• Every self-respecting “green” house needs a draught lobby so it doesn’t lose all its inner warmth when you come through the door – so please close the door behind you before you slide open the inner door!
• To open the back door, the handle must be horizontal.
• Please close the door behind you!
• Note triple glazing and double air seals around all edges of the door.
• [Draught lobby] The door and screen are made from “Mykon”, a lightweight double skinned material that filters and reflects light into the house with a touch of magic.  We like the honeycomb hexagonal core.
• We have cut away part of the original brick wall of the house here, and replaced it 300mm of insulation and a laminated timber column. This means the cold and damp in the external brickwork stays outside and doesn’t come inside. Technically this eliminates “thermal bridging” which can cause problems even in very well insulated buildings.
• Magmatec walls tie are thermally insulating, unlike normal stainless steel wall ties which conduct 3,000 times more heat than normal building insulation.
• [Under the stairs] This is where our bicycles live, so they are easy to get at as we use them to cycle to school and to work.
• Door into the garage has double air seals to prevent air leakage.
• This is where we will garage our 24 year-old camper van – our carbon positive offset to the savings we are achieving in most other areas!
• This was the outside wall of the old house.  It is still sound, but by our standards offered very little thermal insulation.  Now as an internal wall we like it’s raw colour and texture, so it’s not plastered or painted.  It has stood here for more than 170 years, and the clay was probably dug quite locally.
• Where Kurt the bricklayer sliced through the old brickwork to form a new opening, you can see little pebbles in the clay, buried like fossils.
• [On lower stairs] There was once a window here, and you can see traces of it in the timber and steel lintel above. Gary the bricklayer has filled most of it in with reclaimed bricks from another part of the house. They have been stack-bonded like the new brickwork outside, to differentiate the old and the new. Natural lime mortar rather than cement has been used. Cement is responsible for 5% of global C02 emissions.
• Composite honeycomb landing allows natural daylight down into the ground floor hall.
• Ground floor cloaks/wc is large enough for wheelchair use and has the wc and basin at the right height. There is also a floor drain and plumbing already in place to allow a future shower so a disabled person with a bed on the ground floor could use this as their main bathroom.
• The stairs are designed to take a chairlift if we can’t manage the stairs in our old age. There is a power supply already built in ready.
• These shelves made lovingly by Eddie of Gallande Joinery on Tindal St are made from offcuts of the reclaimed timber used for the stairs. There is a recessed filter fan. The ventilation system extracts cooking odours.
• Our door handles are modern design classics by the Danish architect Arne Jacobson. They were reclaimed from another building by Gary Williams of Williams Ironmongery, or they would have gone in a skip!
• Hemp ropes for our stair handrails and sliding door handle: more renewable and less energy intensive than stainless steel. Hemp is one of the fastest growing plants known.
• Kitchen work surfaces are recycled glass100% recovered from household and commercial waste. Glass makes up around 7% of the average household dustbin and 2.5 million tonnes go to UK landfill every year. Glass is unique as it can be recycled indefinitely without loss of quality. Recycling saves 315kg of CO2 per tonne of glass melted. Our work surfaces have been supplied by Bottle Alley Glass. The framework below is reclaimed honeydew maple like our staircase.
• We cook with renewable electricity generated by our solar panels. This is an induction hob. It works by inducing a magnetic field in the iron-bottomed saucepans and is 2-3 times more efficient than most electric hobs. It also has the advantage of being as responsive as gas and very safe because there is no flame or hot ring.
• This monitor displays temperature readings, including outside and inside temperatures, the temperature in the solar panels and at three points within the hot water cylinder. We use it to tell if there’s enough solar hot water for a bath or just a shower.
• This monitor displays how much electricity our PV solar roof panels are generating, and how much electricity we are using.
• Our bathroom floors are made with recycled glass from bottle banks.
