Solar today - an overview
According to the International Energy Agency by the end of 2012 the world had installed around 100GW (100,000,000 Watts) of solar electricity generating systems around the world. Put in context, the entire generating capacity of all the power stations in Australia is around 50GW so in rough terms today there is enough solar installed to run an entire country. Although solar energy remains a very small part of the world’s overall energy mix, it is growing rapidly.
Crystalline solar cells are the most commonly sold product and have fallen in cost dramatically over the past 5 years particularly. Although there are a host of variables, in many countries, solar systems produce electricity at or close to the cost of electricity from other conventional sources, which continue to rise. When the cost of solar electricity matches the cost of conventional energy, we refer to this as “grid parity”.
Governments around the world have provided financial support for solar energy in many countries in recognition of its important role and because it avoids reliance on rapidly depleting sources of fuel. It is important to acknowledge and understand that historically virtually every form of energy generation technology has received some level of support as it has grown, so solar is not alone in receiving support.
In terms of its environmental benefit, there are several ways to consider solars performance.
The first is the life cycle energy cost, or how much energy it takes to create a solar panel from start to finish. Although this varies a little depending on the type or solar panel and the individual manufacturer, several studies have been conducted into the amount of embodied energy in different countries. The consensus is that the total amount of embodies energy will be recovered in the first 1-2 years of a solar panels working life and hence, its embodied energy is very low.
The second issue is how much Greenhouse House Gas (GHG) is avoided by using solar power, with the typical focus on the most significant greenhouse gas from electricity generation which is Carbon Dioxide (CO2).
In Australia each kWh of electricity generated from conventional sources creates on average, approximately 1kg of CO2. According to the Australian Energy Market Commission, the average Australian home uses approximately 6,164kWh of electricity each year thus creating 6.1 Tonnes of CO2 each year.How much CO2 is avoided depends on the conventional electricity it displaces and this varies by country and generation technology. In principle, solar creates no CO2 (or other emissions) and therefore is a CO2 free technology.