Newly elected Gov. Tom Wolf and his Sec. of the DEP John Quigley have reworked what was a final version of the rules to put their own stamp on the drilling industry in the state. The newly revised rules are opposed by the Marcellus industry as unnecessary and overly burdensome.
Hydraulic Fracturing Considerations for Natural Gas Wells of the Marcellus ShaleDan Arthur
This document discusses hydraulic fracturing considerations for natural gas wells in the Marcellus Shale. It provides background on unconventional natural gas production and the increasing role of shale gas. It then focuses on the Marcellus Shale, discussing its geology, resource potential, development history, and comparisons to other gas shale basins. The document outlines the hydraulic fracturing process, including fracture modeling, monitoring, fluid selection, and water management. It provides examples of well pad configurations and operations to illustrate hydraulic fracturing operations in the Marcellus Shale.
This document provides an update on research projects studying monitored natural attenuation (MNA) at the Site for Innovative Research on Natural Attenuation (SIReN). Three major projects are described. 1) A project developing a dipole flow reactive tracer test to assess MNA and inform risk assessments. Field and lab tests have provided hydraulic and reactive properties. 2) A project using chemical fingerprinting and molecular analysis to monitor benzene attenuation and associated microbial communities. 3) A demonstration of a portable biosensor system to rapidly assess toxicity and guide sampling. Together the projects aim to advance tools for MNA assessment and demonstration.
The document discusses foundation treatment for dams. It covers treating rock foundations by excavating to solid rock, cleaning rock surfaces, treating defects like seams, and using grouting. It also discusses treating earth foundations to provide bearing strength, prevent sliding and seepage, and protect against piping. Common earth foundation treatments include cutoff walls, impervious blankets, drainage systems, and using piles. The effectiveness of partial versus complete cutoff walls is analyzed.
The document discusses foundations for residential structures built on expansive soils common in Texas. It recommends licensed engineers design foundations according to the Recommended Practice for the Design of Residential Foundations document where expansive soils are present. The document also presents various foundation options and provides details on slab-on-grade, crawlspace, basement, and pier foundations designed for local soil and construction conditions. It aims to augment building codes to better address foundation issues common in Texas.
The document discusses U.S. shale gas resources and the challenges of developing them. It notes that shale gas reserves are conservatively estimated at 500-1000 trillion cubic feet and that hydraulic fracturing and horizontal drilling first made shale gas production economically viable. However, each shale play has unique characteristics that require tailored solutions. The document summarizes characteristics of major shale plays like the Barnett, Woodford, Haynesville, Bakken and Fayetteville and notes that best practices must evolve locally to address specific challenges in each play. Unconventional resources like shale gas require unconventional solutions to optimize production and costs.
- Victoria Oil & Gas reported unaudited interim results for the six months ending November 30, 2014. During this period, the company met objectives of increasing gas production in Cameroon to make the subsidiary Gaz du Cameroun operationally cash positive.
- A key development was Gaz du Cameroun signing an agreement in December 2014 to supply gas to two power stations in Doula to generate up to 50MW, which could treble Gaz du Cameroun's current gas production.
- The company expects the power station projects to be online by the end of Q1 2015, representing remarkable success in progressing from signing in late December 2014 to delivering power within three months.
The document is the interim financial report of Victoria Oil & Gas PLC for the six months ended 30 November 2013. It includes the Chairman's statement which discusses operational improvements at the Logbaba gas field in Cameroon, including increased production and new customer connections. It also notes a visit by the President of Cameroon and a favorable arbitration ruling. The financial review summarizes the income statement, balance sheet, and cash flows. It shows increased revenue and profitability compared to the prior period. Key investments were made expanding the pipeline network in Cameroon.
Victoria Oil & Gas is an oil and gas exploration and production company operating in Cameroon and Russia. In Cameroon, Victoria has invested over $111 million in the Logbaba gas and condensate field, including drilling two wells, constructing production facilities, and laying a 22km pipeline. The Logbaba field currently supplies gas to 19 industrial customers in Douala. In Russia, Victoria owns the West Medvezhye oil and gas project in the Yamal region, which contains estimated reserves of 14.4 million barrels of oil equivalent and prospective recoverable resources of 1.4 billion barrels of oil equivalent.
