More Reasons to Believe and Reflections by DiCaprio

The report, Renewables Global Futures Report: Great Debates Towards 100 % Renewable Energy, showed that the majority of energy experts expect a continuous drop in the costs of RE technologies within the next decade. The revelations of the report shouldn’t surprise anyone anymore. This isn’t the first time we have heard of such expression of confidence in the ability of RE to take the place of conventional power sources in the energy mix.

In terms of pricing, various experts have already predicted that solar is likely to be the next king. The Bloomberg New Energy Finance, for one, has already said that the global average of solar cost might be lower than coal by the year 2025, as solar prices have already dropped by 62% since 2009. In my own personal experience the cost of panels went down by 35% in a span of less than one year.

Recent developments around the world have given energy experts more reasons to believe that an RE domination is indeed plausible. I share this view.

For example, the Organization of Petroleum Exporting Countries or OPEC’s top producing nation, Saudi Arabia, is now investing heavily in renewable energy and its government intends to pour in $30 to $50 billion investments in renewables. The oil-rich kingdom is now in the planning stage of developing some 10 gigawatts (GW) of renewable energy by 2023, starting off with solar and wind plants in the northwestern part of the country.  This move would replace some 80,000 barrels of oil daily used to supply its energy needs.

saudi-arabia-solar

Solar panels at King Abdulaziz City of Sciences and Technology, Saudi Arabia. Photo c/o Reuters

Aside from the falling cost of RE globally, the world is moving towards making a significant shift as evidenced by the closure of coal plants.

The report Boom and Bust 2017: Tracking the Global Coal Plant Pipeline made by environmental groups, Greenpeace, Sierra Club and CoalSwarm showed that closure or retirement of coal plants is at an unprecedented pace as total capacity of closed coal plants totaled to 64 GW in the last two years.

The study also showed a slowdown in construction of new power plants as there has been a 48% drop in the preconstruction activity and 62% decrease in construction of new coal plants from January last year up to January 2017.  India and China combined, have frozen some 100 coal projects totaling to 68 GW.

Such developments only show that the world is moving towards greener forms of energy. But while there has been much progress in shifting to more renewable sources for the world’s energy needs, the report stressed that there are still challenges in developing renewable energy.

Social awareness on the benefits of RE sources is considered as a major hurdle, according to the report.  “The lack of awareness that renewables are already economically competitive was also considered problematic.”

Additionally, the study also stressed the need to address energy policies if we are to move towards greater use of RE.  “The absence of long-term thinking in energy policy and the lack of specific policies for the high penetration of renewable energy systems were also seen as huge challenges,” the report stressed.

Such thoughts of the authors only echo what I have been saying for quite some time now.  Our energy planners had failed to look at the long-terms effects of choosing traditional sources of energy over renewable ones without looking at how such a choice hurts our environment. For a long-time, many energy planners refusing to believe in the potential of RE sources of being a clean and inexpensive option. “Costs” as defined by current energy planners do not factor in risk. As a result, we can make seriously flawed options in our choice for energy source.

This penchant for only considering the short-term profits in energy planning is one of the topics tackled in the documentary, Before the Flood, produced by National Geographic and Oscar awardee, Leonardo DiCaprio. One of the interviewees in the documentary, environmental scientist, and director of the Penn State Earth System Science Center, Michael Mann noted how leaders and large global corporations have pushed the world into ignoring the effects of traditional sources of energy: “These people are engaged in an effort to lead us astray in the name of short-term, fossil fuel profits, so we end up in a degraded planet.”

Unfortunately, we are now suffering the consequences of our short-sightedness, refusing to believe in the potential of RE sources of being a clean and inexpensive option. DiCaprio, in the documentary, offered a reflection, which energy planners should be asking themselves: “Imagine the world right now if we’d taken the science of climate change seriously back then. Since then our population has grown by five billion people and counting. The problem has become more difficult to solve.”

There is, however, some glimmer of hope as some energy planners are now seeing the need to replace traditional sources of power with renewables as evidenced by the growth in investments in the sector. In 2015 alone, global investments in RE reached some $256.8 billion; double the amount poured in fossil power for the same year. The rise of renewables is undeniable, as even developing nations that suffer most from the effects of climate change are investing more in renewables compared to the rich countries. It seems like a great number of energy planners is seeing the value of choosing cleaner energy options.

