45 Surveying courses

About this Training Course In our pursuit to discover oil & gas in deeper horizons, wells are often drilled in a HPHT environment. To be considered a HPHT well, the downhole conditions will have pressures in excess of 10,000 psi (69 MPa) and 300° F (150° C). To drill these usually expensive wells successfully, the planning and execution phase has to be of an exceptionally high standard. Therefore, both operator and drilling/service contractor staff must be seamlessly aligned and work as a coherent team to reach and then harness the well objectives. This is particularly important when speciality services such as Managed Pressure Drilling (MPD) are being applied with crews and/or supervisors who are not intricately familiar with complicated well control incidents. As we seek to prevent costly non-productive time, attention will also be paid to enabling technologies like expandable solid tubulars, mud coolers and specialty mud. The 3 full-day course will explain the key characteristics and challenges of HPHT Planning and Well Control. This includes: Differences between HPHT and standard (conventional) wells and what this entails for well design. The challenges unique to HPHT and the impact of Pore Pressure Prediction (PPP). Static and Dynamic Equivalent Mud Density and the factors that influence the ultimate Bottom Hole Pressure (BHP). Control practices such as 'fingerprinting' to identify what's happening downhole. HPHT shut-in procedures and practices. Specific HPHT equipment and drilling tool requirements and advantages of Managed Pressure Drilling (MPD). Well control on/off bottom, bull-heading and dealing with kick-loss situations. Mud management, tolerance on mud properties and challenges in cementing. Case history on emergency control. Drills, team effort, checklists, human factor and 'getting everybody on board'. Training Objectives By the end of this course, participants will be able to: Recognize the main differences in planning/design between HPHT and standard (conventional) wells as well as the challenges that will have to be faced. Explain drilling and tripping operational challenges and practices as well as how to manage these effectively. Identify wellbore breathing (a.k.a. ballooning) and how to safely deal with this within the narrow window for mud density selection. Apply practices of consistent fingerprinting and how to develop procedures for this to benefit the rig team. Measure and understand bottom hole pressure and the effect of influencing factors such as temperature, rotation and flow rate. Understand the critical mud properties to alleviate barite sag, general mud density control techniques and specify the essentials in cementing. Manage losses and low fracture gradients with well bore strengthening methods. Execute sound HPHT shut-in procedures. Understand how MPD can assist in the safe and efficient drilling and hole cleaning of HPHT wells. Understand the use of MPD Influx Management Envelopes. Identify critical Early Kick Detection Systems (EKDS) and HPHT well control equipment. Execute safe secondary well control practices in a H2S environment, bull-heading, on and off bottom and handling of gas at surface, using MGS and hydrate mitigation measures. Target Audience The course is intended for: Office-based staff engaged in HPHT well planning and day-to-day operations Field-based rig staff working as front-line supervisors - from Assistant Drillers to Senior Toolpushers Field-based rig staff working for service companies supporting the execution of HPHT wells (MPD, mud and mudlogging services etc.) Trainer Your expert course leader has over 45 years of experience in the Oil & Gas industry. During that time, he has worked exclusively in the well engineering domain. After being employed in 1974 by Shell, one of the major oil & gas producing operators, he worked as an apprentice on drilling rigs in the Netherlands. After a year, he was sent for his first international assignment to the Sultanate of Oman where he climbed up the career ladder from Assistant Driller, to Driller, to wellsite Petroleum Engineer and eventually on-site Drilling Supervisor, actively engaged in the drilling of development and exploration wells in almost every corner of this vast desert area. At that time, drilling techniques were fairly basic and safety was just a buzz word, but such a situation propels learning and the fruits of 'doing-the-basics' are still reaped today when standing in front of a class. After some seven years in the Middle East, a series of other international assignments followed in places like the United Kingdom, Indonesia, Turkey, Denmark, China, Malaysia, and Russia. Apart from on-site drilling supervisory jobs on various types of drilling rigs (such as helicopter rigs) and working environments (such as jungle and artic), he was also assigned to research, to projects and to the company's learning centre. In research, he was responsible for promoting directional drilling and surveying and advised on the first horizontal wells being drilled, in projects, he was responsible for a high pressure drilling campaign in Nigeria while in the learning centre, he looked after the development of new engineers joining the company after graduating from university. He was also involved in international well control certification and served as chairman for a period of three years. In the last years of his active career, he worked again in China as a staff development manager, a position he nurtured because he was able to pass on his knowledge to a vast number of new employees once again. After retiring in 2015, he has delivered well engineering related courses in Australia, Indonesia, Brunei, Malaysia, China, South Korea, Thailand, India, Dubai, Qatar, Kuwait, The Netherlands, and the United States. The training he provides includes well control to obtain certification in drilling and well intervention, extended reach drilling, high pressure-high temperature drilling, stuck pipe prevention and a number of other ad-hoc courses. He thoroughly enjoys training and is keen to continue taking classes as an instructor for some time to come. POST TRAINING COACHING SUPPORT (OPTIONAL) To further optimise your learning experience from our courses, we also offer individualized 'One to One' coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information post training support and fees applicable Accreditions And Affliations

Boost your knowledge in LNG fundamentals with our EnergyEdge course. Join our classroom training to gain valuable insights. Enroll now!