Victoria Oil & Gas commenced continuous natural gas production from its Logbaba field in Cameroon in July 2012. It currently has four customers connected taking over 1 million standard cubic feet per day. Production and cash flow from Logbaba are expected to ramp up significantly in the coming months as more contracted customers come online. The company anticipates this producing asset will provide a platform for growth and transition the company from an exploration firm reliant on equity financing to an integrated oil and gas producer with cash flow.
This document provides financial information for Victoria Oil & Gas PLC for the six months ended 30 November 2011.
Key details include:
- The company achieved first gas production from its Logbaba project in Cameroon in December 2011.
- For the six month period, the company reported a loss of $2.3 million and comprehensive loss of $5.7 million.
- At Logbaba, the company is working to complete the planned 34km gas distribution network and secure additional customers.
- The company also owns gas assets in West Medvezhye, Russia and is pursuing an exploration and appraisal program.
The document is the annual report of Victoria Oil & Gas Plc summarizing the company's activities in 2011. It highlights that:
1) This has been a significant year for Victoria Oil & Gas with considerable value added to its assets and extensive work completed on its principal projects.
2) At its flagship Logbaba gas project in Cameroon, the company expects to commence production by the end of 2011.
3) Across the company, net reserves have increased by 40% to 52 million boe and net resources have increased by 30% to 1.594 billion boe.
Victoria Oil & Gas (VOG) presented on their Logbaba gas field in Cameroon and future plans. VOG has discovered over 100 billion cubic feet of gas reserves at Logbaba. Recent well testing found gas flows of 11-56 million cubic feet per day and condensate. VOG plans to install production facilities and a pipeline to supply nearby industrial customers, with first revenues expected in late 2010. Further exploration could significantly expand the resource given only a small portion of the license area has been explored so far.
The document summarizes a presentation by Victoria Oil & Gas (VOG) about its oil and gas assets and operations. Key points include: VOG has significant natural gas resources in Cameroon and Russia, with its Logbaba field in Cameroon poised to deliver first revenues in late 2010; Logbaba has over 300 feet of pay across two wells and testing showed production rates from 11-56 MMscf/d; VOG plans to install its own gas processing and pipeline to connect Logbaba to industrial customers; VOG's West Med field in Russia has over 1 billion barrels of prospective resources and is located near a supergiant gas field.
Victoria Oil & Gas Plc is the first company to produce natural gas in Cameroon. It owns 57% of the Logbaba gas field, which has 212 billion cubic feet of proven and probable reserves. Victoria plans to grow production at Logbaba to supply industrial customers in Douala via a new pipeline network. It aims to become a leading gas supplier in Cameroon and acquire other companies to grow into a mid-sized exploration and production firm within three years.
This project report presents the results of a passive seismic survey in the West Medvezhye area of Siberia, Russia. The survey identified two areas of relatively high low-frequency energy that represent potential exploration targets. One target is located near an existing well that encountered hydrocarbons. Additional data collection could help improve the resolution of the results and reduce uncertainties, particularly around the edges of the survey area. The results generally indicate areas of higher and lower hydrocarbon prospectivity but are not sufficient alone to determine detailed correlations or reserve estimates.
VOG is an oil and gas exploration company listed on AIM that has assets in Cameroon and Russia. In Cameroon, VOG has commenced drilling of the first appraisal well at the Logbaba gas field, which was discovered in the 1950s. The first well at Logbaba encountered gas-bearing sands and is expected to reach total depth within 2-3 weeks. VOG also plans to conduct passive seismic surveys over Logbaba and its West Medvezhye gas field in Russia to identify additional exploration targets.
VOG owns the Logbaba gas field in Cameroon which contains proven reserves of 14 million barrels of oil equivalent. Phase 1 of the development plan is to drill a new well and install facilities to produce and sell 12 million cubic feet per day of gas to local industrial customers. VOG also has exploration assets in Russia, Kazakhstan, Ethiopia, and Mali totaling over 1.1 billion barrels of oil equivalent of prospective resources. The Logbaba field and future cash flow is expected to transform VOG into a leading energy supplier in Cameroon.
Victoria Oil & Gas (VOG) is an oil and gas exploration and production company focused on Africa and the Former Soviet Union (FSU). VOG's key asset is the Logbaba gas field in Cameroon, which is expected to become a significant cash flow driver for the company with first commercial gas deliveries by mid-2010. VOG also has exploration assets in Russia, Kazakhstan, Ethiopia and Mali totaling over 1.5 billion barrels of oil equivalent of resources. The company aims to build production in Africa while pursuing long-term exploration potential in the FSU.
