KiloNewton has so much good fortune to share, and will be sharing in the coming weeks. Even though our social media has been a little quiet, it’s not for the lack of budding opportunities.

We’ve taken up residence at the historic Insurance Building in Downtown ABQ, and are excited to work with the local community!

We will be having an Open House on July 26th from 4:30 – 7:30. Please feel free to stop by!

We will have raffles, door prizes, food from Frenchish, and refreshments from local breweries.

Stay tuned for more exciting news!

Jennifer Runyon writes: “The Commission’s report ‘A New World’ suggests that the energy transformation will change energy statecraft as we know it. Unlike fossil fuels, renewable energy sources are available in one form or another in most geographic locations. This abundance will strengthen energy security and promote greater energy independence for most states.”

New York Times:  How the United States generated electricity from 2001 to 2017

NADJA POPOVICH writes in a New York Times article published late last year, they have researched how each State in the US has generated electricity for the past 16 years.

“We charted every state’s electricity generation mix between 2001 and 2017 using data from the United States Energy Information Administration.”

 These charts demonstrate the potential for wind and solar to take over the energy landscape as they become more economical, in a similar fashion to how natural gas has overtaken the coal industry in many states. States like California and Hawaii are leading the pack in solar while northern states like Iowa and Idaho are leading the way in wind! Very interesting breakdown.

Here’s the link to the NYT article:

https://www.nytimes.com/interactive/2018/12/24/climate/how-electricity-generation-changed-in-your-state.html

“In this op-ed for pv magazine, KiloNewton Founder and CEO John Williamson looks at both the importance of reducing soft costs and the likely paths to get there.”

 Module prices are expected to decline from $0.30/W to $0.18/W over the next 5 years through material cost reductions and efficiency gains. While this is going to further reduce the cost of solar energy, there is virtually no way that we can hit the goal of reducing solar costs by 50% by 2030 without reducing soft costs.

Photo credit: Amy Suarez

Here’s a link to the full article I wrote for PV Magazine below:

https://pv-magazine-usa.com/2018/12/13/soft-costs-of-solar-the-final-frontier-of-utility-lcoe-reduction

In a member update for SEIA, Abigail Hopper writes:

“ 

On Saturday evening over dinner in Buenos Aires, President Trump and Chinese President Xi Jinping agreed that they would suspend any further trade action for 90 days to allow for continued negotiations. In a follow-up statement, the White House indicated that the recently imposed Section 301 tariffs would remain at 10% for the next 90 days. The tariffs were originally scheduled to increase to 25% on January 1, 2019. For the solar industry, this means that the Section 301 tariff on Chinese inverters will remain at 10% for at least the next 90 days. U.S. module manufacturers who rely on Chinese inputs will also avoid higher tariffs. If at the end of 90 days the parties are unable to reach an agreement, the 10% tariffs will increase to 25%.
 
The White House further indicated that China agreed to purchase a “not yet agreed upon, but very substantial, amount of agricultural, energy, industrial, and other product from the United States to reduce the trade imbalance” between the two countries. President Trump and President Xi also “agreed to immediately begin negotiations on structural changes with respect to forced technology transfer, intellectual property protection, non-tariff barriers, cyber intrusions and cyber theft, services and agriculture.”
 
While this temporary truce is good news, the structural issues at the heart of the dispute will be difficult to resolve in 90 days. Indeed, to date, China has made no indication that it is prepared to adopt any of the structural changes sought by the Trump Administration. The solar industry should also recognize that any U.S.-China agreement would likely only cover the Section 301 tariffs, and not the Section 201 tariffs (cells and modules), Section 232 tariffs (steel and aluminum), or antidumping and countervailing duties.

 Sincerely,

Abigail Ross Hopper
President & CEO

“

Some additional industry and outside perspective on the temporary truce can be found in the links below:

 Utility dive: Solar industry sees short-term pluses from U.S.-China trade truce

https://www.utilitydive.com/news/solar-industry-sees-short-term-pluses-from-us-china-trade-truce/543695/

 “Trade experts on a panel at the Solar Energy Industries Association (SEIA) Policy Summit on Wednesday viewed the 90-day delay on tariff escalation favorably, while hinting that the negotiation period may be too brief. Putting off the tariff increase "actually helps" companies making new manufacturing investments "in the short term," SEIA's vice president of market strategy, John Smirnow, told Utility Dive.”

 solar power world: Chinese inverter tariffs won’t jump to 25% yet on January 1

https://www.solarpowerworldonline.com/2018/12/chinese-inverter-tariffs-wont-jump-to-25-percent-yet/

 “According to a White House statement, President Trump and Chinese President Xi Jinping agreed to suspend further trade action for 90 days to continue negotiations.”

 bbc: US-China trade war: Deal agreed to suspend new trade tariffs

https://www.bbc.com/news/world-latin-america-46413196

 “China has pretty much given up nothing in this deal because the future tariffs threatened from the Beijing side were retaliatory in nature and only to be applied if the United State escalated.”

