Logo primary
Logo secondary
Strawberry Fields Eco Lodge
Strawberry Fields Eco Lodge
Details
Commenced:
01/08/2007
Submitted:
15/02/2011
Last updated:
23/10/2015
Location:
PO Box 14, Karat Konso, SNNPRS, ET
Phone:
+251 912 21 46 87
Website:
www.permalodge.org
Climate zone:
Dry Tropical





My Projects

(projects i'm involved in)

Strawberry Fields Eco Lodge

Strawberry Fields Eco Lodge

Karat Konso, ET


Followers
Abdullah Nugent Abdur-Rahman McCausland Alex Clifton Alexandra Dryer Alice Gray Alicia Cheatwood Andrew Bakonyi Andrew Cronin Anita Blanco AnnabelleFlynn AnnabelleFlynn Audrey Billings Aurelia Weintz Benjamin Humphrey Benjamin Vidmar Bettie Galyon Betty Khoury Betty Sullivan Brown Charlotte Camille Messer CamiWille CamiWille Chelsea Poole Chief Phillip 'Cloudpiler' Landis Cynthia Jones David Perry David Rivera Ospina eric seider Erika Acosta Erika Huggard Erin Dumbauld Erin Katz Erle Rahaman-Noronha Evelyn Bishop Geoff Lawton Gurjeet Kaur Hannes Dettmann Helder Valente Helena Tokarz Hema Wu Hillary Farm Hubert de Kalbermatten Inga Härmälä Iordanis Charalampides Iraz Candas Jackie Lehn James Reid Jeff Reidl Jessie Bennette João Gonçalves John Clarke Karen Tellier Katherine Rogers Kathy Bowing Khulthum Russell Kirsten Bradley Krystal Rix Laurie J Sykes Leah Aucoin Leigh Brown Levi Maxwell LindaDorado LindaDorado Lu Zhao Ludovic Bourdon Lynn Berry Lynn DeVlieg Manuel Gross Margaret Roark Marie Jones Marilyn McHugh Marsha Shack Mary Coyle Mateo Barile Matka Satta Matthias Geßmann Maximilian  Loesch Mei Sherman Melissa Andrews Melody Slifer Michael Beltz Michel Thill Misty Coruscate murat  çölkesen Mustafa Fatih Bakir Nick Sikorski Nicolas Netien Nicole Caran Nono Wong Ollie Cline Paul Ciaramitaro Paul Tan Phyllis Carr Phyllis Sutton Ras Binghi Iword (Eddie) Nicholls Régis Grosset Robin Tierney Rodrigo Quiros Roger Zurcher Ryan King Sara Sevi Sarahc SarahCrim Sarvesvara Dasa Sasidhar Revuri Savio A. Crasto Sherri White Silke Burger Simon Addison Sonya Babineau Stephanie (Vetiver) Blennerhassett Tamás Turcsán Tasha Roberts Tegegne Tefera Timothy McKenzie Tom Kendall Tristan Davis Tyagaraja Welch Valeria Andrews Vanessa Monge Augusto Fernandes Vic Gaffney Viktor gruber Yolanda Jackson

Back to Strawberry Fields Eco Lodge

Hybrid Solar-Compost Powered Water Heating System (Ethiopia)

Project: Strawberry Fields Eco Lodge

Posted by Abdur-Rahman McCausland almost 12 years ago

We are planning to implement this new hybrid system during our internship here in April-May 2013.

As an Eco-Lodge, showers are obviously an important facility which guests have certain expectations about. Our lodging facilities are comprised of local thatched circular huts which are wooden framed with mud rendered walls. We had originally planned to put showers inside the rooms. However, we changed our minds about this due to the potential problems of having a regular water source inside a grass, wood and mud house in our environment, relating to dampness, smells and decay, the latter being greatly accelerated by the presence of termites, where moisture is available in moderate amounts.

Being somewhat budget constrained, we had to develop a design of shower on our site that would be cheap, but also durable on an unstable soil base, easy to clean and maintain and provide adequate privacy. Hence we designed and constructed a simple 3m x 4m shower block with reinforced slab-concrete foundation, tin roof and bamboo screen walls which houses two showers. Three shower blocks were constructed in July-August 2009 and a fourth in December 2010. Prior to this there were only bucket showers improvised using bamboo screen and lining the ground with sand and rocks. This was very unsatisfactory for many guests who demanded an over-head shower, ideally with hot water.

With the new shower blocks installed, most guests were happier about the facilities. However, we still only had cold water. As an off-grid project with only a couple of hundred watts of solar we had to find a suitable way to heat water for our guests. In 2010 we developed our compost heating system which we previously reported on. Very simply, a 200L oil drum is plumbed into the water system on its side and a compost heap built over the barrel.

The good things about this system are:

  1. You get lots of compost (which we are making anyway – so may as well use the heat).
  2. the barrel can be at ground level since the head pressure from the main tank pushes water through it (cold goes in at the bottom and hot comes out at the top), so no need have the barrel raised up in the air.
  3. No need to insulate the barrel – the heap both heats it and keeps it hot.

