1 / 11

Plan Approach and Underlying Principles

Northeast Utilities (NSTAR Electric and Western Mass Electric) Planning and Decision Making on Grid Facing Investments January 14, 2013. Plan Approach and Underlying Principles. Results of planning process must meet obligation to provide safe and reliable service to our customers

kirti
Download Presentation

Plan Approach and Underlying Principles

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Northeast Utilities(NSTAR Electric and Western Mass Electric)Planning and Decision Making on Grid Facing InvestmentsJanuary 14, 2013

  2. Plan Approach and Underlying Principles • Results of planning process must meet obligation to provide safe and reliable service to our customers • To achieve this objective, both companies adhere to established engineering optimum design guidelines

  3. Optimum Engineering Design Framework • Developed based on a comprehensive engineering assessment and review of infrastructure and assets • Established criteria for system design and operation • Formal guidelines and framework followed by Engineering in the identification and recommendation of projects and solutions

  4. Project Selection Methodology Objectives • Probabilistic Assessment focused on Expected Energy at Risk and Customer Reliability Improvements (MBI / CAIDI) • Defines the magnitude and duration of customer interruptions • Reliability Projects – Measures the degree which the project will reduce the frequency or duration of an outage based on the historical performance of the system • Capacity Projects – Evaluates the extent of overloads and amount of load at risk • Highest value (impact and probability) for the lowest unit cost • Minimize Frequency and Duration of Outages • Improve Customer Service & Satisfaction • Adhere to Safety & Environmental Standards • Maximize Cost-Effectiveness of Investment Capital Project Assessment Process

  5. Project Selection Methodology • The process evaluates the customer service impact and considers expenditure to create a cost benefit analysis • Other Considerations used in the Project Selection Process: • Municipal or DPU Commitments • Communities with historically lower reliability performance (low months between outage) • Effect of outages on customers (Significant hardship versus minimal impact) • Environmental and safety concerns • Asset age and performance • Service quality metrics

  6. Project Selection Methodology • Selection and prioritization process does not accommodate all types of projects • Examples of such projects include: • OHSA Mandated Modifications • Acts of Public Authority • Distribution Generation Interconnections • Purchase of Spare Equipment • New Customer Connections and Equipment Failures • CPSL (NSTAR) • Urban Grid Monitoring (NSTAR) • Massachusetts Broadband Initiative (WMECO)

  7. Overview of the Distribution, Substation & Transmission Planning Projects • Based on the Distribution Planning Criteria, NSTAR Electric and Western Mass Electric develop a program-based plan that addresses reliability, capacity, and new customer development • Reliability Enhancements • SQI Programs • Major Outage Drivers • Vegetation • Direct buried cable in older Underground Residential Areas (URDs) • Areas of Concern • Customers Experiencing Multiple Interruptions (CEMI) • Network feeders impact due to steam leaks • Transformer and Breaker Replacements • Acts of Public Authority • Distributed Generation Interconnections • New Customer Connect

  8. Overview of the Distribution, Substation & Transmission Planning Projects • Meet NERC/NPCC Transmission Standards • Program Initiatives • Distribution Automation • Auto Restoration • New Technologies: Triple Single Reclosers, Trip Savers, Automatic Customer Outage Reporting Initiative • Vegetation Management • URD System • Split Fiber Main System • DSS Line System • Network System • Urban Grid Monitoring • 4kV Underground System • CPSL

  9. Introduction of New Technologies Process Overview for Due Diligence Identify Need Evaluate Technology Solutions Field Testing Proof of Concept Develop Standard/Training 4 5 1 2 3 • Reliability Enhancements • Maintain System Integrity • Risk assessment, worker safety, cyber-security go-no-go evaluation • Trade shows • Membership in leading research organizations (i.e., EPRI, IEEE, AEIC, etc.) and application center (i.e., NEETRAC) • Approved vendor list • Integration evaluation, testing, work practices • Feedback from work force • Meetings with vendors to discuss pro and con decision to move forward • Controlled installation (quantity & duration) for field testing and education • Create construction and work method standards • Prepare training material and train all stakeholders • Submit for Work Plan submittal

  10. NSTAR Electric Example: Implementation of New Technology • Leverage use of Automated Reclosers in the interconnection of Distributed Generation facilities to reduce cost & complexity associated with transfer trip schemes • Remote monitoring of the amount of generation interconnected to the utility • Automatic disconnect after 90sec loss of voltage due to feeder loss • Supervisory control to re-establish interconnection by remotely closing the Recloser upon return of the Normal Supply

  11. In Summary • Comprehensive planning process focused on improving reliability and customer service • Cost / Benefit analysis is an input to the process • Focus is on the lowest cost for the right solution • New market technologies are considered and implemented based on impact to system reliability, customer service and safety

More Related