Best Practice in the Engineering of Metering Systems Misure Fiscali Milan, 25 October 2018 Auditorium TECNIMONT Best Practice in the Engineering of the Metering Systems 1 Ermanna Deldossi Best Practice in the Engineering of Metering Systems Best Practice: Collection of technique, solutions, procedures or methodology not limited to technical disciplines that, through experience and research, has proven to reliably lead to a desired result. Metering System: an assemblage or combination of things or parts based on multiple disciplines and know how forming a complex or unitary whole of measure 2 Best Practice in the Engineering of Metering Systems Project Team: members, structure, organization, competence, rules, responsability Project Management & Team work selection 3 Best Practice in the Engineering of Metering Systems Teamwork _Work package and Planning 4 Best Practice in the Engineering of Metering Systems RW Phase 12.3% ENG 9.1% FBR Monthly Type Monthly Jun‐15 ‐ ‐ RW Phase 12.3% ENG 9.1% FBR Cumulative Type Jun‐15 RW Phase 12.3% ENG 9.1% FBR Man Power 0 0 Cumulative Type Jun‐15 ‐ ‐ Man Power Jul‐15 888 Aug‐15 382 Sep‐15 700 Oct‐15 Nov‐15 410 333 Dec‐15 412 Jan‐16 546 928 Feb‐16 Mar‐16 217 93 4,657 5,948 Apr‐16 May‐16 159 530 Jun‐16 327 420 Jul‐16 Jul‐15 888 0 Aug‐15 1,269 0 Sep‐15 1,969 0 Oct‐15 Nov‐15 2,379 2,711 0 0 Dec‐15 3,123 0 Jan‐16 3,669 928 Feb‐16 Mar‐16 3,886 3,979 5,585 11,533 Apr‐16 May‐16 4,069 4,228 12,978 13,508 Jun‐16 4,555 13,928 Jul‐16 4,579 13,936 Jul‐15 Aug‐15 Sep‐15 Oct‐15 Dec‐15 Jan‐16 Feb‐16 Apr‐16 Jun‐16 Jul‐16 6 3 ‐ 5 ‐ Nov‐15 3 ‐ 3 ‐ 3 ‐ 4 7 ‐ Mar‐16 2 32 ENG Man Power 90 1,445 1 40 May‐16 1 10 2 4 3 3 1 1 FBR Man Power 7 45 6 40 40 6 5 35 5 4 3 3 3 32 30 4 3 25 3 20 3 2 2 15 2 1 1 1 1 5 ‐ ‐ 0 Team work_Workload 5 10 10 7 4 ‐ ‐ ‐ ‐ ‐ ‐ ‐ 3 24 8 1 Best Practice in the Engineering of Metering Systems Team work_Progress Control 6 Best Practice in the Engineering of Metering Systems Team work_progress Control 7 Best Practice in the Engineering of Metering Systems Preliminary Analysis: • Risks • Opportunities • Objectives PM has in charge this study which is even based on the input of the engineering analysis. and in the PEP definition share the related information with the project team and stakeholders; Of course even the engineering should be informed of the risks, opportunities and goals of the project. Goals, Risks & Opportunities 8 Best Practice in the Engineering of Metering Systems What End User asks What End User gets 9 Best Practice in the Engineering of Metering Systems What is the battery limit? Engineering point of view requires the deep reading of all technical project specifications (process, mechanical, automation, …) in order to: identify anything is required or needs to be included and do not forget anything is due guarantee the compliance with the project requirements put in evidence any “critical” issue or requirements to be engineered find evidence of all existing or potential limits, requirement and incongruencies in norms, laws and Standards applied highlight any potential deviations distinguish what is clearly not contractually due Scope of Work 10 Best Practice in the Engineering of Metering Systems What is the battery limit? Project specification analysis from the Engineering is fundamental to PM to define the complete scope of work both in terms of technical and Contractual Term & Conditions PM will use the results of the Engineering analysis to evaluate any potential impact based on what is contractually agreed, expected from EPC, from Client, necessary to perform…..in order to define with the contractor the effective scope of supply without any misunderstanding. Scope of Work 11 Best Practice in the Engineering of Metering Systems Analysis vincolous: • • • • • • • • • • • Process data Ambient condition Space availability Utilities provided Mechanical requirement Instrument capability Performance requirement Local laws obligations Standards and Rules recommendations Customer Best Practice guideline ……… Vincolous 12 Best Practice in the Engineering of Metering Systems Analysis vincolous: • Instrument capability Vincolous 13 Best Practice in the Engineering of Metering Systems Analysis vincolous: • Pressure Loss Vincolous 14 Best Practice in the Engineering of Metering Systems 15 Best Practice in the Engineering of Metering Systems Analysis vincolous: • Wind and heartquake • Stress Analysis Vincolous 16 Best Practice in the Engineering of Metering Systems Vincolous 17 Best Practice in the Engineering of Metering Systems • Analysis vincolous • Mixing verification with CFD simulation Vincolous 18 Best Practice in the Engineering of Metering Systems 19 Best Practice in the Engineering of Metering Systems • Analysis vincolous • Space availabillity Vincolous 20 Best Practice in the Engineering of Metering Systems • Analysis vincolous • Accessibiity Vincolous 21 Best Practice in the Engineering of Metering Systems • Analysis vincolous • Logistic Vincolous 22 Best Practice in the Engineering of Metering Systems • Analysis vincolous • Transport and allocation Vincolous 23 Best Practice in the Engineering of Metering Systems Chiusura Brief Alto Scope of Work Feasibility Risparmio con la Value Engineering Impact GAIN LOSS Conclusione Avvio Basso Chiusura Design Engineering for Costruction Preliminary Engineering Design 24 Construction Hand‐over and commissioning Progress (t, %) Best Practice in the Engineering of Metering Systems Evidence of the work performed: • Quality Plan • Performance Engineering shall provide documents, calculation report and /or integrate solution which could be needed to support and verify the quality and the performance agreed Acceptance Criteria 25 Best Practice in the Engineering of Metering Systems Evidence with documents: Acceptance Criteria 26 Best Practice in the Engineering of Metering Systems Evidence with dynamic in house test: Acceptance Criteria 27 Best Practice in the Engineering of Metering Systems Evidence with test on site if properly foreseen by the engineering: Acceptance Criteria 28 Best Practice in the Engineering of Metering Systems Lesson & Learned 29 Best Practice in the Engineering of Metering Systems Lesson & Learned 30 Best Practice in the Engineering of Metering Systems 31