Victoria Oil & Gas plc is an emerging natural gas producer focused on the Logbaba gas field in Cameroon and the West Medvezhye project in Siberia. Logbaba is poised to deliver first revenues for the company in Q4 2010 from two wells that have encountered over 300 feet of gas-bearing sandstone. The company plans to install gas processing facilities and pipelines to deliver gas to industrial customers in Douala. Test data from the wells will be incorporated into an independent reserve re-estimation for the Logbaba field.
The presentation proposes that Blackwatch conduct a technical review of Victoria Oil and Gas's Kemerkol and West Med licenses and acquire an IPDS survey on Kemerkol to identify drill targets. Assuming suitable targets are found, the plan is to drill two or more wells in Kemerkol to increase production for export sales. It also discusses trialling IPDS technology on West Med and investigating opportunities for acquiring additional interests in Kazakhstan and reducing operating costs.
- VOG completed a £10.8m fundraising in November 2010 to reinforce its capital base as it transforms into a producing and cash generating company at its Logbaba Gas Field in Cameroon.
- The award of the Exploitation Decree for the Logbaba Gas Field is imminent and first gas sales are expected within five months of receiving the decree.
- Operations are also progressing at VOG's West Medvezhye field in Russia, with seismic surveys confirming direct hydrocarbon indications and studies highlighting leads for future drilling planned for 2011-2012.
A proposed "final" version of changes to PA's Chapter 78 (Conventional) and Chapter 78a (unconvetional/shale) drilling rules and regulations, made by the Dept. of Environmental Protection. Newly elected Gov. Tom Wolf and his Sec. of the DEP John Quigley have reworked what was a final version of the rules to put their own stamp on the drilling industry in the state. The newly revised rules are opposed by the Marcellus industry as unnecessary and overly burdensome.
Hydraulic Fracturing Considerations for Natural Gas Wells of the Marcellus ShaleDan Arthur
This document discusses hydraulic fracturing considerations for natural gas wells in the Marcellus Shale. It provides background on unconventional natural gas production and the increasing role of shale gas. It then focuses on the Marcellus Shale, discussing its geology, resource potential, development history, and comparisons to other gas shale basins. The document outlines the hydraulic fracturing process, including fracture modeling, monitoring, fluid selection, and water management. It provides examples of well pad configurations and operations to illustrate hydraulic fracturing operations in the Marcellus Shale.
This document provides an update on research projects studying monitored natural attenuation (MNA) at the Site for Innovative Research on Natural Attenuation (SIReN). Three major projects are described. 1) A project developing a dipole flow reactive tracer test to assess MNA and inform risk assessments. Field and lab tests have provided hydraulic and reactive properties. 2) A project using chemical fingerprinting and molecular analysis to monitor benzene attenuation and associated microbial communities. 3) A demonstration of a portable biosensor system to rapidly assess toxicity and guide sampling. Together the projects aim to advance tools for MNA assessment and demonstration.
The document discusses foundation treatment for dams. It covers treating rock foundations by excavating to solid rock, cleaning rock surfaces, treating defects like seams, and using grouting. It also discusses treating earth foundations to provide bearing strength, prevent sliding and seepage, and protect against piping. Common earth foundation treatments include cutoff walls, impervious blankets, drainage systems, and using piles. The effectiveness of partial versus complete cutoff walls is analyzed.
The document discusses foundations for residential structures built on expansive soils common in Texas. It recommends licensed engineers design foundations according to the Recommended Practice for the Design of Residential Foundations document where expansive soils are present. The document also presents various foundation options and provides details on slab-on-grade, crawlspace, basement, and pier foundations designed for local soil and construction conditions. It aims to augment building codes to better address foundation issues common in Texas.
The document discusses U.S. shale gas resources and the challenges of developing them. It notes that shale gas reserves are conservatively estimated at 500-1000 trillion cubic feet and that hydraulic fracturing and horizontal drilling first made shale gas production economically viable. However, each shale play has unique characteristics that require tailored solutions. The document summarizes characteristics of major shale plays like the Barnett, Woodford, Haynesville, Bakken and Fayetteville and notes that best practices must evolve locally to address specific challenges in each play. Unconventional resources like shale gas require unconventional solutions to optimize production and costs.
