Monthly BSUOS Forecast Summary September 15 Percent
A forecast of BSUoS containing additional costs based on a demand reduction of 15% due to COVID restrictions
CKAN Data API
Access resource data via a web API with powerful query support.
Further information in the main CKAN Data API and DataStore documentation.
The Data API can be accessed via the following actions of the CKAN action API.
Query example (first 5 results) |
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https://api.neso.energy/api/3/action/datastore_search?resource_id=f6a319e9-5423-4edb-bbae-48e61088b36a&limit=5
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Query example (via SQL statement) |
https://api.neso.energy/api/3/action/datastore_search_sql?sql=SELECT * from "f6a319e9-5423-4edb-bbae-48e61088b36a" LIMIT 5
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A simple ajax (JSONP) request to the data API using jQuery.
var data = { resource_id: 'f6a319e9-5423-4edb-bbae-48e61088b36a', // the resource id limit: 5 // get 5 results }; $.ajax({ url: 'https://api.neso.energy/api/3/action/datastore_search', data: data, dataType: 'jsonp', success: function(data) { alert('Total results found: ' + data.result.total) } });
A simple ajax (JSONP) request to the data API using jQuery.
import urllib2 url = 'https://api.neso.energy/api/3/action/datastore_search?resource_id=f6a319e9-5423-4edb-bbae-48e61088b36a&limit=5' fileobj = urllib2.urlopen(url) print fileobj.read()
Data Explorer
Data Explorer
Table Information
Month
Title | Month |
---|---|
Type | yearmonth |
Description | The month Balancing Services Use of System (BSUoS) forecasted for. |
Comment | |
Example | Apr-20 |
Unit |
Energy Imbalance (£m)
Title | Energy Imbalance |
---|---|
Type | number |
Description | Energy imbalance is the difference between the amount of energy generated in real time, the amount of energy consumed during that same time, and the amount of energy sold ahead of the generation time for that specific time period. The monthly energy imbalance cost can be negative or positive depending whether the market was predominantly long or short. |
Comment | The energy imbalance could be a positive or negative number. |
Example | 8.8247984 |
Unit | £ |
Operating Reserve (£m)
Title | Operating Reserve |
---|---|
Type | number |
Description | Positive Reserve that is managed in the BM, through trades, or SO-SO services. Positive Reserve is required to operate the transmission system securely, and provides the reserve energy required to meet the demand when there are shortfalls, due to demand changes or generation breakdowns. |
Comment | |
Example | 10.42427636 |
Unit | £ |
STOR (£m)
Title | Short Term Operating Reserve |
---|---|
Type | number |
Description | Short-term Operating Reserve (STOR) allows us to have extra power in reserve for when we need it. It helps us meet extra demand at certain times of the day or if there’s an unexpected drop in generation. |
Comment | |
Example | 7.765180802 |
Unit | £ |
Constraints - E&W (£m)
Title | Constraints - England & Wales |
---|---|
Type | number |
Description | Actions taken by the ENCC for non energy system management reasons in England and Wales. |
Comment | |
Example | 56.36084798 |
Unit | £ |
Constraints - Cheviot (£m)
Title | Constraints - Cheviot |
---|---|
Type | number |
Description | Actions taken by the ENCC for non energy system management reasons across England and Scotland border. |
Comment | |
Example | 16.31200015 |
Unit | £ |
Constraints - Scotland (£m)
Title | Constraints - Scotland |
---|---|
Type | number |
Description | Actions taken by the ENCC for non energy system management reasons in Scotland. |
Comment | |
Example | 6.444403611 |
Unit | £ |
Constraints - AS (£m)
Title | Constraints - Ancillary Services |
---|---|
Type | number |
Description | Actions taken for non energy system management reasons via balancing services contracts. |
Comment | |
Example | 0 |
Unit | £ |
Negative Reserve (£m)
Title | Negative Reserve |
---|---|
Type | number |
Description | A Negative Reserve service can provide the flexibility to reduce generation or increase demand to ensure supply and demand are balanced. The service is held in reserve to cover unforeseen fluctuations in demand, or generation from demand side PV and wind. |
Comment | |
Example | 0.219189488 |
Unit | £ |
Fast Reserve (£m)
Title | Fast Reserve |
---|---|
Type | number |
Description | Fast Reserve provides the rapid and reliable delivery of active power through an increased output from generation or a reduction in consumption from demand sources, following receipt of an electronic dispatch instruction from National Grid. Fast Reserve service must commence within two minutes following instruction, at rates of 25MW or greater per minute and providing a minimum of 50MW |