Enhance your knowledge in oil and gas drilling essentials with EnergyEdge's classroom training for new engineers and non-technical professionals.

About this Training Course The drill string is the simplest piece of equipment in use on a drilling rig and at the same time, the most critical piece. We use the qualifier 'basic' because although 99% of the drill string comprises plain tubes that are just screwed together, the lowest section, just above the bit, can go to extreme loading and is fitted with highly sophisticated electronics packages providing both positional and lithological data as well as a steering system to drive and orient the bit. The principle tasks of the drill string are also deceptively simple. These are to: Convey each drill bit to the bottom of the hole and then to retrieve it when worn, Act as a conduit to convey drilling fluid at high pressure down to the bit and Transmit torque from surface to bit, occasionally in concert with a hydraulic motor to drive this bit. This 3 full-day course will cover in detail what it takes to decide on minimum drill string specifications, which are able to support the loads to which it will be subjected. In addition to the need to use a drill string with minimum strength requirements, we also need to ensure that we can prevent drill string failure. If the failure consists of a small split or leak of any kind, then the time involved may be little more than that required for a roundtrip to change the bit. If the string parts, then the recovery is likely to take a considerable amount of time. In a worst case scenario, the fish in the hole may prove impossible to retrieve, requiring a sidetrack. A less than optimal design of the string will reduce the efficiency of the operation and almost always leads to premature bit wear. This is particularly true when we are unable to measure and control the dynamics of the drill string as a whole and the bottomhole assembly in particular. Axial vibrations, torsional vibrations and lateral vibrations may take place in various degrees of severity. The behaviour of the drill string while operating under torsional vibrations is thought to be of great importance and may result in torsional buckling. This course will also cover the drilling optimization limiters, how to identify them and how to remove them. This is done by understanding the drill string dynamics - by operating under the most favourable conditions and by measuring the dynamics in the vicinity of the bit (or at the bit) in order to make timely adjustments. Training Objectives The course homes in what office staff needs to know and plan for and what field staff needs to know and implement. By the end of this course, participants will be familiar with: Critical dimensions of common drill pipe and weld-on tool joints and its relation to yield for calculation of tensile, torsional and burst resistance. Make-up torque of connections that relate to the tool joint dimensions and the torsional strength of that connection. Use of design factors and safety factors on tensile and torsional strength in relation to new and worn state. Conditions which could lead to drill pipe collapse. Situations where limitations on sinusoidal (snake) and helical buckling will apply and the influence of radial clearance and deviation. Failure of drill pipe (fatigue) and the circumstances under which these would occur (rotation across doglegs, pipe in compression etc). Mechanism under which hardbanding would induce casing wear and the methods applied to measure and prevent any significant wear. Drill pipe inspection methods we apply to identify early flaws/cracks/corrosion, to measure dimensions, to inspect tool joints etc. Common BHA components, including heavy wall drill pipe, their external/internal dimensions, connections (API, proprietary) and appearance (such as spiral). Significance of thread compounds to ensure the correct make-up torque is applied. Significance of drill string/BHA 'neutral point' in the context of drill string component failure. Basic design principles for a BHA make-up in a vertical, low/medium deviated and highly deviated