Many planners still reject the idea of renewables dominating the energy mix, despite the recent development on RE, particularly, the falling costs of both wind and solar power prices. But perhaps the predictions by energy experts about the falling prices of RE, recent developments such as the one in Saudi Arabia, coupled with a strong campaign for renewables, will do the trick. Convincing energy planners and policy makers that the best way to move forward with our energy needs is to develop more renewable sources is a tedious task but must be done nevertheless.

References:

https://www.bloomberg.com/news/articles/2017-02-14/saudis-warm-to-solar-as-opec-s-top-producer-aims-to-help-exports

REN21 Renewables Global Futures Report

http://www.ren21.net/future-of-renewables/global-futures-report/

Boom and Bust 2017: Tracking the global coal plant pipeline

http://www.greenpeace.org/india/en/publications/Boom-and-Bust-2017/

The Next King

Last year was another spectacular year for solar energy as a total of 73 gigawatts (GW) came online, breaking the record posted in 2015 of 56 GW installed capacity.

China and the United States contributed the most to the high growth of solar power last year as both almost doubled their installed solar power from 2015. China added 34.2 GW from 15 GW in 2015 and the U.S. with 13 GW from 7.3 GW. Other countries also added more power sourced from the sun such as India with 4.2 GW and UK, France and Germany with each adding at least one GW.

Naturally, more employment was generated from solar PV as it provided some 2.8 million full-time equivalent jobs. This figure accounts for one-third of the all the jobs for renewable energy (RE) sector worldwide. In the U.S., solar PV added around 73,000 jobs last year, twice the jobs generated by the coal industry in the country.

Aside from the growth in installed capacity, solar prices dropped significantly, too. The World Economic Forum notes that the price of solar power is currently lower than coal in some 30 countries. Indeed, there has been a continuous decrease in prices of solar power in the last few years as costs have dropped by 62% since 2009 according to the Bloomberg New Energy Finance (BNEF). And many predict that this trend is likely to continue.

Sohail Hasnie, Principal Energy Specialist for Central and West Asia Department of the Asian Development Bank, for one, foresees that global average price of coal would increase to $65- $100 per megawatt hour (MWh) for 2017 from its $60 per MWh. On the other hand, solar prices, he notes are now at $60-70 MWh, and likely to go lower in the next few months as solar energy in some countries were sold at low levels early this year.  Hasnie cites the case of India’s Madhya Pradesh state where solar power was sold was roughly $45 per MWh for 750 MW generated last February.  He believes that prices could drop below $25 per MWh this year in some auctions abroad.

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India’s 750 MW solar plant. Photo c/o http://www.hindustantimes.com

Battery storage costs are crucial to the expected price drop in solar PV, Hasnie stresses. He notes that lithium-ion battery prices dropped by 22% last year given the increase of manufacturers and awareness on the technology as the use of battery storage increased to roughly 750 MW globally. Hasnie anticipates that battery prices will likely drop by $75 per kilowatt (KWh) by 2020 from $350 per KWh in 2016.

Hasnie isn’t the only one to make such forecasts. The BNEF sees that solar energy is likely to be the lowest cost option in less than a decade.  The head of solar analysis for BNEF, Jenny Chase predicts that one MW ground-mounted solar system will be around 73 cents per watt by 2025, a 36% drop compared to its current price of $1.14. The BNEF also anticipates battery costs to decrease to roughly $200 per kWh by 2020.

Similarly, the International Energy Agency also predicts that solar generation cost will decrease by 25% in the next five years, and a drop by 65% by 2025 according to the International Renewable Energy Agency.

It looks like solar power would soon dethrone coal as the cheapest source of energy. And if these predictions come true, then we might see solar energy take over coal as the king of the energy mix.

Developing countries such as the Philippines should be sensitive to these developments.  Given our penchant on “quick fixes,” we might miss the boat (again) on this one. Our regulators should realize that the “least cost” in today’s environment takes on a different meaning. As I pointed out in my previous blogs, traditional power planning uses the least cost generation methodology where planners only look at stand-alone costs. The least cost generation method, however, does not compute for the risks involved.