• We discovered some reclaimed 200 year-old Canadian Honeydew maple. It was the floor of a silk factory. Eddie at Gallande Joinery in Tindal St has used it to make our stairs, kitchen joinery and bedroom high door.
• Look out of the window at the reclaimed bricks (from a demolished local garage). These form a framing element to our new front elevation, the same height as Noreen’s house next door. They have been stack bonded with fine 6mm joints to match next door by Gary the bricklayer.
• Look carefully and you will see two nesting boxes for sparrows/black redstarts and two for swifts built in at the top. Sit here for long enough and you might even see the bluetits who have already moved in…
• Full height storage for all our bits and pieces.
• Sliding garage door made from local sweet chestnut laths. It is untreated and is weathering down to a natural silvery grey colour. The front door and projecting dormer window above are the same timber.
• Even our letterbox is air sealed at three different points to prevent draughts!
• The floor, wall lining and ceiling here are reclaimed 200 year-old Canadian Honeydew maple as the stairs. It had been the floor of a silk factory, and was all blackened so you couldn’t see the grain. John the carpenter lovingly put it together lining up all the joints. In places it has iridescent “bird’s eye” figuring. It has been finished with natural citrus oil and beeswax.
• Throughout the house the floors are rammed earth dug from the foundations of the house mixed with some extra red clay. The more it is walked on, the harder it gets (like the earth floor of an old barn). It has been oiled and then finished with beeswax polish. The floor holds the heat of the house, helping to keep us warm in winter and cool in summer, which is why we have no fitted carpets, just a few rugs. The little cracks and undulations in the earth floor are like the grain of natural timber (someone said it looked like red elephant hide!)
• We don’t wash the floors except for obvious spills so dirt simply becomes part of the floor! We sweep them, oil them and wax them – saves water and electricity.
• This dormer window provides a stop end to the original roof overhang, and frames our amazing view back to city centre. We watched the New Year fireworks in Centenary square from here.
• The dormer window articulates the step up in eaves height from the original roof of 103. With the first floor oriel window it relates to the rich local roofscape characterised by bay and dormer windows, and other projecting roof features.
• Our brickwork, white render and 30 degree slate grey roof (in our case solar panels!) also relates to dominant local building materials.
• The ground floor provides open-plan kitchen, living and dining areas. The tall top-lit living room allows natural light to flood down into the heart of the house, so we don’t need the lights to be on so often.
• This is our top floor studio space. It sits beneath the solar roof above. It provides a quiet contemplative tranquil space (or a space for noise if our son decides to become a rock’n’roll drummer!) as it is acoustically separated from the main living area by two floors.
• The maple strip round the edge of most rooms gives access to a floor duct with electrical power data & TV points. We hope it will accommodate future changes in wiring avoiding cabling clipped all over the place. It also avoided having to chop out the walls to put in power sockets – which would have made airtightness more difficult.
• The roof has approximately 36 square metres of PV (photo-voltaic) panels which generate electricity just like a solar-powered calculator – in fact 5150kWh/year. This is 100% renewable “green” energy. We can generate over 5kW – enough to run 300 light bulbs continuously! We will export surplus electricity to the National Grid so we are like a mini power station. From 01 April 2010 under the new government “Feed-in tariff”, we are paid 41.3p for every kW of power we generate, including the power we use ourselves!
• In this cupboard is a fan with a heat exchanger. It is called a mechanical ventilation heat recovery system (MVHR). Warm humid air is extracted from the bathrooms and kitchens and discharged to outside but 93% of the heat from the outgoing air is recovered and warms the incoming air. It also filters Birmingham grime from the air. In winter we don’t open our windows or we would loose a lot of the warmth we are trying to keep. In summer we’ll turn the fan off and just open our windows.