The system has allowed us to heat water, produce large amounts of compost for our garden and also to establish nuclei of plant growth at points on the site where the showers are located, where it would otherwise be very difficult to establish productive species. All our showers have grey water soakage pits planted with banana, sugar cane, papaya and sweet potato. You can see the heap in the photo above, wrapped in a white tarp next to the shower.

However this system also has several disadvantages:

  1. The heaps usually remain hot for only five days to a week before they need to be turned or they cool down. This means you have to take the compost off and then put it back on again, i.e. turn it twice, which is a lot of work, or turn it off and make a new one on the barrel, which is also a lot of work and you lose a lot of the potential heat as the first heap heats up again after being turned off the barrel. So the system needs a lot of labour to maintain it, which is fine if you have a lot of labour and need a lot of compost (which we do, in fact) but there are times when we may be busy doing something else and end up with cold showers, which is not fine for our guests.
  2. The barrels tend to get corroded very fast by the compost and end up leaking quite frequently and it’s amazing that painting with enamel paints etc. only seem to stave this off temporarily.

So we’ve been applying that last little loop at the end of the design process (Monitor, Evaluate, Tweak) to this matter. One of the PC design principles is that important functions should be supported by multiple elements. So we should really have a back-up heat source for our shower water — since it is important for our guests to be able to get a hot shower any time. So I think we’ve conceptualised a good system that can overcome both the problems above without being too technically complex to engineer on site with locally available materials.

The alternative heat source we hit on is the sun, which makes sense in Africa. The advantage of heat from the sun is that there is no labour requirement at all.

Disadvantages are:

  1. The sun only shines in the day time – so you have to store the heat for night/early morning for as long as 12-14 hours.
  2. The sun moves about so the heating surface has to be out of the path of shadows or it may be shaded for part of the day.
  3. In cloudy conditions it may not work at all.

In terms of combining solar heating with compost heating, we have the following points to consider:

  1. You can’t heat a barrel with sunlight when it’s in the middle of a compost heap.
  2. Compost heaps are best at ground level.
  3. A solar catching surface is best at roof level where it will avoid shadows.
  4. Hot water rises due to lower density than cold water – so a convection loop can be set up which will transfer hot water into an insulated container from a heat source which is lower down than the container itself – hence if the solar heater is at roof height the container will have to be as high or higher.

Hence the system design comes out like this:

Alternatives we considered were to have the container inside the compost heap with the solar heater transferring heat into the container from outside – but this had several flaws:

  1. The heat of the container may get too hot and cook the compost.
  2. The heap has to be at ground level so the solar heater would also have to be at ground level making it liable to be shadowed by surrounding vegetation and structures.

Overall this system design seems to combine the best set of positives, though there are some disadvantages:

  1. The container has to be raised up off the ground and supported at roof level. We can do this on the roof of the shower, but we will have to assess whether this will be structurally feasible or we will have to build a separate stand for the hot water tank (note that the hot water tank must also be lower than the main reservoir or it won’t fill up!).
  2. The reservoir itself, as well as the up-flow section of the convection loop, must be insulated to stop heat loss between the heat source and the reservoir. Since this system is not likely to produce temperatures which will cause combustion of organic material we can use natural materials for this such as cotton buds (which we have plenty of) though they will have to be water-proofed from the outside so they don’t get wet and go rotten.

The advantages are:

  1. In the dry season when compost heaps tend to dry out fast, there is plenty of sun, so even if the staff get slack in keeping the heap moist, there will be plenty of hot water from solar.
  2. In the rainy season the converse will be true.
  3. The system won’t heat up the compost heap because if the hot tank water gets hotter than the heap, the convection loop will just stop functioning – i.e. the hottest water stays at the highest point.
  4. Perhaps the best advantage is that the heating element can be plumbed in with a flexible pipe so that it can be moved. This will allow us to turn the heap between two spots and shift the heating element as we turn the heap – hence the heap can be turned two or three times allowing us to get more heat out of a single compost heap without additional labour.

Materials

We are planning to implement the system using 1" poly-pipe. The heating elements will comprise 8 x 1" pipe sections which are 1m long. They are joined in a row by 7 x 1" T-joints and 2 x 1" elbow joints as shown below:

The T-joints and elbows are connected by 1" nipples. The element needs to lie at a slant, with the outflow end elevated above the (cold) inflow end. The hot water container will comprise a 100 litre plastic drum – easily available in this area. It will be sealed shut by cementing the lid on with copious PVC adhesive. The fittings for the heating element’s inflow and outflow will be attached by heating them and then melting them into the plastic walls of the barrel. This creates a good seal. Any leaks after this can be sealed with silicone. Separate inflow and outflow fittings will be attached so that the hot water exits from the top of the barrel to the shower and the cold water from the main reservoir enters the barrel from the bottom, without affecting the flow of water through the convection loop circuit – i.e. four fittings will be plumbed into the barrel. Once this is done the 100l barrel will be placed inside a larger 150l barrel and the space between the two filled with cotton buds – which insulate the heat. The up-flow (hot) section of the convection circuit will be insulated by coating in cotton buds wrapped in polythene and sealed with gaffer tape (duct-tape).

