Pure solar water: Generating Clean Drinking Water from Air

The leapfrog in solar panels technology addresses the global issue of water supply by providing clean, drinkable water. Think about it, we are all surrounded by air, a form of vapour, water’s gaseous, evaporated state. A new form of solar atmospheric water generators attempts to harness the power of the sun and create clean, drinkable water from the air.

The new type of solar panel could turn moisture in the air to clean drinking water and would be a big boon to families in cities like Guayaquil, Ecuador where there are no city pipes. It could save time for the women in sub-Saharan African who spend an estimated 40 billion hours a year collecting water. The clean water generated could eliminate water-borne diseases.

The new solar panels, which are not for retail sale yet, can be installed at home or office. The panels are said to be self-contained and work on a special membrane which can absorb the water molecules. The water is then treated with minerals to add fresh taste and then stored in on-board reservoirs.

What is the underlying premise of creating clean water? The material which is created reportedly can absorb water from the air. What would happen if you leave a bowl of salt open? It would become clumpy due to the moisture. The solar panel works on the same premise, where the water is evaporated to purify it, and further remove pollutants.

The solar panel technology would cost around $2,900, with no installation costs, and produce around ten small water bottles daily, and is expected to last for around ten years. A single panel could reportedly provide cooking water for a family of four inclusive of hospitals or businesses, which can be scaled up with the use of multiple panels.

When are we getting this new technology in Ghana? We dont know for now

 

Source: SolarPower.com Editorial Team


Erratic power supply AKA Dumsor has always been hot topic these past few  years .Pronounced “doom-sore” (or more appropriately dum sɔ, “off and on”) is a popular Ghanaian term used to describe persistent, irregular and unpredictable electric power outages. Everybody from businesses to households has been affected one way or the other. In addition to this most Ghana residents have had to spend 200-300% more than what they used to spend on electricity five years ago.

2016 is an election year in Ghana and I hear lot of promises from political parties and politicians alike. These promises include, good roads, education, health, jobs and of course Energy .

Thousands of Ghanaians attended the much anticipated ‘Dumsor must stop vigil’ in Accra on Saturday.

The protestors clad in red and black outfits marched from the Total Filling station opposite the University of Ghana to the Tetteh Quarshie Interchange here in the Greater Accra Region.

The vigil was led by Yvonne Nelson and other celebrities such as Efya, DKB, Sydney,Van Vicker and a host of others. Watch the the video here 

Can we be brutally honest with each other as Ghana residents?

  • Our energy demands have risen over the years and we require more capacity
  • Energy prices have risen all over the world and reliance on only hydro isn’t sufficient for Ghana anymore
  • There is no political party that can reduce electricity tariffs to rates that were being paid 5-10 years ago. Even if anybody tried, it wouldn’t be sustainable
  • Electricity prices will continue to rise in the coming years and the time to change our mindset is now
  • Ghana needs a serious national policy plan /implementation on energy matters
  • All the are above play a key role in Dumsor

 

I have to admit times are pretty hard in Ghana these days. A lot of people are unable to pay their utility bills. Some have actually resorted to either connecting utilities illegally or using less. Many people in Ghana have been caught, some of them being foreign businesses and all .I also know a few people who switch off their refrigerators or deep freezers at night.

Another interesting fact is that for those who are buying new electrical appliances, price becomes the most important or deciding factor so much  such that efficiency is thrown out of the window.

While interacting with people we get these statements quite frequently: So you tell people to use less electricity and conserve it?” or “Your website has ideas on how to buy appliances, how does that relate to saving electricity?” The easiest way to save energy (or electricity) is to use less of it, but we have to be realistic in our approach. Our lifestyles are changing, and with increased pace of development, our need for appliances is increasing and so is our need for energy.  Thus the ideal mix to save energy will involve both conservation and efficiency. Now let us look at what is the difference between the two.

Dumsor:The politrix of Energy Efficiency VS Conservation

kicking dumsor out of Ghana

What is Energy Conservation?

Whenever you use less of something that means that you are trying to conserve it. So if you use a 1100cc vehicle instead of a V8 vehicle, it means that you are trying to conserve fuel (among many other reasons why you would prefer to use 1100CC over a V8 motor vehicle). If you switch off lights when they are not needed, then you are conserving energy. When you increase the temperature at which you operate your air conditioner from say, 24 degrees to 25 degrees, you are conserving energy. You also conserve energy when you switch off your DSTV decoder boxes and TVs when they are not in use.

Energy Conservation is all about using energy only when it is required and using it as much as needed for the job and not wasting any amount of it. It requires a conscious effort from the user of energy to make sure that there is no wastage on a regular basis. It requires a lot of behavioral change and needs effort. It may not need any investment always.

