Monthly Archives: June 2017

Haití

Haití Solar Thermal

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Devices that capture solar thermal energy range from collectors placed on the roofs to parabolic dishes or solar towers used in large systems that concentrate sunlight, produce heat and generate electricity.

Solar thermal devices are used in countries such as Haiti to:

* Solar water disinfection (SODIS)

By solar light and PET plastic bottles. UV rays exposure eliminates pathogens and bacteria providing a source of clean water and reducing water diseases transmission.

Resultado de imagen de sodis

* Solar Pasteurization

Using a solar cooker and water pasteurization indicators (WAPIs). Solar cooker heats the water and WAPI (small tubes / capsules with melting wax at 65 ° C, temperature with which viruses and bacteria die) indicates when it is suitable for consumption, saving fuel and reducing water diseases transmission.

Resultado de imagen de solar pasteurization

* Solar food dryer

Box with glazed lid and opening + mesh frames. Foods are placed in mesh racks and dried as the sun warms the box. Reduce use of fossil fuels, pollution and post-harvest losses.

Resultado de imagen de solar food dryer

* Solar kitchen

Heat trap boxes, curved concentrators and cooker panel. A device (mirror or reflective metal) concentrates light and heat inside a small cooking area. Reduce reliance on traditional fuels such as wood or coal and reduce indoor pollution.

Resultado de imagen de cocina solar

* Solar water heater

Solar thermal collector + water storage tank. Collector heats the fluid passing through it and heat is stored in the tank. Reduces reliance on traditional fuels; reduces carbon emissions and local pollution.

Resultado de imagen de solar water heater

Constant earthquakes cause many people in Haiti to live outdoor and in very bad conditions.

As they say, “here the sun never fails us.”

However, charcoal is life and scourge of Haitians. Without it, they don´t eat.

97% of the country is deforested. Each person consumes the equivalent of 500 kilograms of wood a year and an average family leaves half of their profits in firewood purchase.

Erosion is the big problem. People cut trees to survive; there is no other way to living.

This country needs a permanent solidarity commitment from international community.

An example of this is solar cooker project for Mont-Organisé.

Devices are based on solar concentration: they generate thermal energy from sunlight that passes through a lens. Energy is stored in a thermal “battery” that maintains heat for 20 hours, and therefore allows cooking at night.

Materials chosen to make the kitchens are sustainable, biodegradable and the device obviously does not need fuel.

Project is developed in collaboration with Italian Microcredit Agency, Federico II Naples University Agrarian Department, Tesla IA SRL and PACNE NGO.

In addition to financing, solar energy expansion to poor people requires a mix of scientific improvements, policy initiatives and collective action to combat climate change and energy access lack.

All you need is Sun. All you need is Sopelia.

Financiación de Proyectos

Green Projects Financing

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Many renewable energy projects have all the permits and have made the necessary (technical and economic) assessments that clearly demonstrate their great potential and cost-effectiveness.

Why aren´t they carried out ?

Simply because they don´t find the financing these kind of long term projects need.

Which projects can access affordable financing immediately ?

They are called RTB (Ready to Build), which basically count on:

* Technical and economic study
* Environmental impact assessment
* Grid connection point assigned
* PPA signed or electricity sales price fixed.

Resultado de imagen de financiación de proyectos verdes

To arrive at this categorization, initial kick is to make a terrain on which project is intended to develop evaluation respect to following variables:

– Unevenness
– Renewable resource availability
– Kms distance to paved transport routes
– Kms distance to electrical substation.

From this first analysis it is decided whether or not it is worthwhile to elaborate the project.

On June 3rd, 2017, Sopelia has become Representative Fiduciary Agent for Latin America of a major Abu Dhabi Investment Fund.

This Investment Fund collects and manages a multimillion-dollar portfolio of local, regional and international investments, which wishes to reinvest in projects financing to third investors, project owners and business facilitators in general at an annual interest rate of 3%.

These must be long-term investment projects that can generate an acceptable ROI during funding period.

Funding amounts range from a minimum of U$D 1 million to a maximum of U$D 10.9 billion.

The financing access process is very easy and transparent, with a direct relationship with investor once project qualifies established criteria.

We invite all renewable energy projects owners to send us their initiatives for our previous review.

After this preliminary stage, Investment Fund Board of Directors will analyze the project to determine if it is within the scope of our financing.

