Electricity Distribution Business's (EDB) guide to the TPM

What is the Transmission Pricing Methodology?

The Transmission Pricing Methodology (TPM) is part of the Electricity Industry Participation Code 2010 (Code). The TPM determines how Transpower recovers its costs from parties who connect directly to the national electricity transmission grid (Transpower’s customers) through transmission charges. These include generators, battery owners, distributors (local lines companies) and direct consumers (large consumers with plant directly connected to the grid).

Key principles of the TPM:

The TPM is based around principles of cost reflectivity, benefit-based charging and embedding neutrality:

 

• Cost reflectivity means that transmission charges paid by each customer reflect the costs of providing transmission services to that customer. This supports efficient decision-making around consumption and supply, and, in total, enables Transpower to recover its costs.
• Benefit-based charging is about allocating the costs of transmission investments to those customers expected to benefit from each investment. This applies to connection investments, new interconnection investments, and seven specified historical interconnection investments. Most of Transpower’s other costs are shared among load customers, including distributors, through residual charges under the TPM.
• Embedding neutrality means that the TPM is designed to be largely incentive-free in terms of whether plant is connected to the grid or to a distribution network.
• For example, if a large plant (≥ 10MW) is connected to a distribution network, this will be treated as if it were a new grid connection and the “notional customer’s” new benefit-based charges will be attributed to the distributor as “host customer”. The distributor may then choose to pass these charges through to the large plant owner.

The TPM was developed to accommodate changes in technology and market conditions, and to align with a transition to cleaner energy. The connection or disconnection of a network or plant to or from the grid or a distribution network, or a change to plant that is already connected, can have consequences for transmission charges under the TPM.

Pricing timeline and key dates

Transpower’s annual pricing cycle works as follows:

• 30 June: At the end of the financial year, we 'close' the asset register. Transmission charges for the following pricing year (1 April to 31 March) are based on this snapshot; any changes after that date are processed as within-year adjustments.
• Mid-to-late September: We consult with our customers on the inputs to pricing that will apply from the start of the next pricing year (assets, demand and injection figures, adjustment events, and so on). This is so customers can be confident regarding the process and inputs used to calculate their transmission charges.
• December: We notify our customers of their transmission charges for the upcoming pricing year.
• 1 April: New pricing year begins with updated transmission charges taking effect.

What charges apply to distributors and when?

The specific charges you'll pay are:

• Connection charges – which, for shared connection assets, are based on your grid offtake or grid injection at the connection location
• Benefit-based charges (BBCs) – you will pay BBCs for some interconnection investments you benefit from at the connection location as an offtake and/or injection customer
• Residual charge – you will pay a residual charge based on the gross load on your distribution network connected at the connection location

Connection charges

Connection charges recover the cost of transmission assets that connect specific customers to the national grid (connection assets). The TPM uses a ‘deep’ connection asset definition. If a grid asset plays a role in getting electricity to or from a customer, or from or to the national grid, the customer is treated as connected to the asset even if not directly connected to it.

 

The connection charge for a connection asset is made up of:

• Asset component: Provides a return of and on our capital investment in connection assets. This component is zero if the assets are funded under a TWA
• Maintenance component: Recovers maintenance costs for connection assets
• Operating component: Recovers operating costs for connection assets.

Connection assets and Transpower Works Agreements

Where new connection assets are required to connect a customer to the grid, these are usually funded under a Transpower Works Agreement (TWA) between the customer and Transpower. The capital cost of the connection assets will be recovered through the TWA, not the TPM, but there will still be maintenance and operating cost components for the connection assets allocated to the customer under the TPM. Click here for more information about TWAs (insert anchor).

How connection charges are calculated

Connection charges are calculated on a 'pool and share' basis. The total value of the pool is based on our regulatory asset base (which is an input to the calculation of our allowable revenue under Part 4 of the Commerce Act 1986). Pooled connection asset costs are allocated to connection assets and the customers connected to them using deemed asset replacement costs, line length or switch numbers, rather than Transpower's actual cost of building, maintaining and operating specific assets. This approach smooths out connection charges over time, so that charges better reflect the service delivered to customers via the assets.

There is also a funded asset component of connection charges to address first mover disadvantage, which is not discussed in this guide. For more information about the first mover disadvantage mechanisms in the TPM, see Information Sheet – Type 1 FMD and Information Sheet – Type 2 FMD.

How connection charge components are calculated

Asset component

• The asset component is calculated for each connection asset by multiplying the asset’s replacement cost by the asset return rate (ARR). The ARR is Transpower's return of and on investments across all connection assets for the pricing year (calculated using Transpower's regulated weighted average cost of capital (WACC)) divided by the total replacement cost of all connection assets at the end of the previous financial year.
  • For a station asset (an asset located at a substation or switching station), this is calculated by multiplying the asset's replacement cost by the maintenance return rate (MRR) for stations. The MRR for stations is the average annual maintenance costs for station assets over the previous four financial years divided by the total replacement cost for those assets at the end of the previous financial year. This reflects that larger or more complex assets cost more to maintain.
  • For a line asset, this is calculated by multiplying the line length by the MRR for the line type. Four different line types are used. For each one, the MRR is the average annual maintenance costs for the line type over the previous four financial years divided by the total line length of those assets at the end of the previous financial year. This reflects that the longer a line, the more it costs to maintain it.