For example, we never thought of Indonesia’s changing rules about exporting coal.  A few years back, Indonesia suddenly decided that it will not allow the export of certain grades of coal.  This led to a much higher cost for coal-fired power plant operators in the Philippines.  One company started to bleed because its ERC-approved formula did not take into consideration the fundamental change in the base prices.

To look at a price without considering risks behind the price can lead us to a completely wrong decision.

The global energy and political leaders should now realize that pushing for solar and other renewable energy sources is not just being good citizens of the planet, but also makes economic sense.

References:

https://www.bloomberg.com/news/articles/2017-01-03/for-cheapest-power-on-earth-look-skyward-as-coal-falls-to-solar

https://blogs.adb.org/blog/5-predictions-clean-energy-2017

State of Solar 2016: Globally and in Australia. Climate Council

https://www.climatecouncil.org.au/uploads/4127a8c364c1f9fa8ab096b04cd93f78.pdf

 

 

 

 

Adding More Wind and Solar Energy

Previously, I have argued that the country will benefit from harnessing renewable energy given the fluctuating prices of coal and oil that result in energy price spikes.

I have also introduced the concept of portfolio theory, which says that risks can be minimized regardless of the level of expected return as long as investors mix low or zero-risk assets in their portfolio. In energy planning, this means adding more renewable energy in the energy mixes that are predominantly composed of fossil-based power plants. Again, fossil-based energy is considered a risky asset since the supply is fast diminishing, pushing both fossil fuel and energy prices upwards eventually.

The Benefits of Wind and Solar Energy

Among all renewable energy technologies, the wind is considered as one of the cleanest energy sources. Wind power generation does not release any gas or emission.

And just like with other renewable energy technologies, the establishment of a wind power plant can provide employment to local communities as wind turbines installation and the maintenance of wind power plants require manpower.

On the other hand, the sun is the greatest source of energy as the solar energy that is emitted to the earth in a year is twice the amount of the produced fossil and nuclear energy around the world. In fact, the earth receives roughly 340 watts of solar energy for every square meter.  And one second of sunlight is equivalent to 100-watt bulb use. Plus, solar energy plants require little maintenance after installation. A small herd of goats, in fact, will be beneficial.

Debunking the Misconception

However, there is this misconception that adding wind and solar energy to the portfolio or energy mix will increase the cost of power generation. This is brought about by the fact that the stand-alone cost of building wind and solar power plants is higher compared to the cost of building of fossil fuel or coal-based plants. Again, I have argued before, that this is the pitfall of energy planners given that they use the least-cost method in energy planning, favoring the cheaper energy source based on current prices. Those who choose the least-cost in power generation, however, do not look at the risks: the diminishing supply of coal and oil that will make such sources of power more expensive in the future.

That said, let us take a look at a study that discussed the cost implications of adding wind and solar into the generation mix to dispel notions that adding renewable energy in the mix increases power costs.

The National Renewable Energy Laboratory conducted a study on the effects of adding both wind and solar into the generation mix for the Rocky Mountain Power Pool (RMPP) region in the United States. The RMPP region covers the entire state of Colorado and some parts of South Dakota and Wyoming. The region was chosen because of its abundance of both wind and solar energy, and its heavy reliance on natural gas and coal thermal power plants.

Renewable Energy Lab Facility in Paonia, Colordado, Western Slope of Rocky Mountains Photo from http://www.solarenergy.org/

Renewable Energy Lab Facility in Paonia, Colordado, Western Slope of Rocky Mountains
Photo from http://www.solarenergy.org/

The study’s main objective is to determine the effect of higher penetration or use of both technologies as a hedge against the uncertainty of power costs in the region. The researchers simulated different RE penetration rates ranging from10 to 50 percent under different price scenarios of natural gas to determine whether adding more wind and solar energy into the energy mix increases energy costs.

The study showed that in a coal-dominated mix, the annualized variable system cost of adding 10 percent RE at a low natural gas price of $2/MMBtuis roughly $15/mWh. And the annualized variable system cost of electricity for the region goes down to $8/mWhwhen RE penetration is increased to 15 percent at a higher natural gas price ranging from $4/MMBtu and $9/MMBtu.

