Solar Energy
Usage Projection
The problem what the world is facing nowadays is
the energy problem. So, everyone should create awareness
about solar energy because
Government is also
planning to do
a lot of awareness
regarding the renewable
energy. In Malaysia there are a lot of organization organizing green
campaign such as Environmental Protection Society Malaysia (EPSM), Malaysia
Environment NGOs (MENGO) and Treat Every Environment Special Sdn Bhd (TRESS). Hopefully
in the future, solar energy would be the world’s largest source of electricity.
Consumption of Solar Energy
Solar panels
Longyangxia Dam Solar Park
TWO MAIN CATEGORIES
1) Solar Thermal
Water heating and cooking
2) Solar Photovoltaic (PV)
Electricity production
Solar Thermal Energy
Cooking
Water Heating
Solar Water Heating
How Does it Work?
Solar Photovoltaic (PV)
Solar Electric System
•Photovoltaic (PV) systems convert light energy directly into electricity.
•Commonly known as “solar cells.”
•The simplest systems power the small calculators we use every day. More complicated systems will provide a large portion of the electricity in the near future.
•PV represents one of the most promising means of maintaining our energy intensive standard of living while not contributing to global warming and pollution.
How Does it Work?
•Sunlight is composed of photons, or bundles of radiant energy. When photons strike a PV cell, they may be reflected or absorbed (transmitted through the cell). Only the absorbed photons generate electricity. When the photons are absorbed, the energy of the photons is transferred to electrons in the atoms of the solar cell.
How Does it Work?
Solar Energy
Passive solar energy designs use the energy from
the sun to heat, cool, and illuminate our buildings. This
is called passive solar design because, unlike active solar heating systems, it
does not involve the use of mechanical and electrical devices. Passive systems do not use mechanical devices such as fans, blowers, or pumps to
distribute solar heat from a collector. In
passive solar building design, windows, walls, and floors are made to collect,
store, reflect, and distribute solar energy in the form of heat in the winter
and reject solar heat in the summer.
Passive systems can be categorized into three types:
· Direct Gain - Allows the solar energy to come in through the south-facing window panes.
· Indirect Gain - Allows the solar radiation to heat a wall and then the energy is slowly delivered into the interior of the house. Openings in the wall (called a Trombe Wall), as shown in the figure below, promote convective currents:
o Cold room air enters the space between the glass panel and the wall through the bottom opening.
o As this cold air gets heated, it rises to the top and comes in through the top opening.
· Greenhouse Addition - An attached sunspace and/or solar greenhouse heated by the solar energy - where some of the energy is used to grow the plants and some of it is used to heat the interior of the house.
HOW
PASSIVE SOLAR HEATING WORKS
Solar radiation is trapped by the greenhouse action of
correctly oriented (north-facing) glass areas exposed to full sun. Window
orientation, shading, frames and glazing type have a significant effect on the
efficiency of this process.
Trapped heat is absorbed and stored by materials with high
thermal mass (usually masonry) inside the house. It is re-released at night
when it is needed to offset heat losses to lower outdoor temperatures.
Passive solar heating is used in conjunction with passive
shading, which allows maximum winter solar gain and prevents summer
overheating. This is most simply achieved with northerly orientation of
appropriate areas of glass and well-designed eaves overhangs.
A diagram shows how to maximise passive solar heating in the home. Internal walls should be well insulated. There should also be good roof and ceiling insulation. The home should be able to avoid hot summer and cold winter winds. Deciduous trees are good for sun control, and when the sun is lower in winter, allows maximum sun penetration; but during summer, the tree’s foliage blocks the height of the summer sun.
Re-radiated heat is distributed to where it is needed through good design of air flow and convection. Direct re-radiation is most effective but heat is also conducted through building materials and distributed by air movement. Floor plans should be designed to ensure that the most important rooms (usually day-use living areas) face north and receive the best winter solar access.
Heat loss is minimised with appropriate window treatments and
well-insulated walls, ceilings and raised floors. Thermal mass (the storage
system) must be insulated to be effective. Slab-on-ground edges should be
insulated in colder climates, or when in-slab heating or cooling is installed
within the slab.
PASSIVE SOLAR DESIGN PRINCIPLES
Greenhouse (glasshouse) principles
Passive design relies on greenhouse principles to trap solar
radiation.Heat is gained when short wave radiation passes through glass,
where it is absorbed by building elements and furnishings and re-radiated as
long wave radiation. Long wave radiation cannot pass back through glass as
easily.
A cross-section of a sunny room is shown. Short wave
radiation passes through glass and is absorbed by materials inside. The long
wave radiation is trapped inside, and is re-radiated around the room. Solar heat gain through standard 3mm glazing. Heat is lost through glass (and other building materials) by
conduction, particularly at night. Conductive loss can be controlled by window
insulation treatments such as close fitting heavy drapes with snug pelmets,
double glazing and other advanced glazing technology.
