Bath & North East Somerset Council - Bath - Hot Springs
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Bath - Hot Springs

Bath Street Map and Hot Springs
Protection and Water Monitoring
 

To view Hot Springs Flow Data Graph

To view Hot Springs Temperature Data Graph

To view Hot Springs Pressure Data

Bath exists because of the emergence of three natural springs in the heart of the city which deliver over 1 million litres of mineral-rich water every day. Uniquely in the UK, the mineral water is hot - it rises to the surface at a constant temperature of at least 45° C.  These springs have been, and continue to be, at the centre of economic, social and cultural developments in the City. As such, their protection is of paramount importance locally and nationally.

Bath was, in fact, charged with responsibility for the Hot Springs in a Royal Charter of 1591 granted by Elizabeth I – this duty has passed to Bath & North East Somerset Council. The springs are further protected by the 1982 County of Avon Act.

Mineralogy of Bath's Hot Springs

The analyses show that the thermal waters all contain sodium, calcium, chloride and sulphate ions in high concentrations.

The chemical composition of the spring waters has been examined over time. Although there are some small variations, in general, allowing for changes in analytical methods it has been concluded that composition has remained constant over the past century.

From: Kellaway, GA 1991

Mineral

Expressed as

Concentration (Hetling Spring)

Sodium

mg/l

195

Calcium

mg/l

358

Sulphate

mg/l

1015

Chloride

mg/l

340

Bicarbonate

mg/l

193

Magnesium

mg/l

57

Silicon

mg/l

21

Iron

mg/l

0.5

Water Monitoring Systems

The temperature and flow of the springs has been monitored for many years by the local authority (firstly Bath City Council, and currently Bath and North East Somerset Council). The data is used for monitoring the potential impact on the Springs of any development within the City of Bath. The monitoring system also provides essential data for ongoing research into the origins of the Springs.

In addition to written reports, the water flow and temperature data is now gathered in a format appropriate for publishing on the Internet, so meeting the Council's desire to provide information in an accessible way to the public.

The information here is a summary report of monitoring data collected on behalf of B&NES with the technical assistance of Zenith International. The information is updated each month.

Zenith International is based in Kingsmead Square, Bath - little more than a stone's throw from the hot springs. The Water & Environment group is one of the UK's leading teams of hydrogeologists with expertise in a whole range of groundwater and water resources projects. Their experience with the hot springs dates back to 1998 when they reviewed the old monitoring system, leading to recommendations for a much-improved and more reliable replacement. They then managed the procurement and installation of the new system and have since provided monitoring services and advice to Bath & North East Somerset Council over a number of years.

 

 

Explanatory Notes

The graphs above display flow, temperature and other physical properties of the water collected from the three Hot Springs in Bath. Namely the Kings spring, Hetling spring and Cross Spring. The data displayed is collected at 10-minute intervals by the data logging system located within the Roman Baths. The data shown for the Kings Spring is broken down into two components - The Kings (or Great) Bath and the Great Drain. The Stall Street borehole intercepts groundwater rising in the Kings Spring. The Hetling and Cross Springs are displayed separately.

The flow and temperature of the Hot Springs are known to be relatively constant.However, all of the data exhibits variations to a small degree. Most short-term changes in the recorded flows and temperatures are naturally occurring. Spring flows and temperatures also exhibit other variations. The main ones are described below:

  • The Stall Street Borehole shows frequent changes in flow and temperature. This occurs when flow to the Pump Room fountain is manually reduced or stopped, usually during concerts or other functions in the Pump Room.  
  • The Great Bath flow exhibits a slow decline with time. This happens because the pipework through which water flows to the Great Bath becomes coated with sediment from the springs. The overflow from the Kings Spring through the Great Drain shows a corresponding rise. The sum of the two flows is relatively constant as these constitute the total Kings Spring output. The flow to the Great Bath increases again whenever the pipework is cleaned.  
  • The temperatures of the Great Bath and Great Drain show variations due to daily and seasonal changes of ambient air temperature. Furthermore, if the flow rate reduces then so does temperature as the water has had more time to cool as it moves away from the spring.  
  • The Great Drain flow data exhibits "spikes" caused by rainfall. Rain also affects the temperature, pH and conductivity data recorded at some sites. Rainfall is measured and recorded so these "spikes" can be correlated with rainfall.

Other changes in the flow and temperature occur from time to time. Any significant variations are detailed and explained in the accompanying notes for each month's graphs.

 

Monthly Data: February 2012

The data for February 2012  is now available by following the links to the graphs above.

There are a number of points in the data that require brief explanation and these are detailed below:-

 

 

¨        Minor variations in flow at Cross Bath and Stall Street Borehole are due to Spa cleaning operations.

¨        Decreases in flow at Great Drain, Stall Street Borehole and Cross Bath on 8, 9 and 10th are due to drilling works.

¨        Short lived decreases in flow at Hetling Spring on 7, 13, 16, 19, 20 and 21st due to equipment error.

¨        Short lived increases and decreases in flow at Great Drain on 1, 2, 3, 7, 9 and 13th are due to equipment error.

¨        Gradual decrease in flow from 1st to 6th at Great Drain, Hetling Spring and Cross Bath due to flow testing of the Hot Bath Street Borehole.

¨        Incorrect temperature data recorded from Hetling Borehole throughout the month due to faulty electrical connections. Backup sensor (Hetling Borehole 2) installed.

¨        Incorrect short lived decreases and jumps in temperature at Hetling borehole when the sensor is removed to download the data.

¨        Gap in temperature data from Hetling Borehole 2 13-14th due to logger reset

¨        Change in temperature on 27th  at Stall Street Fountain due to change in flow for operational reasons

¨        Incorrect readings from Hetling Borehole pressure sensor throughout the month due to equipment error. Backup sensor installed.

¨        Incorrect readings from Cross Bath Inclined Borehole pressure sensor throughout the month due to equipment error. Backup sensor (Cross Bath Inclined Borehole 2) installed.

¨        Incorrect short lived decreases in pressure at Kingsmead Borehole and the backup sensors at Cross Bath Inclined and Hetling when the sensors are removed to download the data.

¨        Gap in temperature data from Hetling Borehole 2 and Cross Bath Inclined 2 on 13-14th due to logger reset.

¨        Change in pressure at Cross Bath inclined borehole, Kingsmead borehole, Stall Street Borehole and Hetling borehole on 8, 9 and 10th due to drilling work.

 

 

 

Contact Details for this page:
Team:
Building Control
Address:
Lewis House, Manvers Street, Bath, BA1 1JG
Phone:
(01225) 394112
Fax:
(01225) 477637
Email:
building_control@bathnes.gov.uk
Minicom:
Author:
 Building Control