well in terms of weight transfer and drag/torque. Stabilization principles for a pendulum (vertical), a stabilized (vertical or tangent), a build and a drop-off assembly. BHA design and stabilization in relation to mitigation/elimination of vibration and to the elimination of tension, torsion or fatigue failure. Matching bit aggressiveness, gauge length, BHA stabilization, steerability and Mechanical Specific Energy (MSE) to mitigate the severity of any vibration. Bit efficiency and reduction of wear by understanding mechanical and hydraulic limiters. How to perform a passive or active drill-off test. Importance of being conversant with API 7G RP and/or equivalent data books, to look up/check the recommended tensile/torque and other parameters for the drill string in use. Target Audience This course is intended for staff directly or indirectly involved in the delivery of challenging wells such as junior to senior well engineers, both in office-based planning and operations and field-based operator/contractor supervisory staff such as company men and toolpushers. Trainer Your expert course leader has over 45 years of experience in the Oil & Gas industry. During that time, he has worked exclusively in the well engineering domain. After being employed in 1974 by Shell, one of the major oil & gas producing operators, he worked as an apprentice on drilling rigs in the Netherlands. After a year, he was sent for his first international assignment to the Sultanate of Oman where he climbed up the career ladder from Assistant Driller, to Driller, to wellsite Petroleum Engineer and eventually on-site Drilling Supervisor, actively engaged in the drilling of development and exploration wells in almost every corner of this vast desert area. At that time, drilling techniques were fairly basic and safety was just a buzz word, but such a situation propels learning and the fruits of 'doing-the-basics' are still reaped today when standing in front of a class. After some seven years in the Middle East, a series of other international assignments followed in places like the United Kingdom, Indonesia, Turkey, Denmark, China, Malaysia, and Russia. Apart from on-site drilling supervisory jobs on various types of drilling rigs (such as helicopter rigs) and working environments (such as jungle and artic), he was also assigned to research, to projects and to the company's learning centre. In research, he was responsible for promoting directional drilling and surveying and advised on the first horizontal wells being drilled, in projects, he was responsible for a high pressure drilling campaign in Nigeria while in the learning centre, he looked after the development of new engineers joining the company after graduating from university. He was also involved in international well control certification and served as chairman for a period of three years. In the last years of his active career, he worked again in China as a staff development manager, a position he nurtured because he was able to pass on his knowledge to a vast number of new employees once again. After retiring in 2015, he has delivered well engineering related courses in Australia, Indonesia, Brunei, Malaysia, China, South Korea, Thailand, India, Dubai, Qatar, Kuwait, The Netherlands, and the United States. The training he provides includes well control to obtain certification in drilling and well intervention, extended reach drilling, high pressure-high temperature drilling, stuck pipe prevention and a number of other ad-hoc courses. He thoroughly enjoys training and is keen to continue taking classes as an instructor for some time to come. POST TRAINING COACHING SUPPORT (OPTIONAL) To further optimise your learning experience from our courses, we also offer individualized 'One to One' coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information post training support and fees applicable Accreditions And Affliations

The main subject areas of the course are: Setting up of microscopes. Filter preparation, fibre counting and outline of air sampling equipment. Calculation of results, quality control, reporting and communication.