Maintenance component

Operating component 

• Calculated for each connection asset by multiplying the number of AC switches in the asset by the operating recovery rate (ORR). The ORR is based on total switch operating costs over the previous financial year and the total number of switches in the grid.

If a single customer is connected to the connection asset, that customer will pay the asset’s connection charge in full. 

If the connection asset is shared between customers, the asset’s connection charge is allocated to each customer based on the customer's anytime maximum demand (AMDC) or anytime maximum injection (AMIC) at the connection location, whichever is higher (AMDIC), as a proportion of all customers' AMDIC at that connection location. 

For most distributors at most connection locations, the distributor’s AMDC will be higher than its AMIC. However, if there is substantial embedded generation on the part of the distributor’s  network connected at a connection location relative to load, it is possible AMIC would be relevant to calculating the distributor’s AMDIC at that connection location.

For more information about connection charges, see Information Sheet – Connection Charges.

Benefit-Based Charges (BBCs)

BBCs recover the costs of grid investments (benefit-based investments, or BBIs) from customers in proportion to the benefit they’re expected to receive from them. BBIs are interconnection investments commissioned after 23 July 2019, plus seven specified historical investments (Appendix A BBIs).

 

The "covered cost" of a BBI comprises:

• capital costs (return on and of investment)
• opex (operating and maintenance costs) directly attributable to the BBI
• other opex reasonably attributable to the BBI (allocated share of Transpower's overhead opex)
• tax components.

The covered cost of a BBI is calculated annually and varies over time due to several factors, including asset lifecycle stage and regulated WACC. For more information, see TPM Information Sheet - BBC covered costs.

BBI allocations calculated under the TPM allocate a BBI’s covered cost to customers. There are three methods for calculating starting allocations for post-2019 BBIs:

• Simple method (for investments ≤ $30 million)
• Standard method – price-quantity (for most investments > $30 million)
• Standard method – resiliency (for investments >$30 million addressing high-impact, low-probability (HILP) risks) such as the risks of a flood removing the assets ability to function.

Simple Method

The simple method is used for smaller, post-2019 BBIs (≤$30 million) such as routine replacement of insulators and tower components. The simple method avoids complex benefits modelling of individual investments, instead using fixed allocations based on historical grid use. Simple method allocations are fixed for five-year periods, subject to specified adjustment events.The simple method allocates costs 67.5% to offtake customers (including distributors at most connection locations) and 32.5% to injection customers (generators and battery owners).

For more information, see TPM Information Sheet - BBC Simple Method.

Standard Methods

The standard methods are used for larger post-2019 BBIs (>$30 million). These involve detailed economic modelling to determine which customers benefit from the relevant BBI and in what proportions.

We use one of two standard methods, depending on the BBI:

• Price-quantity method: Used for most large interconnection investments, analysing market price and quantity impacts
• Resiliency method: Used for large interconnection investments primarily addressing HILP risks.

The price-quantity standard method uses complex modelling and power system analysis to calculate regional benefits, and then allocates those benefits to customers in the regions based on their grid offtake or injection, depending on whether the regional benefits are expected to accrue to offtake or injection customers.

The resiliency standard method uses a much simpler approach, estimating resiliency benefits based on customers’ grid offtake in the region in which the HILP risk is mitigated.

Distributors are typically modelled separately to grid-connected consumers under the price-quantity method – that is, they are typically assigned their own regional customer group and regional benefits. This is because residential and smaller commercial consumers connected to distribution networks have different load profiles and characteristics to large consumers who receive their electricity directly from the grid. Only offtake customers (including distributors at most connection locations) receive allocations under the resiliency method.

For more information, see TPM Information Sheet - BBC Standard Methods.

Appendix A BBIs

When a distributor connects to the grid at a new connection location, Transpower assesses whether the distributor will benefit from any of the Appendix A BBIs listed below based on the location. To do this, Transpower uses one or more comparator customers from Appendix A. The comparator customers will be other distributors or direct consumers.

The Electricity Authority selected seven specific historical interconnection investments (built before July 2019) to be BBIs because the Electricity Authority could identify the customers who benefit from them. The Electricity Authority set starting allocations for each such BBI and customer in Appendix A of the TPM. The Appendix A BBIs are:

• Bunnythorpe-Haywards Reconductoring Project
• Pre-July 2019 investments in the HVDC link
• Lower South Island Renewables Project (first tranche, completed 2016)
• Lower South Island Reliability Project
• North Island Grid Upgrade Project
• Upper North Island Dynamic Reactive Support Project
• Wairakei Ring Project.

The costs of all other historic (pre-July 2019) interconnection investments are recovered through residual charges.

For more information, see TPM Information Sheet - BBCs for Appendix A BBIs.