So what is Energy Efficiency?

Energy efficiency in contrast means using lesser energy to do the same job. When you buy a car that gives more mileage, you use less fuel to travel the same distance. When you buy a 5 star rated air conditioner instead of a 3 or 2 star rated air conditioner, it means that for the same usage and in same conditions, you use less electricity (for the same temperature at which you operate them). If you use a 5 star rated air conditioner at higher temperature, you double the effect and combine energy efficiency with energy conservation.

Energy efficiency has more impact on your personal finances. An efficient appliance may cost more than an inefficient appliance. Although the additional capital cost may get recovered in form of electricity savings. Energy efficiency may not require physical effort but requires change in people’s buying patterns. It requires knowledge of various products and their efficiencies. If people start buying more of efficient products, manufacturers will start producing more of them.

Conclusion

Both energy efficiency and energy conservation have the same goal.That is  to save energy and the same impact: saves money. Both can individually save energy but when coupled together can save double the amount of energy and money. It depends on your choices as to which one you like to do. A good mix of the two can ensure high savings with low investments and efforts. Finally ,going solar is a brilliant way to achieve all this in a single  move by trying  out our mini off-grid solar packages All these efforts will go a long way in curbing  Dumsor


Solar PV Power Paradigm Shift- The Ghana case.I am not that kind of a man, but I have been in the company of other men who in the midst of challenges rather saw them as opportunities to change the paradigm.

I strongly believe that very few energy planners and experts would disagree that Energy Independence for Ghana is an important, even urgent, goal.

But the question remains, is shifting the energy paradigm realistic; and if so, how?

And do our politicians and related institutions have the needed passion and spirit to embrace the new paradigm in our energy sector?

In recent years it has become so glaring that the conventional energy paradigm (fossil fuel tradition) has rapidly lost ground in comparison to the concept of Sustainable Development, as it is based on the intensive use of non-renewable fossil fuels — causing environmental degradation and posing Global Energy Security Risks.

Thus, a modification in our energy paradigm is necessary for our energy independence. A paradigm shift in the goals of energy policy should take place: toward independence, security of supply and climate change. Transition to a sustainable energy system is one of the critical challenges humankind faces in achieving energy independence in the new millennium.

Ghana is a country that has unbelievable solar energy potential; but, sadly, solar energy sources contribute only 0.1% (on-grid+ off-grid) of the total installed capacity for the total installed power capacity of 2104.5 MW in Ghana. (VRA: Facts & Figures).

Some people may say I am overly obsessed with the idea of solar energy for our small but incredibly energy-resource-rich nation.

It’s true – I am! But is it practical for Ghana to actually pursue this objective?

Talking of our potential, Wa — capital of the Upper West Region — has the highest level of solar irradiation (5.524 KWh/m2-day) across the country.

May is the month with the highest solar irradiation (5.897 KWh/m2-day), with August recording the lowest measurement (4.937kWh/m2-day) in Wa.

Akim Oda, conversely, is the location that records the lowest radiation (4.567kWh/m2-day) measurements across the country.

The highest measurement in Akim Oda was recorded in the month of April (5.176kWh/m2-day) and the lowest in August (3.802kWh/m2-day). See Table 1. 

As a nation we are blessed with daily sunshine that averages 5 hours, which ranges between about 7 hours and 4 hours for the northern and southern regions of the nation respectively. Ghana also has annual average daily solar radiation of about 4.5 to 5 KWm2/day. 

Table 1: Summary of Solar irradiation in kWh/m2-day – SWERA Report

Synoptic Station Ground

(kWh/m2-day)

Satellite

(kWh/m2-day)

% Error
Kumasi 4.633 5.155 -11.3
Accra 5.060 5.180 -2.3
Navrongo 5.505 5.765 -4.7
Abetifi 5.150 5.192 -0.8
Akuse 4.814 5.58 -15.9
Wa 5.520 5.729 -3.7
Akim Oda 4.567 5.177 -13.3
Wenchi 5.020 5.093 -1.5
Ho 5.122 5.223 -2.0
Kete Krachi 5.280 5.345 -1.3
Takoradi 5.011 5.200 -3.8
Yendi 5.370 5.632 -4.8
Bole 5.323 5.570 -4.6

 

Anti-islanding made easy: the anti-islanding box The anti-islanding box is a complete pre-wired and easy to install anti-islanding device consisting of a Ziehl anti-islanding relay (model UFR1001E or model SPI1021), the required circuit breakers and a 63A contactor. For specifications of the Ziehl relay

Anti-islanding made easy: the anti-islanding box
The anti-islanding box is a complete pre-wired and easy to install requured by law in certain countries for net meteringinstallations

Assuming we are to use only 23,854km² which is 10% of the total land area (238,585 km²) of Ghana to harness the sun’s energy with PV panels of 15% conversion efficiency, then Ghana would harvest 4,114 TerraWattHours of energy per year. 