• Unfired hydraulically compressed earth blocks are the main load-bearing structure for the three-storey new building. (Normal clay bricks and blocks are fired at high temperatures in a kiln (energy intensive) and concrete blocks are made from cement, which is responsible for 5% of global CO2 emissions). These unfired clay blocks use waste clay too earthy to make into bricks, and they have very low embodied energy. The blocks store heat very well, and being moisture-sensitive (hygroscopic) they also help control the internal humidity. They absorb moisture when it is too humid and give it out again when it is too dry, acting like a natural air-conditioning system.
• Building with earth … balances the air humidity … stores heat … saves energy … reduces environmental pollution … is reusable … saves material and transportation costs … uses low technology … is ideal for self-help construction … preserves timber and other organic materials … absorbs pollutants … continues traditional building skills… and half the world’s population, 3 billion people on 6 continents, lives or works in buildings constructed of earth.
• This wood stove provides top-up heating and hot water for the whole house on a cloudy winter day. We expect it will only be needed for the coldest five or six weeks of the year. 80% of the heat it generates goes to our hot water cylinder store upstairs. We have not had to light the stove since 23 February, when there was still snow on the ground – ie. all our hot water has been generated from our solar panels since then, although external temperatures have been as low as -6 degrees centigrade.
• Consolar UK vacuum tube solar panels are installed on the roof. They will provide at least 70% of our annual hot water. The hot water store has a capacity of 850/1000 litres, which is about five times the size of a normal domestic hot water cylinder. In the colder months this means that the hot water generated on one sunny day can be stored to tide us through quite a few cloudy days without requiring top-up heating from the wood stove.
• This cylinder (5x average UK domestic size) takes hot water from the solar panels on the roof and from the wood-burning stove, and stores it for several days. The water is used for both hot water and also to add extra solar heat into the house through towel rails in the bathrooms.
• The original roof slates, battens, roofing felt, timber joists and purlins are all intact above your head. We have removed the old flat plaster ceiling and added a new sloping lining following the line of the roof, but set 400mm (16 inches) below the original level to create space for lots of insulation. Even though the wall line has moved in a bit there is a greater feeling of spaciousness than before.
• The triple-glazed rooflight allows extra natural light to animate the bedroom.
• The blackened reminder of the 170 years of coal fires used to heat this house.
• Our slate hearth was once part of a billiard table – can you see where the corner pockets were?
• Mirrors intensify the natural light in many of our rooms. Here our nephew counted his reflection 28 times!
• The recessed picture rails mean we don’t have to bang nails into our walls – no mess, but also no compromise on our airtightness layer.
• This projecting oriel window adds space to our smallest bedroom/study. The mirror helps to intensify the natural daylight and bounces extra morning sun-shine deep into the room and across the landing.
• Warmcel 500 insulation is used to line inside the existing front elevation of the house. It was blown in dry under pressure through a tube. Warmcel is manufactured from 100% recycled waste newspaper and has extremely low embodied energy, requiring far less energy to produce than other mainstream insulation materials. It does not contain any added formaldehyde and is free from CFCs, volatile organic compounds (VOCs) and other toxic substances. Our walls now have a U-value of 0.11 W/sqm/degC, which is about 16X better than before.
• The thicker wall construction gives two nice extras: the angled reveals, like many Georgian houses, which help natural light into the room; and also the window seats, made using the same reclaimed timber as the staircase.
• The external and side walls, both original and new, are insulated on the outside and then rendered over.
• This material is called Neopor. It is the insulation used on the outside of our original 9 inch brick walls at the rear and side, and also on the outside of our new solid clay block walls. It is fixed with special adhesive and no metal or plastic fixings that would compromise its thermal performance. It is dark grey in colour because it is made with graphite. This reflects back radiant heat into the house. Its foam structure, which traps air, also reduces conduction and convection heat losses.