Active Solar Energy
Active solar systems are those which collect solar radiation
and convert it in the form of heat to water, air, or some other fluid. A solar
collector positioned on the roofs of buildings heats the fluid and then pumps
it through a system of pipes to heat the whole building. The most common
application of these systems is the production of domestic hot water, known to
all as solar water heaters. Solar radiation is absorbed by the collector and
the heat collected is transferred to the storage vessel. Besides, active solar
systems can be used anywhere low temperature heat is needed.
Advantages of solar heating system
1. Renewable Energy
Source
Among all the benefits of solar panels, the most important
thing is that solar energy is a truly renewable energy source. It can be harnessed in all areas
of the world and is available every day. We cannot run out of solar energy,
unlike some of the other sources of energy. Solar energy will be accessible as
long as we have the sun, therefore sunlight will be available to us for at
least 5 billion years when according to scientists the sun is going to die.
2. Reduces
Electricity Bills
Since you will be meeting some of your energy needs with the
electricity your solar system
has generated, your energy bills will drop. How much you save on your bill will
be dependent on the size of the solar system and your electricity or heat
usage. Moreover, not only will you be saving on the electricity bill, but if
you generate more electricity than you use, the surplus will be exported back
to the grid and you will receive bonus payments for that amount (considering
that your solar panel system is connected to the grid). Savings can further
grow if you sell excess electricity at high rates during the day and then buy
electricity from the grid during the evening when the rates are lower.
3. Diverse
Applications
Solar energy can be used for diverse purposes. You can
generate electricity (photovoltaics) or heat (solar thermal). Solar energy can be used to produce
electricity in areas without access to the energy grid, to distill water in
regions with limited clean water supplies and to power satellites in space.
Solar energy can also be integrated into the materials used for buildings. Not
long ago Sharp introduced transparent solar energy windows.
4. Low Maintenance
Costs
Solar energy systems generally don’t require a lot of
maintenance. You only need to keep them relatively clean, so cleaning them a
couple of times per year will do the job. If in doubt, you can always rely on
specialised cleaning companies, which offer this service from around £25-£35.
Most reliable solar panel manufacturers give 20-25 years warranty. Also, as
there are no moving parts, there is no wear and tear. The inverter is usually
the only part that needs to changed after 5-10 years because it is continuously
working to convert solar energy into electricity (solar PV)
and heat (solar thermal). Apart from the inverter, the cables also need
maintenance to ensure your solar power system runs at maximum efficiency. So,
after covering the initial cost of the solar system, you can expect very little
spending on maintenance and repair work.
5. Technology
Development
Technology in the solar power industry is constantly
advancing and improvements will intensify in the future. Innovations in quantum
physics and nanotechnology can potentially increase the effectiveness of solar
panels and double, or even triple, the electrical input of the solar power
systems.
Disadvantages of solar heating system
1. Cost
The initial cost of purchasing a solar system is fairly high.
Although the UK government has introduced some schemes for encouraging the
adoption of renewable energy sources, for example, the Feed-in
Tariff, you still have to cover the upfront costs. This includes
paying for solar panels, inverter, batteries, wiring and for the installation.
Nevertheless, solar technologies are constantly developing, so it is safe to
assume that prices will go down in the future.
2. Weather Dependent
Although solar energy can still be collected during cloudy
and rainy days, the efficiency of the solar system drops. Solar panels are dependent
on sunlight to effectively gather solar energy. Therefore, a few cloudy, rainy
days can have a noticeable effect on the energy system. You should also take
into account that solar energy cannot be collected during the night. On the
other hand, if you also require your water heating solution to work at night or
during wintertime, thermodynamic panels are an alternative to consider.
3. Solar Energy
Storage Is Expensive
Solar energy has to be used right away, or it can be stored
in large batteries. These batteries, used in off-the-grid solar systems, can be
charged during the day so that the energy is used at night. This is a good
solution for using solar energy all day long but it is also quite expensive. In
most cases, it is smarter to just use solar energy during the day and take
energy from the grid during the night (you can only do this if your system is
connected to the grid). Luckily our energy demand is usually higher during the
day so we can meet most of it with solar energy.
4. Uses a Lot of
Space
The more electricity you want to produce, the more solar
panels you will need because you want to collect as much sunlight as possible.
Solar panels require a lot of space and some roofs are not big enough to fit
the number of solar panels that you would like to have. An alternative is to
install some of the panels in your yard but they need to have access to
sunlight. Anyways, if you don’t have the space for all the panels that you
wanted, you can just get a fewer and they will still be satisfying some of your
energy needs.
5. Associated with
Pollution
Although pollution related to solar energy systems is far
less compared to other sources of energy, solar energy can be associated with
pollution. Transportation and installation of solar systems have been
associated with the emission of greenhouse gases. There are also some toxic
materials and hazardous products used during the manufacturing process of solar
photovoltaics, which can indirectly affect the environment. Nevertheless, solar
energy pollutes far less than the other alternative energy sources.
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