- Victoria Oil & Gas reported unaudited interim results for the six months ending November 30, 2014. During this period, the company met objectives of increasing gas production in Cameroon to make the subsidiary Gaz du Cameroun operationally cash positive.
- A key development was Gaz du Cameroun signing an agreement in December 2014 to supply gas to two power stations in Doula to generate up to 50MW, which could treble Gaz du Cameroun's current gas production.
- The company expects the power station projects to be online by the end of Q1 2015, representing remarkable success in progressing from signing in late December 2014 to delivering power within three months.
The document is the interim financial report of Victoria Oil & Gas PLC for the six months ended 30 November 2013. It includes the Chairman's statement which discusses operational improvements at the Logbaba gas field in Cameroon, including increased production and new customer connections. It also notes a visit by the President of Cameroon and a favorable arbitration ruling. The financial review summarizes the income statement, balance sheet, and cash flows. It shows increased revenue and profitability compared to the prior period. Key investments were made expanding the pipeline network in Cameroon.
Victoria Oil & Gas is an oil and gas exploration and production company operating in Cameroon and Russia. In Cameroon, Victoria has invested over $111 million in the Logbaba gas and condensate field, including drilling two wells, constructing production facilities, and laying a 22km pipeline. The Logbaba field currently supplies gas to 19 industrial customers in Douala. In Russia, Victoria owns the West Medvezhye oil and gas project in the Yamal region, which contains estimated reserves of 14.4 million barrels of oil equivalent and prospective recoverable resources of 1.4 billion barrels of oil equivalent.
Victoria Oil & Gas commenced continuous natural gas production from its Logbaba field in Cameroon in July 2012. It currently has four customers connected taking over 1 million standard cubic feet per day. Production and cash flow from Logbaba are expected to ramp up significantly in the coming months as more contracted customers come online. The company anticipates this producing asset will provide a platform for growth and transition the company from an exploration firm reliant on equity financing to an integrated oil and gas producer with cash flow.
This document provides financial information for Victoria Oil & Gas PLC for the six months ended 30 November 2011.
Key details include:
- The company achieved first gas production from its Logbaba project in Cameroon in December 2011.
- For the six month period, the company reported a loss of $2.3 million and comprehensive loss of $5.7 million.
- At Logbaba, the company is working to complete the planned 34km gas distribution network and secure additional customers.
- The company also owns gas assets in West Medvezhye, Russia and is pursuing an exploration and appraisal program.
The document is the annual report of Victoria Oil & Gas Plc summarizing the company's activities in 2011. It highlights that:
1) This has been a significant year for Victoria Oil & Gas with considerable value added to its assets and extensive work completed on its principal projects.
2) At its flagship Logbaba gas project in Cameroon, the company expects to commence production by the end of 2011.
3) Across the company, net reserves have increased by 40% to 52 million boe and net resources have increased by 30% to 1.594 billion boe.
Victoria Oil & Gas (VOG) presented on their Logbaba gas field in Cameroon and future plans. VOG has discovered over 100 billion cubic feet of gas reserves at Logbaba. Recent well testing found gas flows of 11-56 million cubic feet per day and condensate. VOG plans to install production facilities and a pipeline to supply nearby industrial customers, with first revenues expected in late 2010. Further exploration could significantly expand the resource given only a small portion of the license area has been explored so far.
The document summarizes a presentation by Victoria Oil & Gas (VOG) about its oil and gas assets and operations. Key points include: VOG has significant natural gas resources in Cameroon and Russia, with its Logbaba field in Cameroon poised to deliver first revenues in late 2010; Logbaba has over 300 feet of pay across two wells and testing showed production rates from 11-56 MMscf/d; VOG plans to install its own gas processing and pipeline to connect Logbaba to industrial customers; VOG's West Med field in Russia has over 1 billion barrels of prospective resources and is located near a supergiant gas field.
Victoria Oil & Gas Plc is the first company to produce natural gas in Cameroon. It owns 57% of the Logbaba gas field, which has 212 billion cubic feet of proven and probable reserves. Victoria plans to grow production at Logbaba to supply industrial customers in Douala via a new pipeline network. It aims to become a leading gas supplier in Cameroon and acquire other companies to grow into a mid-sized exploration and production firm within three years.
