Farm Carbon Cutting Toolkit


03.11.14 Energy generation: A view from the farm

Recently appointed FCCT director Andrew Rigg has just taken carbon saving a step further on his farm in Hampshire. An all-electric car, a Nissan Leaf Acenta has arrived in the yard.  With a supply of electricity from his 20kW ground-mounted solar panels, Andrew has not only zero emission driving, but also zero cost…..

The panels are performing well; with 10kW installed at the higher rate, and another 10kW installed in 2013 they are collectively giving a 14% return on investment from the feed in tariff. In addition to this the farm’s electricity bill has been cut by 30%. The farm is a net exporter of electricity.

Not all the solar electricity is being used on the farm. A significant amount is also being exported to the grid with no further benefit to the business. “We looked at all sorts of mad and not so mad ways of using this ‘free’ electricity” says Andrew, “and finally decided that an electric car was a good way to go. The actual financial saving from using your own electricity is not huge, but the satisfaction of this, and never visiting a petrol station again, is immense!”

The range of the Nissan Leaf is about 100 miles, so you have to do some careful planning. This is made easier by the fact that car uses GPS and the phone network to look after you and guide to available charging points on your journey. 

“It’s almost worryingly quiet, but otherwise much like driving an automatic, though in addition to having no clutch it has no gearbox either. If you switch out of ‘Eco Mode’ it has quite fast acceleration, though of course you run the battery down quicker.”

It’s pretty clear to Andrew that these cars are going to get very popular, but there is another dimension to this story.

Nissan are working on a system to use the battery in the car as storage that you can then use to power your house. A fully charged Nissan electric car battery can power the average house for two days. The technology is not quite available yet, but it is not far off. For Andrew this will be an opportunity to maximise the benefits from the solar panels, as he will be able to use his car to store electricity produced from the panels in the day, to power the house in the evening. This will further cut his electricity bill, and put an even bigger grin on his face!

29.10.14 New figures on run-off from maize stubble

Maintaining green cover on maize stubble over winter saves on Nitrogen costs.

Its that time of year again when the weather is on the turn and attention is drawn to the damage that can be done through harvesting maize and stubble management.

The Maize Growers Association has decided to advise all maize growers on management over winter.  Leaving bare maize stubble over winter either on relatively flat or sloping land, increases the risk of soil and nutrient loss either via leaching or direct run-off.

To reduce the risk of soil and / or water loss from maize fields, growers should either:

  • Rotate their maize with autumn established crops such as winter cereals / crops or grass leys
  • Follow their maize crop with an autumn established cover crop which could be grazed, cut or incorporated in the spring pre - establishment of next year's maize crop.
  • Roughly cultivate stubbles to be left uncropped

Research in the UK and on the continent confirms that such management will reduce the volumes of water, sediment and nutrient loss to the environment, if the above advice is followed.

Lost soil and nutrient is not only damaging for the environment, but also represents a financial loss.  Research suggests that in the region of 40kg of N (worth £30/ha, assuming Ammonium N price of £265 / tonne) would be retained if a green cover is maintained over winter.

Free environmental advice

The Maize Growers Association offers free advice and information to any grower on the environmental sustainability of maize growing.  For more information click here or phone 01363 775040.

Source: Maize Growers Association

24.10.14 New guidance released on good practice for solar farms

A new document was released last week which describes good practice and opportunities to manage small livestock enterprises and ground mounted solar panels concurrently. The "Agricultural Good Practice guidance for Solar Farm" has been developed by a number of UK solar farm developers and organisations concerned with agriculture as well as the NFU.

Why has this come about?

Field scale arrays of ground mounted PV panels are a relatively new development seen in Britain only since 2011. As part of the “10 Commitments” of good practice, the majority of solar farm developers actively encourage multi-purpose land use, through continued agricultural activity or agri-environmental measures that support biodiversity, yielding both economic and ecological benefits.

In many planning applications for large scale ground mounted systems it is often included that the land between and under the rows of PV modules, should be available for grazing of small livestock. There are obvious practical considerations with larger animals including horses and cattle, as well as pigs and goats which may cause damage to cabling, however sheep and free ranging poultry can be used to manage grassland surrounding the panels.

Opportunities for cutting hay or silage or strip cropping of high value vegetables or non-food crops need careful layout with regard to size of machinery, however other productive options (for example bee keeping) could be used. The aim is, that the terms of the solar farm agreement should include a grazing plan which maintains access to land by the farmer, ideally in a form that enables the farmer to claim support through the Basic Payment Scheme.

This guidance covers lots of different aspects of management for solar farms and livestock and includes:

Conservation grazing for biodiversity

  • Solar farm design and layout
  • Eligibility for CAP support and greening measures
  • Long term management, permanent grassland and SSSI designation
  • Good practice in construction and neighbourliness
  • Research needs

Case studies

As well as this it has some case studies of different farmers who are managing to successfully combine solar modules and farming including:

Benbole Farm, Wadebridge – One of the first solar farms developed in Britain in 2011, this 1.74MW installation on a 4ha site is grazed by a flock of 20 geese. A community scheme enables local residents to benefit from free domestic solar panels and other green energy projects.