So that is the tweaked design for our shower water heating system. We are also planning on developing a new hot water system for our kitchen, which will produce hotter water for cooking with, using the waste heat from our wood-stove. I will tell you about this in a subsequent update.

These are just two of the appropriate technology systems we are developing at our demonstration site and planning to install in April-May during our 4-week internship program. You could be one of the people here to help us and learn-by-doing how to implement systems like this, at our PRI Master Plan demonstration site in Konso, South Ethiopia.

Hope to see you here!

Comments (3)

You must be logged in to comment.

Paul Kile
Paul Kile : I recommend you talk to Josh at D-Acres re hot showers. Theis established Permaculture homestead and educational farm has solar hot water showers using a very simple tank in a solar box that operates for the staff and guests in the summer. He could fill you in on the insulation/tank/intake and outlet pipes, etc. May save you a lot of effort and money.
Posted almost 12 years ago

Report Paul Kile on Hybrid Solar-Compost Powered Water Heating System (Ethiopia)

Reason:

or cancel

Paul Kile
Paul Kile : http://www.dacres.org/
Posted almost 12 years ago

Report Paul Kile on Hybrid Solar-Compost Powered Water Heating System (Ethiopia)

Reason:

or cancel

Robert Hones
Robert Hones : Due to our fairly limited budget, we had to create a shower design for our site that would be affordable, sturdy on a base of unstable soil, simple to clean and maintain, and offer sufficient seclusion. | concrete near me
Posted about 1 year ago

Report Robert Hones on Hybrid Solar-Compost Powered Water Heating System (Ethiopia)

Reason:

or cancel

Courses Taught Here!
Project Badges
Rural Commercial Intentional School Demonstration Educational
Administrators
Abdur-Rahman McCausland - Admin
Team Members

Report Strawberry Fields Eco Lodge

Reason:

or cancel

Hide Strawberry Fields Eco Lodge

Reason:

or cancel

Hide Hybrid Solar-Compost Powered Water Heating System (Ethiopia)

Reason:

or cancel

Legend of Badges

Note: The various badges displayed in people profiles are largely honesty-based self-proclamations by the individuals themselves. There are reporting functions users can use if they know of blatant misrepresentation (for both people and projects). Legitimacy, competency and reputation for all people and projects can be evidenced and/or developed through their providing regular updates on permaculture work they’re involved in, before/after photographs, etc. A spirit of objective nurturing of both people and projects through knowledge/encouragement/inspiration/resource sharing is the aim of the Worldwide Permaculture Network.

Member

Member

A member is a permaculturist who has never taken a PDC course. These cannot become PDC teachers. Members may be novice or highly experienced permaculturists or anywhere in between. Watch their updates for evaluation.

Male memberFemale member

Permaculture Matchmaker

One of these badges will show if you select your gender and the "I'm single, looking for a permaculture partner" option in your profile.

unverified

PDC

People who claim to have taken a Permaculture Design Certificate (PDC) course somewhere in the world.

verified

PDC Verified

People who have entered an email address for the teacher of their PDC course, and have had their PDC status verified by that teacher. Watch their updates for evaluation.

pri_verified

PRI PDC

People who’ve taken a Permaculture Research Institute PDC somewhere in the world.

pdc_teacher

PDC Teacher

People who claim to teach some version of PDC somewhere in the world.

pri_teacher

PRI Teacher

With the exception of the ‘Member’ who has never taken a PDC, all of the above can apply to become a PRI PDC Teacher. PRI PDC Teachers are those who the PRI recognise, through a vetting board, as determined and competent to teach the full 72-hour course as developed by Permaculture founder Bill Mollison – covering all the topics of The Designers’ Manual as well as possible (i.e. not cherry picking only aspects the teacher feels most interested or competent in). Such teachers also commit to focussing on the design science, and not including subjective spiritual/metaphysical elements. The reason these items are not included in the PDC curriculum is because they are “belief” based. Permaculture Design education concerns itself with teaching good design based on strategies and techniques which are scientifically provable.

PRI PDC Teachers may be given teaching and/or consultancy offerings as they become available as the network grows.

pri_teacher

Aid Worker

The individual with this badge is indicating they are, have, or would like to be involved in permaculture aid work. As such, the individual may or may not have permaculture aid worker experience. Watch their updates for evaluation.

pri_teacher

Consultant

The individual with this badge is indicating they are, have, or would like to do paid permaculture design consultancy work. As such, the individual may or may not have permaculture consultancy experience. Watch their updates for evaluation.

community

Community Project

Community projects are projects that help develop sustainable community interaction and increase localised resiliency.

Report Hybrid Solar-Compost Powered Water Heating System (Ethiopia)

Reason:

or cancel