This amount is equal to 2.42billion barrels of oil.

Consequently, if we juxtapose this amount with our current oil production in the Jubilee Field, then it is about 27 times the current crude oil production of Ghana per year.” See Chart A on Ghana PV Output.

In Ghana, Solar PV applications are gradually receiving acceptance in most places. However, despite improvements in local Research and Development (R&D) efforts, the body of knowledge on these technologies and their market potentials is considerably inadequate.

Launching major national initiatives on these technologies — such as the President’s 200,000 solar rooftops for households — requires a robust knowledge base and capacity.

In all, PV technologies are showing increasing promise in terms of efficiency improvements and cost. The estimated lifetime of PV modules are 25 years, and this makes them exceptionally attractive for investors.

The victron 500va phoenix offgrid inverter is excellent for small offgrid solar installations.its connectible to both Apple and Android smartphones, tablets, macbooks and other devices (VE.Direct Bluetooth Smart dongle needed)

The victron 500va phoenix offgrid inverter is excellent for small offgrid solar installations.its connectible to both Apple and Android smartphones, tablets, macbooks and other devices (VE.Direct Bluetooth Smart dongle needed)

Today, except for the Solar PV Panels produced in Kpone-Tema by Strategic Power Solutions (SPS) — a subsidiary of Strategic Security Systems International Limited, almost 80% the PV modules on the Ghanaian market are imported.

Solar PV systems can be extensively used for a wide range of electrical energy requirements: including solar home systems, water pumping, refrigeration and telecommunications that will reduce the load curve of electricity demand.

It has been estimated that solar rural electrification is about 30% cheaper than the cost of grid extension to rural communities that are about 18 to 20km from the nearest grid station.

However, there are still economic and institutional obstacles that limit this ability to self-generate power. For instance, while it is practical to install solar panels on a home, it is more difficult to scale-up these systems for commercial and industrial-sized projects. Scale is a critical issue in energy generation, as with scale comes lower project costs and greater efficiency.

For privately distributed generation projects, both small and large, to make greater contributions toward our national energy independence, there needs to be continued evolution of the bold policies that first introduced grid-connection rights and net metering in our renewable energy act.

The government must as a matter of urgency assist all consumers anywhere in the country to benefit from the net-metering incentive for solar power consumers. Again, due to the high upfront cost, government must establish a renewable energy revolving credit fund whereby solar consumers can borrow money to finance solar systems without making large up-front payments and without paying high interest rates to banks or private financiers.

Also, the PURC must establish a coherent pricing tariff for distributors to buy power from private solar-farm developers. This could unlock an untapped source of clean, reliable, economical power for Ghana.

While not easy to accomplish, these advances are achievable – and, importantly, they don’t need to cost the tax payers any money. However, they depend on the political will and leadership of our energy-sector authorities.

This an original story by Maxmillian Kwarteng and has been featured on BFT online


Why your Lead Acid Battery is all Swollen Up? Working in the solar Energy industry in Ghana, I often come across several batteries that are swollen up .These mostly lead acid batteries have often than not, been purchased at very high prices not too long ago. On this particular occasion our team was conducting a survey at a prospects home in Tema when I noticed that all of her eight 100Ah batteries were swollen.

Typically a 100Ah battery will cost between $200-$300 depending on quality .In addition to this, most suppliers in Ghana give little or no warranty even though some global brands like Victron Energy give up to two year warranty on their batteries .This article aims to reveal to the public why lead acid batteries swell-up and how to avoid the problem.

Sealed lead acid batteries – both AGM and gelled electrolyte can swell up and expand sometimes. This happens due to the construction of lead acid batteries which is referred to as “recombinant”. They are constructed in such a way to allow absorption of gasses released during the chemical process inside the battery.

The positive and negative plates are placed very close together with only the thickness of the divider separating them. They are tightly secured in the cell cavity resulting in very little extra space inside the battery. When the cell plates expand, it exerts pressure on the inside walls of the battery. This situation can cause the battery case to swell resulting in possible splits and cracks at various points of the battery.

Why Do Battery Cell Plates Expand?