Resultado de imagen de evaluación de proyectos

Subsequently, a group of consultants will conduct a reevaluation and evaluation (due diligence).

This is the most important step in financing considering process.

The due diligence defines the terms and conditions to approve the financing and these conditions will be the basis of agreement that will be signed by Investment Fund and project owner.

As soon as due diligence process is completed, the Investment Fund will officially make a financing offer to project owner in very clear and precise terms.

Once terms have been established to grant the loan and if terms and conditions are declared acceptable by project owner, he is invited to sign the financing agreement to officially confirm Investment Fund’s project contribution.

All you need is Sun. All you need is Sopelia.

Solar Thermal Energy

Vacuum Tubes Collector

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Within group of solar collectors without concentration are the vacuum tubes collectors.

Currently they are the most used.

As was seen in flat collector’s analysis, conversion of radiant energy from the sun to thermal energy leads to radiation, conduction and convection losses that progressively decrease the yield as temperature difference between collector and environment increases.

Improvement provided by vacuum tube collectors is to avoid conduction and convection losses.

If less heat is lost, we will in most cases obtain more yield for same amount of Sun energy.

We will see that this is not always the case and depends on temperature of use.

Vacuum collectors find their main application in intermediate temperature systems (heating, air conditioning, industrial processes, etc.) and in cold places with high differences between collector temperature and the environment.

The vacuum technique used by fluorescent tubes manufacturers has been developed and is the one used by vacuum tube manifolds manufacturers.

Vacuum tube collector systems are based on evacuated tubes.

These are formed by two concentric tubes between which the air has been sucked up producing a vacuum. At one end, both tubes are joined by sealing the vacuum. Inside both tubes are located the different types of absorbers that determine the different systems.

Single evacuated tubes are evacuated tubes, assembled directly with accumulation tank or independently, which may contain only water or water plus antifreeze.

A dark colored layer of absorbent material is located on evacuated tube inner wall.

When solar radiation strikes the absorbent material layer it is transformed into heat and raises the temperature of the fluid that is in contact with it.

The fluid is heated by convection and begins to rise through the tube being replaced by cold fluid which in turn heats up and restarts the process.

This type of vacuum tube offers the advantage of having the aforementioned few heat losses and the disadvantages of being very sensitive to pressure.

Resultado de imagen de colector solar tubos evacuados

U-Pipe vacuum manifolds are used both in individual collectors and in compact solar systems with integrated tank.

Absorber can be placed on tube wall as in evacuated tube case or on an absorbent material sheet.

In any case, absorber is run on its surface by a pipe (preferably copper) through which the fluid raises its temperature in contact with it flows.

U-Pipe tube manifolds have the advantage of being able to adopt both horizontal and vertical position without impairing their performance since tube can rotate on its axis by tilting absorber in the most appropriate way in case the absorber has sheet shape.

Resultado de imagen de colector solar u pipe

Finally, in vacuum tube technology we find heat pipe manifolds.

They employ a mechanism consisting of a closed tube into which a vaporizing fluid (alcohol mixture) of specific properties is introduced.

When sun hits absorber attached to the tube, fluid evaporates and absorbs heat (latent heat). As gas rises above liquid to top of the tube where the cold spot is located. There it liquefies (condenses) and yields its latent heat to the fluid we are interested in heating by falling back to tube bottom by capillarity or gravity.

This process (evaporation – condensation) is repeated for sun’s radiation duration or until collector has reached a very high temperature (around 130 ° C or more).

They have the advantage that each tube is independent being able to change in full system operation. It is highly frost resistant.

Since tubes can also rotate on their axis, it is possible to adopt vertical and horizontal positions as in the case of U-Pipe systems, although in this case generally a minimum tube inclination (between 15º and 20º according to manufacturer) to allow fluid, once liquefied, to fall by gravity.

There are 3 qualities of these collectors:

– Dry union: heat exchange occurs without direct contact between heat transfer fluid and tube, which makes them very suitable in areas with unfavorable water qualities.

– Diode function: heat transfer is always carried out only in one direction, from absorber to heat transfer fluid, and never other way round.

– Temperature limitation: evaporation – condensation cycle takes place as long as vaporizing fluid critical temperature is not reached, thus avoiding uncontrolled temperature rise inside the tubes risks.

Resultado de imagen de colector solar heat pipe

This content was extracted from the Solar Thermal Energy Technical-Commercial Manual and is part of Solar e-learning.

All you need is Sun. All you need is Sopelia.