This simply means that adding more renewable energy, in this case, wind and solar can reduce the variable system cost of electricity even when natural gas prices shoot up.

Of course, the study did not tackle total system costs as capital recovery and fixed operations and maintenance costs– all affecting total system costs–vary. The research also showed diminishing marginal returns for the higher penetration rate of 35 to 40 percent of RE. But clearly, the study debunks the misconception that adding more renewable energy pushes energy prices up.

Sadly, as of 2014, wind and solar energy only contribute 0.2% and 0.02%, respectively to the total energy mix in the Philippines despite the country’s great potential to harness energy from these two renewable energy sources. According to NREL, the Philippines has a total of 76.6 GW of potential wind capacity.

As of last year, the country has a generation mix composed of 42.78% coal, 24.19% natural gas and 7.39% oil-based. It will then be beneficial for the Philippines to add more renewable energy to hedge against future power price escalations brought by the country’s dependence on coal and natural gas power plants.

Wind Farm in Ilocos Norte. Photo from tourism.gov.ph

Wind Farm in Ilocos Norte. Photo from tourism.gov.ph

Connecting Solar and Wind Power to the Grid is a Problem

Both wind and solar energy have their benefits. However, the intermittency of solar and wind power makes the job of the system operator (SO), in our case, the National Grid Corporation of the Philippines (NGCP) more difficult.

The role of NGCP as the SO is to balance the demand and supply of energy through the use of a system. The NGCP has to find the correct mix of high-voltage generating power plants and transmit the generated electricity to the distribution utilities, which in turn distribute to end-users.

With a constant power supply from conventional sources, SO merely watches the level of frequency, voltage, and the demand, and adjust the level of supply accordingly to ensure the system’s security and stability.

The process of balancing the supply and demand becomes more difficult when intermittent energy like solar and wind is included in the supply side since the SO will have to look at both demand and supply to ensure the system is stable and secure. It’s like watching a tennis match instead of a pelota game: there are two sides to scrutinize carefully instead of just watching one side.

Obviously, there are technologies available that allow any SO to balance the demand and supply properly when intermittent sources of power are added to the mix. Plus, NGCP is technically competent to ensure system security and stability even when renewable energy is added to the system.

But here lies the problem: the increase in complexity is not properly compensated by the regulator, the Energy Regulatory Commission (ERC).  So, the objective of injecting more renewable energy into the system, which again, comes with more intermittency is not aligned with NGCP’s financial objectives. Why should NGCP agree to manage a more complex system without a corresponding adjustment or fee to compensate for this complexity?

Of course, one can and should argue that NGCP has the legal mandate to manage the system regardless of the level of difficulty, and that the management of a complex system is already part of the SO’s management fees. However, the fact is, the Renewable Energy (RE) law was not yet in place when NGCP took over the SO function from Transco when it was privatized. This means that the valuation of Transco by NGCP did not consider the management of a more complex system with the full implementation of the RE law.

This problem is often exacerbated by the arrogant attitude of some RE developers who feel that their connection to the grid is a God-given right. It is true that NGCP is mandated to connect power projects–especially RE projects– to the grid, however, our SO will go through a whole lot of hoops before it makes this decision.  From a purely selfish perspective, why should NGCP connect an RE project to the grid when doing so will only make its work more difficult?

References:

The Use of Solar and Wind as a Physical Hedge against Price Variability within a Generation Portfolio by National Renewable Energy Laboratory http://www.nrel.gov/docs/fy13osti/59065.pdf

Applying portfolio theory to EU electricity planning and policy-making by Shimon Awerbuch with Martin Berger

Renewable Energy Devt.in the Philippines: Presentation by Mario Marasigan, DOE

10 Reasons to Start Investing in Solar Energy

http://abcofsolar.com/10-reasons-start-investing-in-solar-energy/?utm_content=buffer63872&utm_medium=social&utm_source=linkedin.com&utm_campaign=buffer

Benefits of Solar Energy http://www.greenoughsolarfarm.com.au/solar-energy/benefits-solar-energy