Higher Hill, Somerset – A third generation farmer, installed a 5MW solar farm on his own land. Located near Glastonbury the site has been grazed by sheep since its inception in 2011.

Wyld Meadow Farm, Dorset – Farmers continue to graze their own Poll Dorset sheep on this 4.8MW solar farm established in 2012 on 11ha. The solar farm was designed to have very low visual impact locally with an agreement to ensure livestock grazing throughout the project’s lifetime.

For more information and to download the guidance click here.

24.10.14 Low carbon growing event

A one day course to understand how to reduce carbon emissions and increase carbon sequestration in horticultural systems.

Featuring Iain Tolhurst, organic grower for nearly 40 years, on how he manages carbon in his veg growing business. Jonathan Smith, Director of FCCT and co-founder of the Farm Carbon Calculator will give an understanding of how to calculate carbon footprints and manage carbon.

Venue:       Tolhurst Organic, near Pangbourne, Oxfordshire

Date:          Tuesday 11th November

Time:        10.00 - 16.00

Cost:         £38.40 for eliglble delegates, including organic lunch

To book please email Becky Willson, FCCT project co-ordinator at This e-mail address is being protected from spambots. You need JavaScript enabled to view it

The day will feature group discussion, a workshop and a farm walk. The emphasis is on gaining understanding of the important areas to focus on in your business and practical solutions to help reduce your carbon footprint.

This event is applicable to growers on all scales, whether organic or not.


10.00 Registration and coffee

10.15 Welcome and outline of day

10.30 Group - who you are, what you do, what you want to get from the day, experiences so far

11.00 Why carbon matters - Jonathan Smith

11.30 Tea break

11.45 Low carbon growing at Tolhurst Organic and workshop session - Iain Tolhurst

12.15 Examples from other horticultural farms - Jonathan Smith

12.45 Questions and discussion

13.00 Organic lunch, based on Tolhurst Organic veg

14.00 Farm walk - practical measures to reduce carbon emissions and build carbon sequestration

16.00 Finish

This event is supported by

21.10.14 Theme of the month: Energy generation

We are completely reliant on energy as farmers, from powering machinery and lighting sheds, even just moving around the farm, energy is indispensable. However international oil prices have quadrupled in the last ten years, and coal and gas prices more than doubled, and further increases are expected. There are also long term energy supply challenges as fossil fuels are used up, therefore as farmers and growers we need to take action to cushion the impact of these twin factors.

This month therefore we will be looking at energy generation, and how it can give you higher energy security, lower energy prices, lower carbon emissions and an additional income stream to the farm.  Farming is inherently by its very nature energy intensive.  Generating your own energy can give you control over price and the ability to forecast costs and introduce additional income to the farm business.

Renewable energy covers all energy from a source which is naturally replenished when used.  The main sources of renewable energy are – energy from sunlight, heat from the earth, air or water sources, plants grown for fuel (biomass or biofuel), waste and the movement of water (hydro) or wind.  

What do I need to consider?

Before installing a particular technology on-farm there are various factors that are useful to consider.

Consider your energy use – what gets used and where?

Wherever possible, reduce your energy demand through energy efficient measures before considering installing renewable energy technologies

Identify any opportunities or constraints to renewable energy on your site

Check with the local planning authorities whether there are any planning issues

Seek independent advice

Speak to others who have already installed generating equipment

Choose technologies based on suitability and fitness for purpose rather than the promise of additional income

Get quotes from different installers

On-farm renewable energy options

Renewable energy can provide power (electricity) for lighting, machinery and appliances and direct heating or cooling for sheds, farm buildings, grain storage and offices. All installations should be carried out by MCS accredited companies (Government approved installers) and the installer's financial and energy generation projections examined carefully before committing to a project.

We cover farm-use scale projects below, but we as farmers are in a unique position compared to other industries, in our ability to consider large scale projects on our land. Such projects (typically over 2MW in capacity) are technically, financially and legally distinct from smaller scale projects and require detailed, tailored advice.

Some statistics

WIND – currently we have 4570 onshore turbines, equating to a onshore capacity of 7534 MW (Renewable UK)

SOLAR PV – In August 2014 the UK reached 5GW installed capacity with the south west the leading region in terms of capacity (Regen SW)

AD - There are now over 100 AD plants (that are outside of the water industry) that are operational (WRAP).  This figure is growing rapidly.

Renewables share of electricity generation was 16.8% in 2014, up 0.9 percentage points on the share in 2013 (DECC)

So for the rest of this month, we will be looking at various issues concerning renewable energy generation on-farm, hearing from a couple of familiar faces from FCCT who generate at home, and looking at the future in terms of where we go from here.  For more information on the different technologies, do have a look at the FCCT Toolkit pages here.

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