Comment | |
Example | 9.143739985 |
Unit | £ |
Response (£m)
Title | Response |
---|---|
Type | number |
Description | Response is a service we use to keep the system frequency close to 50Hz. Fast acting generation and demand services are held in readiness to manage any fluctuation in the system frequency, which could be caused by a sudden loss of generation or demand. There are three types of frequency response known as “primary”, “secondary” and “high”. The difference between primary and secondary is the speed at which they act recover the system frequency. Both primary and secondary react to low frequency conditions, and high response |
Comment | |
Example | 12.35698348 |
Unit | £ |
Other Reserve (£m)
Title | Other Reserve |
---|---|
Type | number |
Description | We currently have several other reserve services that we are not actively procuring and are under review. The aim is to move away from services procured outside of competitive mechanisms, so we do not intend to procure additional volume under the current frameworks. |
Comment | |
Example | 0.896304823 |
Unit | £ |
Reactive (£m)
Title | Reactive |
---|---|
Type | number |
Description | We manage voltage levels across the grid to make sure we stay within our operational standards and avoid damage to transmission equipment. Voltage levels are controlled by reactive power, and we pay providers to help manage voltage levels on the system by controlling the volume of reactive power that they absorb or generate. |
Comment | |
Example | 5.847700351 |
Unit | £ |
Minor Components (£m)
Title | Minor Components |
---|---|
Type | number |
Description | Any actions that don’t meet the defined rules to categorise costs. This also includes costs which are not specific to an ancillary service. |
Comment | |
Example | 0.283011476 |
Unit | £ |
Black Start (£m)
Title | Black Start |
---|---|
Type | number |
Description | Black start is the procedure we use to restore power in the event of a total or partial shutdown of the national electricity transmission system. It means we can start up each power station in turn and reconnect them to the grid one by one. In this sort of emergency, a power station can get its electricity supply from a small back-up generating plant on the same site. But not all power stations have one of these, so we have agreements with other suppliers. They help us make sure we have enough black start arrangements in place in case we need them. |
Comment | |
Example | 3.821917808 |
Unit | £ |
Total (£m)
Title | Total |
---|---|
Type | number |
Description | Total balancing cost |
Comment | |
Example | 138.7003547 |
Unit | £ |
Demand
Title | Demand |
---|---|
Type | number |
Description | Balancing Service Use of System volume |
Comment | |
Example | 45.34764753 |
Unit | £ |
Estimated Internal BSUos(£m)
Title | Estimated Internal BSUos(£m) |
---|---|
Type | number |
Description | The internal charges incurred by NGESO to fulfil system operator obligations. |
Comment | |
Example | 25.72091233 |
Unit | £ |
Esitmated NGET Profit/(Loss)
Title | Esitmated NGET Profit/(Loss) |
---|---|
Type | number |
Description | Recovery of the estimated revenue paid to NGESO under the incentive scheme. Profit is positive and a loss is represented as a negative. |
Comment | |
Example | -2.533757225 |
Unit | £ |
Esitimated BSUoS Charge (£/MWh)
Title | Esitimated BSUoS Charge (£/MWh) |
---|---|
Type | number |
Description | Estimation of BSUoS for the month. |
Comment | |
Example | 3.622845258 |
Unit | £ |
Constraints
Title | Constraints |
---|---|
Type | number |
Description | Running the transmission network also requires actions to protect equipment, enable access to the system, keep within the SQSS1 and prevent the loss of large parts of the network. In order to do this, we sometimes ask a generator to reduce, or constrain, the amount of electricity it’s producing. When we do that, we still need the electricity it would have produced – so we can balance the system – but we can’t move it in or out of a certain area. We make up the difference by buying energy from another generator in a different part of the transmission network. It can also happen the other way around: we might need to produce more energy in some areas, which means we need to reduce production elsewhere. |
Comment | |
Example | 79.11725174 |
Unit | £ |
ALoMCP
Title | Accelerated Loss of Mains Change Programme (ALoMCP) |
---|---|
Type | number |
Description | Recovery of the costs of the Accelerated Loss of Mains Change Programme (ALoMCP). For further details about the programme see the operability strategy report. |
Comment | |
Example | 2.4 |
Unit | £ |