• The external face of the insulation is finished with a waterproof but vapour-permeable reinforced render. Mostly white – but with some zaps of colour!
• Magmatec TeploTies made from basalt fibre have been used to tie the structure together. Wall ties stop the inner and outer brick skins of a cavity wall construction from parting company and are usually made of stainless steel. The basalt wall ties we have used conduct much less heat than steel.
• Warmcel 500 insulation has also been used to line the inside of the original roof of the house. It was blown in dry under pressure through a tube. Warmcel is manufactured from 100% recycled waste newspaper and has extremely low embodied energy. The old slates, battens, rafters and roofing felt were kept, and a new light timber framework was constructed below to support the “Intello Plus” airtight membrane, battens and ceiling. Our roofs now have a U-value of 0.08 W/sqm/degC, about 25X better than before.
• Water from the bath goes to a barrel in the garden, to be used for watering the garden.
• Low flow taps are used throughout to help us save water.
• The original front door is now a window that opens to our front garden.
• In the former coal cellar is a 2,500L rainwater harvesting tank from Rainharvesting Systems. We filter and store rainwater collected from our roof for flushing the wcs, washing clothes in the washing machine, and for a rainwater tap in the kitchen. We expect this will reduce our water consumption (which is metered) by approximately 50%. It will also reduce the amount of rainwater discharged into the drainage system.
• All our windows are triple glazed with a U-value of 0.65 W/sqm/degC, which is approximately 14X better than the original single glazed windows. Every room has at least one opening window (Enersign range from the Green Building Store) for natural ventilation in summer. In this year’s cold winter we had beautiful ice crystals growing up the outside of our windows while we were snug inside!
• Walls are finished with Glaster, a traditional lime plaster using ground up recycled glass in place of sand.
• The house has been sealed to a level 28 times better than the original using “Intello Plus” airtight membranes. These allow vapour permeability so that condensation is minimised. Research shows that limiting warm air leakage, even through concrete walls is an essential element in reducing heating needs.
• An special air-blowing machine was used on site to test work as we went along, and at completion an independent test was undertaken. This pressurised the whole house and measured the air leakage rate. The achieved Q50 airtightness rating was 0.97 m3/m2/hr – more than ten times better than the new building regulations.
• The construction stores heat to keep the house warm in winter and cool in the summer. This works like a night storage electric heater, and is called “high thermal mass” construction. Lightweight (timber) construction can overheat dramatically in hot summers.
• Dual flush toilet uses 2.6/4 litres (rather than up to 13 litres in some UK wcs). This is important as there is a large hidden energy cost in cleaning, purifying and pumping water to our homes. And here we are using rainwater collected from our roof to flush the toilets. These Ideal Standard wcs are the first seriously low water usage ones to be made in the UK.
• Views framed up into the ash tree, which gives us our summer solar shading, and over the rooftops out to the skyline of leafy Edgbaston. You can’t see it but up to your right outside is a bat box, facing north so that the nocturnal bats are not woken up too early by sunlight!
• These shutters can be closed for privacy and quiet. Or they can open to connect the space with the rest of the house, allow light in from the top-lit staircase.
• This shutter can be closed for privacy and quiet. Or it can open to connect the bedroom with the rest of the house, allowing light in from the top-lit living room and helping especially in summer to ventilate the house and keep us cool (which will be increasingly important with global warming…)
• South west facing glass, triple-glazed, allows useful solar gains in the winter when the sun angle is low. In the summer the higher angle of the sun, and the leaves on our old ash tree, will shade the glass enough to prevent overheating. Above the windows in the recess there will be insulating blinds,
• In place of tiles we used pebbles we collected on holiday on the Gower peninsular in Wales.
• This second kitchen tap is for rainwater harvested from our roof. We use it for washing down, scrubbing carrots, etc.