Residual Charges

Residual charges recover any remaining revenue not recovered through other transmission charges, ensuring Transpower recovers its full allowable revenue each pricing year. 

 

 This includes the costs of pre-2019 interconnection investments that are not Appendix A BBIs. We expect residual charges will decrease over time as these older investments depreciate.

investments depreciate.

Residual charges are allocated in proportion to customers’ gross load, being total load at  grid connection locations even if that load is not supplied through grid offtake. 

The gross load measurement used to allocate residual charges is lagged by up to eight years. New load does not count towards gross load for four years, then ramps up its contribution over the following four years.

The contribution of embedded generation connected to a distributor’s distribution network will count as part of the distributor’s gross load and contribute to the distributor’s residual charge. Embedded generation does not reduce a distributor’s gross load, and may increase it if the embedded generation consumes electricity when not generating.

For more information, see TPM Information Sheet - Residual Charges.

Pricing over distribution network lifecycle

Indicative pricing

New distributors are rare. Most distributors have been connected to the grid for decades. However, it is relatively common for an existing distributor to connect to the grid at a new grid connection location (for example, a new substation).

When you connect to a new connection location, your transmission charges at that connection location begin immediately (except for your residual charge attributable to that connection location, which will begin after a four-year lag).

Transpower can provide detailed indicative pricing to help you understand your likely transmission charges for projects that have reached the Investigation stage of the grid connection process. 

To get detailed indicative pricing from Transpower, you'll need to provide certain information about your proposed distribution network and its connection. If the information you provide about your project includes staged commissioning or variable output over time, we will advise the impact of these factors on indicative pricing.

Alternately, there are self-service tools available on our website, which will provide indicative pricing using Transpower's $/MWh tables, connection charge examples, and residual charge rates.

Visit Transpower's Indicative Pricing page for current estimates and tools.

Transpower Works Agreements (TWAs)

If your distribution network’s connection to the grid requires new or upgraded connection assets to enable the connection, you'll need to enter into a TWA with Transpower.

Under a TWA, Transpower agrees to build or upgrade connection assets and the customer agrees to reimburse Transpower for the capital cost of the new or upgraded connection assets (including a return on investment) through charges under the TWA. TWAs are commercial agreements separate from the TPM, and TWA charges are not transmission charges.

If the capital cost of a connection asset is reimbursed through TWA charges, the asset component of its connection charge under the TPM is zero. The customer will only pay the operating and maintenance components of the connection charge for the asset under the TPM. When the asset reaches end of life and is replaced, the customer will transition to paying a standard TPM connection charge for it, including the asset component, unless a new TWA is agreed.

For more information about the connection process and TWA requirements, visit Transpower's Grid Connection Process page.

Within-year adjustments

Your transmission charges can change after they are confirmed for a pricing year if an "adjustment event" occurs. There are different adjustment events for different transmission charges. While these adjustments may be triggered during a pricing year, charges are generally reconciled to reflect the adjustments in the following pricing year.

There is overlap between the adjustment events for different transmission charges. For example, if you connect your distribution network to the grid at a new connection location, that is an adjustment event for your connection charges and BBCs (but not your residual charge). If you sell all or part of your business that constitutes you as a customer, that is an adjustment event for your connection charges, BBCs and residual charge. 

Adjustment events are particularly significant for BBCs because BBCs are not subject to annual adjustment based on grid use, as connection charges for shared connection assets and residual charges are. BBC adjustment events include:

• Connecting a distribution network to the grid at a new connection location
• Large plant (≥10MW) connecting to or disconnecting from a distribution network
• A large (≥10MW) upgrade or de-rating of embedded plant
• Disconnecting a distribution network from the grid at a connection location.

For more information, see Information Sheet – BBC Adjustments.

Disconnection from the grid

Because distribution network or embedded plant connections or disconnections can be an adjustment event for transmission charges, it is important that you discuss your connection or disconnection plans with us as early as possible to ensure the TPM requirements are met.

If you disconnect from the grid entirely, all your transmission charges will end immediately. However, any TWA charges will continue in accordance with the relevant TWA.

For direct consumers:

• If you connect your distribution network to the grid at a new connection location, you will incur new connection charges and BBCs. After four years you will begin to incur a residual charge based on gross load on the part of your network connected at the connection location. You will also incur these charges if new large plant (≥10MW) connects to your network, or embedded plant connected to your network is upgraded by 10 MW or more.
• If you disconnect your distribution network from the grid at a connection location, your connection charges and BBCs will reduce. After four years your residual charge will begin to reduce to the extent of the gross load on the disconnected part of your network. These reductions will also occur if large plant (≥10MW) disconnects from your network, or the capacity of embedded plant connected to your network is reduced by 10 MW or more.
• The TPM contains a mechanism to ensure your grid offtake or injection is not double-counted if you switch grid connection locations.

Contact Transpower

For questions about how the TPM applies to your specific project, or to request indicative pricing, contact Transpower's Customer team or visit the click here for our contact information and resources.