This project report presents the results of a passive seismic survey in the West Medvezhye area of Siberia, Russia. The survey identified two areas of relatively high low-frequency energy that represent potential exploration targets. One target is located near an existing well that encountered hydrocarbons. Additional data collection could help improve the resolution of the results and reduce uncertainties, particularly around the edges of the survey area. The results generally indicate areas of higher and lower hydrocarbon prospectivity but are not sufficient alone to determine detailed correlations or reserve estimates.
VOG is an oil and gas exploration company listed on AIM that has assets in Cameroon and Russia. In Cameroon, VOG has commenced drilling of the first appraisal well at the Logbaba gas field, which was discovered in the 1950s. The first well at Logbaba encountered gas-bearing sands and is expected to reach total depth within 2-3 weeks. VOG also plans to conduct passive seismic surveys over Logbaba and its West Medvezhye gas field in Russia to identify additional exploration targets.
VOG owns the Logbaba gas field in Cameroon which contains proven reserves of 14 million barrels of oil equivalent. Phase 1 of the development plan is to drill a new well and install facilities to produce and sell 12 million cubic feet per day of gas to local industrial customers. VOG also has exploration assets in Russia, Kazakhstan, Ethiopia, and Mali totaling over 1.1 billion barrels of oil equivalent of prospective resources. The Logbaba field and future cash flow is expected to transform VOG into a leading energy supplier in Cameroon.
Victoria Oil & Gas (VOG) is an oil and gas exploration and production company focused on Africa and the Former Soviet Union (FSU). VOG's key asset is the Logbaba gas field in Cameroon, which is expected to become a significant cash flow driver for the company with first commercial gas deliveries by mid-2010. VOG also has exploration assets in Russia, Kazakhstan, Ethiopia and Mali totaling over 1.5 billion barrels of oil equivalent of resources. The company aims to build production in Africa while pursuing long-term exploration potential in the FSU.
Victoria Oil & Gas plc is an emerging natural gas producer focused on the Logbaba gas field in Cameroon and the West Medvezhye project in Siberia. Logbaba is poised to deliver first revenues for the company in Q4 2010 from two wells that have encountered over 300 feet of gas-bearing sandstone. The company plans to install gas processing facilities and pipelines to deliver gas to industrial customers in Douala. Test data from the wells will be incorporated into an independent reserve re-estimation for the Logbaba field.
The presentation proposes that Blackwatch conduct a technical review of Victoria Oil and Gas's Kemerkol and West Med licenses and acquire an IPDS survey on Kemerkol to identify drill targets. Assuming suitable targets are found, the plan is to drill two or more wells in Kemerkol to increase production for export sales. It also discusses trialling IPDS technology on West Med and investigating opportunities for acquiring additional interests in Kazakhstan and reducing operating costs.
- VOG completed a £10.8m fundraising in November 2010 to reinforce its capital base as it transforms into a producing and cash generating company at its Logbaba Gas Field in Cameroon.
- The award of the Exploitation Decree for the Logbaba Gas Field is imminent and first gas sales are expected within five months of receiving the decree.
- Operations are also progressing at VOG's West Medvezhye field in Russia, with seismic surveys confirming direct hydrocarbon indications and studies highlighting leads for future drilling planned for 2011-2012.
Victoria Oil & Gas Plc is an emerging player in natural gas production in Cameroon. It has discovered the Logbaba gas and condensate field, the only onshore gas discovery in Cameroon. Drilling at Logbaba has encountered over 600 feet of gross sandstone pay across two wells. Victoria Oil & Gas plans to install gas processing facilities and a pipeline to deliver first revenues from Logbaba in Q4 2010 and tap into Cameroon's growing demand for natural gas.
Cleades Robinson, a respected leader in Philadelphia's police force, is known for his diplomatic and tactful approach, fostering a strong community rapport.
The E-Way Bill revolutionizes logistics by digitizing the documentation of goods transport, ensuring transparency, tax compliance, and streamlined processes. This mandatory, electronic system reduces delays, enhances accountability, and combats tax evasion, benefiting businesses and authorities alike. Embrace the E-Way Bill for efficient, reliable transportation operations.