The original drawings submitted for planning approval are on the Birmingham City Council website as follows:-

A top-lit central stair is compressed between existing brickwork and new curved walls of textured earth construction. The first floor has a study and three bedrooms, two of which have shuttered openings overlooking the double height living area. The top floor is a single top-lit studio space. A projecting dormer on the street frontage frames the wide view north to the city centre and forms a marker in the street scene. Its position visually anchors the curved stair enclosure and forms a bookend to the untouched slate roof of the existing house.

On the street elevation, the dormer helps to bridge the step in existing roof height between this house and the next one on the south side.

From the planning application

The original house was a semi-detached solid brick construction with a large space to one side (it seems that it was going to be part of a terrace which was never finished – there is a gap in the house numbering which suggests that space was a vacant plot for another house).

The Code for Sustainable Homes is intended to cover all possible sources of carbon dioxide (and other gases which cause even more global warming) during building and using the house. Level 5 ensures that heating and lighting the home don’t contribute to global warming; Level 6 covers cooking and domestic appliances like fridges and washing machines too.

The first principle is to make everything in the house as energy-efficient as possible, so no energy is wasted. The second principle is to use the energy of the sun in various ways. The third principle is to reduce to a minimum the amount of energy used in building the property.

Measures used to meet the zero carbon standard in this house include:
- super insulation of walls, roof, doors and windows
- airtight construction (warm air seeps through ordinary walls)
- heat exchanging ventilation (warm the fresh air coming into the house using the stale air going out)
- making the most of daylight
- making the most of the warmth of the sun to warm the house
- storing the sun’s heat in the walls and a special water tank
- using “solar thermal” panels on the roof to heat water
- using “photovoltaic” panels on the roof to generate electricity. Some of this is used in the house – some is exported to the national grid, to compensate for the electricity which is imported when there is not enough sunlight. (The imported electricity comes from a wind farm, but this does not count for the Code because a future owner could change this.)
- using the most efficient electrical appliances available
- growing firewood in the garden to burn in a wood burning stove in the house. Because of all the other measures, one stove is enough for the whole house, and will only be needed on the coldest six weeks of the year. As the trees grow back, they re-absorb from the atmosphere the same amount of CO2 as the chimney emits.

The Energy Saving Trust has a more technical explanation of how Levels 5 and 6 can be applied in this PDF , and there’s a great deal squeezed into one page at greenspec.co.uk.

From today we will be adding design notes to the site to

• stimulate ideas for architects and other professionals working on zero carbon designs everywhere
• help builders and DIYers who need information on specific components to help upgrade the energy status of an existing building
• contribute to the debate on the best way forward to 2016, when Level 6 of the The Code becomes mandatory in the UK.

Comments and questions are welcome, including information about other relevant products and designs. The site is not sponsored by any manufacturer and the mention of a product which has been specified for the house does not necessarily imply it is the best available for the purpose!

Use the links in the right hand menu to help you find your way round the design notes.

Solar water heating

A Consolar vacuum tube system has been installed by the Green Shop, who also installed the photovoltaic panels.

Compressed Earth Blocks

Sumatec hydraulically compressed earth blocks are used as the main load-bearing construction for the three-storey building. Normal clay bricks and blocks are fired at high temperatures in a kiln, and concrete blocks are made for cement which is responsible for 5% of global CO2 emissions. These unfired clay blocks use waste clay which is too earthy to make into bricks, and they have very low embodied energy. The blocks store heat very well, and they can also help to moderate or control the internal humidity in the building and act as a natural air-conditioning system. They absorb moisture when it is too humid and give it out again when it is too dry.

Warmcel

Warmcel insulation is used in the new cavity being constructed inside those brick walls which will remain as outer walls. Warmcel is manufactured from 100% recycled waste newspaper and has extremely low embodied energy, requiring far less energy to produce than any other mainstream insulation material. It does not contain any added formaldehyde and is free from CFCs, volatile organic compounds (VOCs) or other toxic substances.

Rainwater harvesting

Collecting and using rainwater from a roof for toilets, laundry and the garden can reduce water consumption by up to 50%. It will also reduce the amount of water discharged into the drainage system. The water is filtered and stored below ground, using equipment from Rainharvesting Systems.

Glazing and light transmission

• Triple glazed windows
• Mykon translucent panels for internal screens and landing floor to allow light into the heart of the house

Solar Store

This takes hot water from the solar panels on the roof and (when necessary) from the small log-burning stove, and stores it for several days.

Rendering materials

• Glaster, a plaster using ground up recycled glass bound with lime
• Earth-based plaster using natural clay

Miscellaneous

• Kitchen worksurface using reprocessed recycled glass
• Floor finishes made from rammed and polished red clay dug up from the foundation excavations on the site

Tying it all together

Specifying an insulating wall tie shows the sheer attention to detail that has gone into this design. Wall ties are usually small stainless steel objects which stop the inner and outer brick skins of a cavity wall construction from parting company. In this case, a new skin is being built inside the two original brick walls which will remain as outer walls, and the TeploTies used are made from basalt fibre.

LINKS

GreenPro is an on-line with details of over 1000 green building products available in the UK. arranged in over 40 categories. It includes in-depth descriptions of every product, collated technical data and comparisons across product types.
The AECB (Sustainable Building Association) database may also be helpful. AECB is also responsible for the Carbonlite Programme, “a unique combination of research materials, technical data, training programmes, discussion forums and useful links and contacts”.