Case Study
YEARLY BENEFIT - £70,908 SHEBBEAR 20 YEAR BENEFIT - £1,418,161 COLLEGE BIOMASS
THE CLIENT
Shebbear College is an independent UK school; a co-educational day and boarding school for boys and girls aged 3 to 18, located in rural North Devon. It is a member of the Methodist Group of Schools and Christian values permeate all that they do, with the Chapel being a focal point in College life.
The College believes that traditional values strengthen an individual’s self-discipline and character, providing an awareness of the world and others, equipping young people for their lives beyond Shebbear. They emphasise Christian values, fostering responsibility, tolerance, commitment and respect, both for the individual and for society.
Shebbear College seeks to prepare all its pupils for adult life by challenging and expanding young minds and in teaching both personal and social responsibility. They take great pride not only in their pupils’ academic successes but also in the well-rounded, caring and well-motivated young adults who have a clear knowledge of right and wrong and who are comfortable and confident in their surroundings. THE CHALLENGE
IU Energy were asked to design a biomass solution that would supply heat and hot water to eight separate blocks via two independent underground distribution networks.
Each of the blocks needed a local control extension, electronically linking to its respective Biomass Boiler. These control extensions would control each building’s water heating pumps and valves, distributing heat using existing radiator systems and controlling hot water generation.
This advanced control technology would need a number of internal and external sensors, modulating the required heat supply and intensity to suit each building’s current demand, thus increasing system efficiency across the site. As well as the control benefits, the system needed to be simple to use, with the user interface accessible via an internet portal allowing monitoring and parameter changes to be made remotely, with automatic fault notification via email. Case Study
THE SOLUTION
At the heart of this large system, IU Energy designed, supplied and installed a biomass energy centre. The bespoke system consists of two ETA Hack 199kW boilers with a 5x5m twin woodchip agitator.
Each boiler has a stand-alone hydraulic system supplying heating water to a 2200l ETA accumulator tank with an RHI approved heat meter measuring total generation from each boiler.
We also installed 2 x 160kW oil boilers, supplying heating water to the ETA accumulator tanks to be utilised either during peak load or as back-up to the biomass in the event of a fault.
Heating water is exported via a variable temperature export circuit to highly insulated underground pipelines which IU Energy also laid, supplying the eight separate blocks on the site. We also carried out extensive work in each of the eight blocks in order to optimise the system for maximum efficiency.
An ETA touch screen control system was installed to operate the boiler combustion and components, as well as all the peripheral pumps, valves and sensors. This advanced control technology uses data from across the site to calculate and modulate the required heat demand, thus reducing export temperatures throughout the underground pipeline network and increasing overall system efficiency. The control systems intuitive user interface is also accessible remotely. As part of our standard service, IU Energy also prepared and submitted the RHI application to OFGEM on behalf of the College. THE RESULTS
The entire system was delivered on-time, within budget. The system is yielding the following results –
Total cost benefit over twenty years £1,418,161 Total annual cost benefit - £70,908 System Payback - 4.3 years
For more information on Shebbear College, please visit www.shebbearcollege.co.uk