ZKsync airdrop of 3.6 billion ZK tokens is scheduled by ZKsync for next week.pdfSOFTTECHHUB
The world of blockchain and decentralized technologies is about to witness a groundbreaking event. ZKsync, the pioneering Ethereum Layer 2 network, has announced the highly anticipated airdrop of its native token, ZK. This move marks a significant milestone in the protocol's journey, empowering the community to take the reins and shape the future of this revolutionary ecosystem.
Methanex is the world's largest producer and supplier of methanol. We create value through our leadership in the global production, marketing and delivery of methanol to customers. View our latest Investor Presentation for more details.
World economy charts case study presented by a Big 4
World economy charts case study presented by a Big 4
World economy charts case
World economy charts case study presented by a Big 4
World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4
World economy charts case study presented by a Big 4
World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4World economy charts case study presented by a Big 4study presented by a Big 4
UnityNet World Environment Day Abraham Project 2024 Press ReleaseLHelferty
June 12, 2024 UnityNet International (#UNI) World Environment Day Abraham Project 2024 Press Release from Markham / Mississauga, Ontario in the, Greater Tkaronto Bioregion, Canada in the North American Great Lakes Watersheds of North America (Turtle Island).
3. The West Medvezhye
License Area
• Located in the Nadym-Pur
hydrocarbon province just east of
the Ob Bay
• Just west of the Medvezhye field
– A large Cenomanian (PK1) field
– EUR 1.6 1012 m3 of dry gas
• Good quality 2D seismic data
• Potential structural and
stratigraphic traps
• Prospects exist in the Upper
Neocomian reservoirs, Neocomian
Shelf Complex, Achimov
clinoforms, and Jurassic reservoirs
4. West Medvezhye and the Surrounding Area
West Medvezhyе Field
Urengoi Field
Medvezhye Field
5. West Medvezhye and the Surrounding Area
AY
YAB
KA
OBS
EAST-
MEDVEZHIE
Medvezhiya
3
MEDVEZHIE
6. Generalized View of West Siberian Geology
Shallow water – upper
shelf
Lowstand Prograding shelf edge
wedge –
Incised
Canyon
Base of slope – deep
water
Bajenov – basinal facies
9. Neocomian Shelf Prospects
105
• BN9-3, BN10, BN11, BN12
• Major risks: reservoir and trap
• Requires a stratigraphic trapping 109
component to be successful
107
103
10. Achimov Prospects
105
• Achimov BN11, BN12, and BN13
• Lower slope sands and silts
• Major risks: reservoir and trap
109
• Stratigraphic and stratigraphic-
structural traps along strike or across
3-way structural closures
107
103
11. Jurassic Prospects
105
• Several potential Jurassic reservoir
segments
• Non-marine sandstones associated with
channel features 109
• Stratigraphic and structural trapping
along strike or across 3-way structural
closures 107
• Reservoir quality rock will depend on
natural fracturing for most prospects
evaluated.
103
25. Probabilistic Analysis
• Standard probabilistic methods
• Probabilistic distributions of various parameters were
based on known data, analogy, and experience
• 25 prospects evaluated
• Each prospect was risked by the probability of geologic
success (Pg), but probability of economic success
factors (Pe) and threshold economic field size (TEFS)
were not considered.