REFERENCE CODE 603/4678/4 COURSE LEVEL NVQ Level 2 THIS COURSE IS AVAILABLE IN Course Overview This is a work-based learning qualification for those involved in cavity wall surveys/inspections and/or clearance. The qualification has been developed at the request of and in partnership with OSCAR OSNITE https://oscaronsite.co.uk The OSCAR and this qualification are recognised by a number of UKAS Certification bodies, industry bodies, Local Authorities and industry stakeholders. Prior to registering on this qualification, individuals must be registered with OSCAR. The clearance pathway enables individuals to carry out the extraction of cavity wall insulation to create a clear cavity that can be reinsulated or insulated if the system has been used to remove debris only. Candidates must also prove knowledge and competence to create a clear cavity to be able to facilitate External Rendering and External Wall Insulation complying with current Building Regulations. All work must be completed following safe working practices, relevant legislation, and comply with contract information and the allocated timescales. The surveyor/inspection pathway requires candidates to demonstrate the skills and knowledge required to interpret information to be able to carry out a Cavity Clearance survey in accordance with the job specifications, following safe working practices and within the allocated time. The Surveyor must also understand how to communicate with others to ensure work is carried out effectively. This pathway includes identifying and selecting the correct quality of equipment, additionally candidates must understand how to calculate quantity, area and wastage. To achieve this pathway unit the survey work must be carried out in ways that will minimise the risk of damage to the work and surrounding area and using and maintaining equipment effectively. This qualification is made up of 3 mandatory units and 2 pathways. Candidates must complete the mandatory units and one or both of the pathways. The minimum credit value of this qualification is 24 credits. There is also an entirely optional additional unit, if achieved this will appear on the qualification certificate but does not count towards the minimum credit value of the qualification. Qualifications are now required to indicate the total qualification time (TQT), this is to show the typical time it will take someone to attain the required skills and knowledge to meet the qualification criteria, this qualification has a TQT of 240 hours. Qualifications are also required to indicate the number of hours of teaching someone would normally need to gain the skills and knowledge to achieve the qualification. These are referred to as Guided Learning Hours (GLH). The GLH for this qualification is 84. Mandatory Units Level Credit Conforming to General Health, Safety and Welfare in the Workplace Conforming to Productive Working Practices in the Workplace Handling and Storing Resources in the Workplace 2 5 Pathway 1 Cavity Wall Clearance Cavity wall clearance in the workplace CWC1 Pathway 2 – Cavity Extraction Specialist Surveyor/Inspector Surveying/Inspection of Cavity wall clearance in the workplace Summary of the: GQA NVQ LEVEL 2 CERTIFICATE IN CAVITY WALL EXTRACTION OCCUPATIONS SICW1 Additional Unit Erecting and Dismantling Access/Working Platforms in the Workplace Achieving the combination of Mandatory units and the correct choice of Optional credits will mean the qualification has been completed and GQA will provide the qualification title. Where a candidate has completed additional credits, the qualification will list these as “additional credits”, in cases where the candidate has not completed the full qualification and will not go on to do so, a Certificate of credit can be issued for the credits achieved. Assessment guidance: Evidence should show that you can complete all of the learning outcomes for each unit being taken. Types of evidence: Evidence of performance and knowledge is required. Evidence of performance should be demonstrated by activities and outcomes, and should be generated in the workplace only, unless indicated under potential sources of evidence (see below). Evidence of knowledge can be demonstrated though performance or by responding to questions. Quantity of evidence: Evidence should show that you can meet the requirements of the units in a way that demonstrates that the standards can be achieved consistently over an appropriate period of time. Potential sources of evidence: The main source of evidence for each unit will be observation of the candidate’s performance and knowledge demonstrated during the completion of the unit. This can be supplemented by the following types of physical or documentary evidence: Accident book/reporting systems Photo/video evidence Safety records Work diaries Training records Timesheets Audio records Telephone Logs Job specifications and documentation Meeting records Delivery Records Records of toolbox talks Witness testimonies Equipment Correspondence with customers Prepared materials and sites Notes and memos Completed work Please Note that photocopied or downloaded documents such as manufacturers or industry guidance, H&S policies, Risk Assessments etc, are not normally acceptable evidence for GQA qualifications unless accompanied by a record of a professional discussion or Assessor statement confirming candidate knowledge of the subject. If you are in any doubt about the validity of evidence, please contact Oscar Onsite Academy

This week long CPD accredited training is ideal for those Real Estate professionals, who are looking to bolster the DCF modelling skills. This course covers Real Estate Investment, Development, Finance & Risk.