The cell plates most often expand due to overcharging of the battery. The battery may also expand due to shorting of the terminals of the battery. Both these situations results in heating up of the cell plates inside the battery. The lead of the cell plates has a high expansion rate when heated.

The outcome is that the battery experiences extreme pressure inside that swells up and deforms it. The swelling-up of the battery may also cause great damage to the internal components and parts.

Why your Lead Acid Battery is all Swollen Up ,How to Avoid Swelling Up of the Battery?

Overcharging or short-circuiting of the battery is the only reason for swelling up of the lead acid battery. The problem is not inherent in the battery itself. In order to avoid swelling up of the battery you need to tackle the underlying cause of the problem.

You need to follow proper instructions in charging the battery. The culprit may be that you are using a wrong charger when charging the battery. If the charger is providing too much current, this may be the cause for battery swelling up. For instance, if you used 24V charger to charge a 12V battery it will most probably result in overcharging of the battery.

Whatever the reason for overcharging of the device, the end result is the swelling up of the battery. To avoid the prospect of overcharging or short-circuiting of the battery, you need to take the following precautions:

  • Use the right type of charger that is fully compatible with the battery.
  • Ensure proper polarity when connecting the charger to the battery
  • Shield the battery terminals to avoid short-circuiting of the battery
  • Use a charger whose maximum charging capacity is lower than the battery
  • Using a good quality charger
Victron Energy Blue smart charger is a good choice for small battery banks in Ghana

Victron Energy Blue smart charger is a good choice for small battery banks in Ghana

 Battery charging tip: increase battery life with Victron 4-step adaptive charging

Victron developed the adaptive charge curve. The 4-step adaptive charge curve is the result of years of research and testing.

The Victron four-step adaptive charge curve solves the 3 main problems of the 3 step curve:

  • Battery Safe mode

In order to prevent excessive gassing, Victron has invented the ‘Battery Safe Mode’. The battery Safe Mode will limit the rate of voltage increase once the gassing voltage has been reached. Research has shown that this will reduce internal gassing to a safe level.Thereby  preventing swollen battery condition

  • Variable absorption time

Based on the duration of the bulk stage, the charger calculates how long the absorption time should be in order to fully charge the battery. If the bulk time is short, this means the battery was already charged and the resulting absorption time will also be short, whereas a longer bulk time will also result in a longer absorption time.

  • Storage mode

After completion of the absorption period the battery should be fully charged, and the voltage is lowered to the float or standby level. If no discharge occurs during the next 24 hours, the voltage is reduced even further and the battery goes into storage mode. The lower storage voltage reduces corrosion of the positive plates.

Once every week the charge voltage is increased to the absorption level for a short period to compensate for self discharge (Battery Refresh mode)

The above tips will help you to prevent your battery from getting swollen up and expanding. Taking precautions will not only protect your battery from being damaged but it will also minimize the threat of fire caused due to overheating of the battery.

Click here for more information on Victron Energy AGM & Gel batteries


Victron Energy Multiplus inverter -Now improved with faster switching to grid.It can now switch much faster from inverter mode to mains mode. Combined with our high peak power ratings, this makes it possible to switch to mains mode before shutting down in an inverter overload alarm. This is especially useful in Self-consumption Hub-1 and 2 installations: it allows using an inverter/charger with a nameplate power below the system power. Victron Energy Multiplus  inverter improved: faster switching to grid

The old hardware will take approximately 8.5 seconds to switch from inverter- to charger-mode, the new hardware can do it within half a second. Some notes:

  • single phase installations will be even faster than the half a second mentioned;
  • fast switching is only possible in the 3xx firmware versions. The difference between 3xx on one hand, and 1xx and 2xx on the other hand is approximately another 0.5 second in the worst case scenario: slightly differing frequency, and inverter being 180 degrees out of sync with the grid;
  • all larger models, 3kVA and upwards, already have fast-switching since a long time;
  • do not forget the other limit to using an ‘undersized’ Victron Energy  multiplus Compact in an installation: the AC transfer capacity. Max system load may never exceed the transfer switch capacity;
  • the load-shedding functions in the self-consumption hub-1 and 2 Assistants give options to further undersize a Victron Energy  Multiplus Compact: use an external relay which is controlled via the Auxiliary output;
  • mentioned switching delays have not been measured exactly;
  • for parallel and three-phase operation, please check the Disqus comments below.

Lots of little details, but all together the conclusion is that this significantly reduces the chance of a Victron switching off in overload condition. Victron Energy  inverter improved: faster switching to grid

Availability

Despite stock and production logistics, all different models are shipping with the new hardware. Below table gives an overview of the current situation, from our main warehouse DSV in the Netherlands.