• Utilized truncated normal or truncated lognormal
distributions to model all variables
• Pg adjusted prospective resources are not comparable to
contingent resources or reserves
26. Estimated Prospective Gas and Condensate Resources as of June 30, 2006
Prospective Gas Resources Prospective Condensate R
Probability Probability
Best of Geologic Pg-Adjusted Pg-Adjusted Best of Geologic
Well Estimate Success, Pg Best Estimate Best Estimate Estimate Success, Pg
Prospect (106ft3) (decimal) (106ft3) (106BOE) (103bbl) (decimal)
Well 103
Bn10HiEnergy 355,799.1 0.180 64,043.8 10,674.0 17,790.8 0.180
BN-11 Central 132,109.6 0.238 31,389.2 5,231.5 6,629.6 0.238
Bn12South 150,945.4 0.238 35,864.6 5,977.4 7,598.2 0.238
Totals Well 103 638,854.1 0.206 131,297.6 21,882.9 32,018.7 0.206
Well 105
Bn-9-3 West 74,918.0 0.252 18,879.3 3,146.6 3,751.1 0.252
NW Closure 558,984.5 0.295 164,894.0 27,482.3 20,191.4 0.270
Totals Well 105 633,902.5 0.290 183,773.3 30,628.9 23,942.6 0.267
Well 107
Bn10 NW 205,107.8 0.180 36,919.4 6,153.2 10,185.3 0.180
Fan 1 1,185,640.0 0.158 186,738.3 31,123.1 58,976.0 0.158
Achimov 12 Central 124,188.3 0.208 25,818.7 4,303.1 6,183.2 0.208
Totals Well 107 1,514,936.1 0.165 249,476.4 41,579.4 75,344.5 0.165
Well 109
BN-11 North 652,010.8 0.158 102,691.7 17,115.3 32,839.5 0.158
Achimov 11 North Anticline 648,578.6 0.208 134,839.5 22,473.3 32,084.5 0.208
Totals Well 109 1,300,589.4 0.183 237,531.2 39,588.6 64,924.0 0.182
Undesignated
BN12 NE 130,655.3 0.144 18,814.4 3,135.7 6,539.4 0.144
Achimov 12 North Forked 262,484.4 0.135 35,435.4 5,905.9 13,062.6 0.135
Fan 3 238,445.6 0.158 37,555.2 6,259.2 11,930.6 0.158
Achimov 13 383,695.6 0.189 72,518.5 12,086.4 19,124.5 0.189
Totals Undesignated 1,015,280.9 0.162 164,323.5 27,387.2 50,657.1 0.162
Subtotals
Planned Wells 4,088,282.1 0.196 802,078.5 133,679.8 196,229.8 0.190
Undesignated Wells 1,015,280.9 0.162 164,323.5 27,387.2 50,657.1 0.162
Grand Totals 5,103,563.0 0.189 966,402.0 161,067.0 246,886.9 0.184
Notes:
1. Application of Pg does not equate prospective resources to contingent resources or reserves.
2. Best estimates in this table are expected values (EV).
3. Only EV's can be arithmetically summed; P90, P50, and P10 cannot be arithmetically summed.
4. Pg is defined as the probability of discovering reservoirs which flow petroleum at a measurable rate.
5. Recovery efficiency is applied to prospective resources in this table.
6. Pg has been rounded for presentation purposes.
7. Gas is converted to oil equivalent using a factor of 6,000 cubic feet of gas per 1 barrel of oil equivalent.
27. Estimated Prospective Oil Resources as of June 30, 2006
Probability
Low Median High Best of Geologic Pg-Adjusted
Estimate Estimate Estimate Estimate Success, Pg Best Estimate
Prospect (103bbl) (103bbl) (103bbl) (103bbl) (decimal) (103bbl)
Upper J Thick 379.9 1,295.1 3,492.3 1,671.7 0.132 220.0
JF NW1 286.1 1,013.8 3,155.4 1,477.7 0.097 143.6
JF NE 537.4 1,971.5 5,993.1 2,768.5 0.097 269.1
JF ECent 372.3 1,376.9 4,495.0 1,975.6 0.097 192.0
JF SCent 507.5 1,963.0 5,616.8 2,694.3 0.097 261.9
JF SWCent 109.2 442.2 1,272.1 629.3 0.097 61.2
JF SW 292.0 1,091.6 3,460.2 1,564.8 0.097 152.1
JF NW2 288.3 1,069.2 3,239.1 1,482.4 0.097 144.1
JF NCentral 697.7 2,567.5 7,389.0 3,486.4 0.097 338.9
JF Central 883.3 3,406.4 9,759.7 4,693.2 0.097 456.2
LJ Channel 483.6 1,640.8 4,334.5 2,165.8 0.132 285.1
Statistical Aggregate 14,244.0 22,749.8 37,309.5 24,609.7 0.103 2,524.2
Notes:
1. Low, median, best, and high estimates follow the SPE/WPC/AAPG guidelines for prospective resources.
2. Application of Pg does not equate prospective resources to contingent resources or reserves.
3. Low, median, best, and high estimates in this table are P90, P50, EV, and P10, respectively.
4. Only EV's can be arithmetically summed; P90, P50, and P10 cannot be arithmetically summed.
5. Pg is defined as the probability of discovering reservoirs which flow petroleum at a measurable rate.
6. Recovery efficiency is applied to prospective resources in this table.
7. Pg has been rounded for presentation purposes.