REFERENCE CODE 603/4678/4 COURSE LEVEL NVQ Level 2 THIS COURSE IS AVAILABLE IN Course Overview This is a work-based learning qualification for those involved in cavity wall surveys/inspections and/or clearance. The qualification has been developed at the request of and in partnership with OSCAR OSNITE https://oscaronsite.co.uk The OSCAR and this qualification are recognised by a number of UKAS Certification bodies, industry bodies, Local Authorities and industry stakeholders. Prior to registering on this qualification, individuals must be registered with OSCAR. The clearance pathway enables individuals to carry out the extraction of cavity wall insulation to create a clear cavity that can be reinsulated or insulated if the system has been used to remove debris only. Candidates must also prove knowledge and competence to create a clear cavity to be able to facilitate External Rendering and External Wall Insulation complying with current Building Regulations. All work must be completed following safe working practices, relevant legislation, and comply with contract information and the allocated timescales. The surveyor/inspection pathway requires candidates to demonstrate the skills and knowledge required to interpret information to be able to carry out a Cavity Clearance survey in accordance with the job specifications, following safe working practices and within the allocated time. The Surveyor must also understand how to communicate with others to ensure work is carried out effectively. This pathway includes identifying and selecting the correct quality of equipment, additionally candidates must understand how to calculate quantity, area and wastage. To achieve this pathway unit the survey work must be carried out in ways that will minimise the risk of damage to the work and surrounding area and using and maintaining equipment effectively. This qualification is made up of 3 mandatory units and 2 pathways. Candidates must complete the mandatory units and one or both of the pathways. The minimum credit value of this qualification is 24 credits. There is also an entirely optional additional unit, if achieved this will appear on the qualification certificate but does not count towards the minimum credit value of the qualification. Qualifications are now required to indicate the total qualification time (TQT), this is to show the typical time it will take someone to attain the required skills and knowledge to meet the qualification criteria, this qualification has a TQT of 240 hours. Qualifications are also required to indicate the number of hours of teaching someone would normally need to gain the skills and knowledge to achieve the qualification. These are referred to as Guided Learning Hours (GLH). The GLH for this qualification is 84. Mandatory Units Level Credit Conforming to General Health, Safety and Welfare in the Workplace Conforming to Productive Working Practices in the Workplace Handling and Storing Resources in the Workplace 2 5 Pathway 1 Cavity Wall Clearance Cavity wall clearance in the workplace CWC1 Pathway 2 – Cavity Extraction Specialist Surveyor/Inspector Surveying/Inspection of Cavity wall clearance in the workplace Summary of the: GQA NVQ LEVEL 2 CERTIFICATE IN CAVITY WALL EXTRACTION OCCUPATIONS SICW1 Additional Unit Erecting and Dismantling Access/Working Platforms in the Workplace Achieving the combination of Mandatory units and the correct choice of Optional credits will mean the qualification has been completed and GQA will provide the qualification title. Where a candidate has completed additional credits, the qualification will list these as “additional credits”, in cases where the candidate has not completed the full qualification and will not go on to do so, a Certificate of credit can be issued for the credits achieved. Assessment guidance: Evidence should show that you can complete all of the learning outcomes for each unit being taken. Types of evidence: Evidence of performance and knowledge is required. Evidence of performance should be demonstrated by activities and outcomes, and should be generated in the workplace only, unless indicated under potential sources of evidence (see below). Evidence of knowledge can be demonstrated though performance or by responding to questions. Quantity of evidence: Evidence should show that you can meet the requirements of the units in a way that demonstrates that the standards can be achieved consistently over an appropriate period of time. Potential sources of evidence: The main source of evidence for each unit will be observation of the candidate’s performance and knowledge demonstrated during the completion of the unit. This can be supplemented by the following types of physical or documentary evidence: Accident book/reporting systems Photo/video evidence Safety records Work diaries Training records Timesheets Audio records Telephone Logs Job specifications and documentation Meeting records Delivery Records Records of toolbox talks Witness testimonies Equipment Correspondence with customers Prepared materials and sites Notes and memos Completed work Please Note that photocopied or downloaded documents such as manufacturers or industry guidance, H&S policies, Risk Assessments etc, are not normally acceptable evidence for GQA qualifications unless accompanied by a record of a professional discussion or Assessor statement confirming candidate knowledge of the subject. If you are in any doubt about the validity of evidence, please contact Oscar Onsite Academy

