Lot 1 High Voltage Electrical Systems Certification Requirement: We envision that this would be suitable at level 7 in the NFQ Course Overview The programme should provide learners with a strong foundation in HV system theory, including AC systems analysis, power grid infrastructure, and equipment such as transformers and switchgear. It also should emphasise critical areas such as safety compliance, safe working practices, and regulatory requirements essential for operating in high-risk HV settings. Learners should be able to develop the ability to analyse, design, and support HV systems, with a focus on grid connection, protection systems, and system reliability. Practical application is required as a core component, with industry-relevant training in installation, testing, commissioning, and fault diagnosis, supported by portfolio-based learning. Suggested Learning Outcomes Upon successful completion of this programme, learners should be able to 1. Demonstrate specialised knowledge of high voltage electrical systems, including AC system behaviour, grid infrastructure, and industrial HV applications. 2. Critically evaluate HV grid connection requirements and planning considerations, including regulatory, technical, and environmental constraints. 3. Interpret and apply statutory regulations, industry standards, and compliance requirements relevant to HV safety and system operation. 4. Apply advanced safe working practices in HV environments, including isolation, earthing, switching operations, and permit-to-work systems. 5. Analyse HV electrical systems using appropriate engineering techniques, including load flow, fault analysis, and system performance evaluation. 6. Evaluate the design, operation, and performance of HV equipment, including switchgear and transformers, in industrial and utility contexts. 7. Apply protection system principles, including relay coordination and fault detection, to ensure safe and reliable HV system operation. 8. Plan and assess the installation, testing, and commissioning of HV systems and components in accordance with industry standards. 9. Diagnose faults and implement appropriate maintenance and operational strategies to optimise reliability and performance of HV assets. 10. Demonstrate professional competence by communicating technical information effectively, working independently and collaboratively, and engaging in reflective practice and ongoing professional development.
Contract notice (2026-03-27) Object Scope of the procurement
Title: Provision of High Voltage Electrical Systems Training Programme
Short description:
โLot 1 High Voltage Electrical Systems Certification Requirement: We envision that this would be suitable at level 7 in the NFQ Course Overview The programme...โ
Short description
Lot 1 High Voltage Electrical Systems Certification Requirement: We envision that this would be suitable at level 7 in the NFQ Course Overview The programme should provide learners with a strong foundation in HV system theory, including AC systems analysis, power grid infrastructure, and equipment such as transformers and switchgear. It also should emphasise critical areas such as safety compliance, safe working practices, and regulatory requirements essential for operating in high-risk HV settings. Learners should be able to develop the ability to analyse, design, and support HV systems, with a focus on grid connection, protection systems, and system reliability. Practical application is required as a core component, with industry-relevant training in installation, testing, commissioning, and fault diagnosis, supported by portfolio-based learning. Suggested Learning Outcomes Upon successful completion of this programme, learners should be able to 1. Demonstrate specialised knowledge of high voltage electrical systems, including AC system behaviour, grid infrastructure, and industrial HV applications. 2. Critically evaluate HV grid connection requirements and planning considerations, including regulatory, technical, and environmental constraints. 3. Interpret and apply statutory regulations, industry standards, and compliance requirements relevant to HV safety and system operation. 4. Apply advanced safe working practices in HV environments, including isolation, earthing, switching operations, and permit-to-work systems. 5. Analyse HV electrical systems using appropriate engineering techniques, including load flow, fault analysis, and system performance evaluation. 6. Evaluate the design, operation, and performance of HV equipment, including switchgear and transformers, in industrial and utility contexts. 7. Apply protection system principles, including relay coordination and fault detection, to ensure safe and reliable HV system operation. 8. Plan and assess the installation, testing, and commissioning of HV systems and components in accordance with industry standards. 9. Diagnose faults and implement appropriate maintenance and operational strategies to optimise reliability and performance of HV assets. 10. Demonstrate professional competence by communicating technical information effectively, working independently and collaboratively, and engaging in reflective practice and ongoing professional development.
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Type of contract: services
Products/services: Vocational training services๐ฆ
Estimated value excluding VAT: 400 000 EUR ๐ฐ
Description
Description of the procurement:
โLot 1 High Voltage Electrical Systems Certification Requirement: We envision that this would be suitable at level 7 in the NFQ Course Overview The programme...โ
Description of the procurement
Lot 1 High Voltage Electrical Systems Certification Requirement: We envision that this would be suitable at level 7 in the NFQ Course Overview The programme should provide learners with a strong foundation in HV system theory, including AC systems analysis, power grid infrastructure, and equipment such as transformers and switchgear. It also should emphasise critical areas such as safety compliance, safe working practices, and regulatory requirements essential for operating in high-risk HV settings. Learners should be able to develop the ability to analyse, design, and support HV systems, with a focus on grid connection, protection systems, and system reliability. Practical application is required as a core component, with industry-relevant training in installation, testing, commissioning, and fault diagnosis, supported by portfolio-based learning. Suggested Learning Outcomes Upon successful completion of this programme, learners should be able to 1. Demonstrate specialised knowledge of high voltage electrical systems, including AC system behaviour, grid infrastructure, and industrial HV applications. 2. Critically evaluate HV grid connection requirements and planning considerations, including regulatory, technical, and environmental constraints. 3. Interpret and apply statutory regulations, industry standards, and compliance requirements relevant to HV safety and system operation. 4. Apply advanced safe working practices in HV environments, including isolation, earthing, switching operations, and permit-to-work systems. 5. Analyse HV electrical systems using appropriate engineering techniques, including load flow, fault analysis, and system performance evaluation. 6. Evaluate the design, operation, and performance of HV equipment, including switchgear and transformers, in industrial and utility contexts. 7. Apply protection system principles, including relay coordination and fault detection, to ensure safe and reliable HV system operation. 8. Plan and assess the installation, testing, and commissioning of HV systems and components in accordance with industry standards. 9. Diagnose faults and implement appropriate maintenance and operational strategies to optimise reliability and performance of HV assets. 10. Demonstrate professional competence by communicating technical information effectively, working independently and collaboratively, and engaging in reflective practice and ongoing professional development.
Procedure Type of procedure
Open procedure โ Administrative information
Time limit for receipt of tenders or requests to participate: 2026-05-01 00:00:00 ๐
Conditions for opening of tenders: 2026-05-01 00:30:00 ๐
Conditions for opening of tenders (place): https://www.etenders.gov.ie/epps/cft/prepareViewCfTWS.do?resourceId=7806474
Languages in which tenders or requests to participate may be submitted: English ๐ฃ๏ธ
Minimum time frame during which the tenderer must maintain the tender: 12
Complementary information Review body
Name: The High Court of Ireland
National registration number: The High Court of Ireland
Postal address: Four Courts, Inns Quay, Dublin 7
Postal code: D07 WDX8
Postal town: Dublin
Region: Dublin๐๏ธ
Country: Ireland ๐ฎ๐ช
E-mail: highcourtcentraloffice@courts.ie๐ง
Phone: +353 1 8886000๐ Service from which information about the review procedure may be obtained
Name: The High Court of Ireland
National registration number: The High Court of Ireland
Postal address: Four Courts, Inns Quay, Dublin 7
Postal code: D07 WDX8
Postal town: Dublin
Region: Dublin๐๏ธ
Country: Ireland ๐ฎ๐ช
E-mail: highcourtcentraloffice@courts.ie๐ง
Phone: +353 1 8886000๐ Information about electronic workflows
Electronic invoicing will be accepted
Electronic payment will be used
Source: OJS 2026/S 062-214863 (2026-03-27)