REFERENCE CODE 603/4678/4 COURSE LEVEL NVQ Level 2 THIS COURSE IS AVAILABLE IN Course Overview This is a work-based learning qualification for those involved in cavity wall surveys/inspections and/or clearance. The qualification has been developed at the request of and in partnership with OSCAR OSNITE https://oscaronsite.co.uk The OSCAR and this qualification are recognised by a number of UKAS Certification bodies, industry bodies, Local Authorities and industry stakeholders. Prior to registering on this qualification, individuals must be registered with OSCAR. The clearance pathway enables individuals to carry out the extraction of cavity wall insulation to create a clear cavity that can be reinsulated or insulated if the system has been used to remove debris only. Candidates must also prove knowledge and competence to create a clear cavity to be able to facilitate External Rendering and External Wall Insulation complying with current Building Regulations. All work must be completed following safe working practices, relevant legislation, and comply with contract information and the allocated timescales. The surveyor/inspection pathway requires candidates to demonstrate the skills and knowledge required to interpret information to be able to carry out a Cavity Clearance survey in accordance with the job specifications, following safe working practices and within the allocated time. The Surveyor must also understand how to communicate with others to ensure work is carried out effectively. This pathway includes identifying and selecting the correct quality of equipment, additionally candidates must understand how to calculate quantity, area and wastage. To achieve this pathway unit the survey work must be carried out in ways that will minimise the risk of damage to the work and surrounding area and using and maintaining equipment effectively. This qualification is made up of 3 mandatory units and 2 pathways. Candidates must complete the mandatory units and one or both of the pathways. The minimum credit value of this qualification is 24 credits. There is also an entirely optional additional unit, if achieved this will appear on the qualification certificate but does not count towards the minimum credit value of the qualification. Qualifications are now required to indicate the total qualification time (TQT), this is to show the typical time it will take someone to attain the required skills and knowledge to meet the qualification criteria, this qualification has a TQT of 240 hours. Qualifications are also required to indicate the number of hours of teaching someone would normally need to gain the skills and knowledge to achieve the qualification. These are referred to as Guided Learning Hours (GLH). The GLH for this qualification is 84. Mandatory Units Level Credit Conforming to General Health, Safety and Welfare in the Workplace Conforming to Productive Working Practices in the Workplace Handling and Storing Resources in the Workplace 2 5 Pathway 1 Cavity Wall Clearance Cavity wall clearance in the workplace CWC1 Pathway 2 – Cavity Extraction Specialist Surveyor/Inspector Surveying/Inspection of Cavity wall clearance in the workplace Summary of the: GQA NVQ LEVEL 2 CERTIFICATE IN CAVITY WALL EXTRACTION OCCUPATIONS SICW1 Additional Unit Erecting and Dismantling Access/Working Platforms in the Workplace Achieving the combination of Mandatory units and the correct choice of Optional credits will mean the qualification has been completed and GQA will provide the qualification title. Where a candidate has completed additional credits, the qualification will list these as “additional credits”, in cases where the candidate has not completed the full qualification and will not go on to do so, a Certificate of credit can be issued for the credits achieved. Assessment guidance: Evidence should show that you can complete all of the learning outcomes for each unit being taken. Types of evidence: Evidence of performance and knowledge is required. Evidence of performance should be demonstrated by activities and outcomes, and should be generated in the workplace only, unless indicated under potential sources of evidence (see below). Evidence of knowledge can be demonstrated though performance or by responding to questions. Quantity of evidence: Evidence should show that you can meet the requirements of the units in a way that demonstrates that the standards can be achieved consistently over an appropriate period of time. Potential sources of evidence: The main source of evidence for each unit will be observation of the candidate’s performance and knowledge demonstrated during the completion of the unit. This can be supplemented by the following types of physical or documentary evidence: Accident book/reporting systems Photo/video evidence Safety records Work diaries Training records Timesheets Audio records Telephone Logs Job specifications and documentation Meeting records Delivery Records Records of toolbox talks Witness testimonies Equipment Correspondence with customers Prepared materials and sites Notes and memos Completed work Please Note that photocopied or downloaded documents such as manufacturers or industry guidance, H&S policies, Risk Assessments etc, are not normally acceptable evidence for GQA qualifications unless accompanied by a record of a professional discussion or Assessor statement confirming candidate knowledge of the subject. If you are in any doubt about the validity of evidence, please contact Oscar Onsite Academy

The Real Estate Investor course primarily focuses on financial modelling and commercial considerations in the real estate industry across various sectors, geographies, and project types.