 Generally, the consensus is that this is a short-term boon for those who have budgeted for the tariffs to escalate as previously scheduled. At this point, there is little likelihood that there will be any long-term reprieve from the tariffs for solar power, and the effects will be most substantially felt on projects with the lowest margins, i.e. utility and large commercial installations. With Trump’s twitter account stating he is a “Tariff Man” days after the supposed truce, there seems to be no end to the trade war, and the proposed “truce” seems more like a temporary cease-fire.

Matthew Gagne has more than 10 years of experience in the renewable energy industry.  An Albuquerque native,  He has performed an assortment of tasks for more than 5000 MW of installed renewable energy projects across the United States, Canada, Mexico, and South America.  He has worked on prospecting, pre-construction energy and other environmental assessments, re-powering assessments, refinancing due diligence reports, and operational evaluations.

Previously he was an independent contractor for multiple clients working on anything from renewable energy grant proposals to bankable assessment reports.  Matthew joined KiloNewton in October 2018 to provide GIS analysis, wind energy expertise, and assist with solar assessments.

Matthew also received a Graduate Certificate in Wind Energy (Technical) from Texas Tech University and a graduate credential through Texas Tech’s National Wind Institute and DNV GL in 2016.  He also has B.A. from Western Washington University where he focused on GIS and journalism.  

With Matt’s expertise in renewables optimization, solar, product development and technical business analysis, he is a welcomed addition to the Kilonewton team.

Matthew Gagne, GIS/Renewable Energy Analyst, and Ehtesham Tariq, Mechanical Engineer, from Kilonewton LLC write:

In the last 10 years, renewable energy has quickly become competitive with conventional generation sources that have historically dominated the energy market.  Renewables have traditionally relied on incentives at both state and federal levels in the United States to get a foothold in the market. But the levelized cost of energy (LCOE) for utility-scale photovoltaic (PV) solar and wind has dropped significantly according to the Lazard Levelized Cost of Energy Analysis released earlier this week, even without consideration of those incentives.  While subsidies remain a factor in the renewable energy economic picture, utility-scale PV solar and wind energy are competitive with conventional generation.  We expect that trend to continue as renewable technology improves, supply chains reduce costs, and market penetration increases.

 The main factor for LCOE for utility-scale PV solar and wind energy has been capital costs, or the cost of manufacturing and installation of projects.  The LCOE for solar and wind, as stated by the US Energy Information Administration earlier this year, is affected proportionally by the capital cost of generation capacity.  Capital costs for PV solar and wind have historically been high when compared to conventional generation.  However, renewables have an inherent advantage over fossil fuels generation sources in that the fuel is free from massive extraction, transportation, and storage costs, and operations and maintenance is comparatively low.  

 Subsidies have helped reduce those costs. But reliance on those subsidies has been somewhat problematic.  Wind has been especially affected, as the periodic expiration and renewal of the Production Tax Credit at the federal level has led to economic fluctuations in the industry.  However, the subsidizing of PV solar and wind and an increasing demand for renewable energy has allowed for the development of a robust competitive market, resulting in reduced supply chain costs and improved technology.

This is reflected in the Lazard report.  The report shows a steep decrease in the LCOE for PV solar, with a drop of 88 percent in the last 9 years and a compound annual growth rate (CAGR) of 21 percent.   The LCOE for wind energy has a similar trend with a decrease of 69 percent in the last 9 years and a CAGR of 12 percent. 

While incentives are still a large component of the renewable energy market, the Lazard report shows that its influence, especially with utility-scale PV solar, is waning.   Incentives have much more of an effect on residential PV and wind energy. 

When compared to conventional generation such as nuclear and coal, the Lazard report shows that utility-scale PV and wind have a much lower LCOE.  Much of this is due to increased competition in the market as well as capital cost factors, such the supply chain and improved technology.   While wind has been competitive since 2011, according to Lazard, utility-scale PV solar has only been competitive in the last couple of years.  

We expect the trends shown in the Lazard report, especially with utility-scale PV and wind, to continue in the next 10 years.  The Department of Energy’s SunShot 2030 goal is to cut the LCOE of utility-scale PV by an additional 50% by the year 2030.  Following the current trend, we expect the LCOE for PV solar will reach the goal in 2028.  The SunShot program, which began in 2011, has been instrumental in reducing the cost of LCOE for PV solar without subsidies.  The solar industry achieved the initial SunShot 2020 goal of $0.06 per kilowatt-hour for utility-scale PV 3 years ahead of schedule. 

 Our analysis is based on several factors.  Capital costs will continue to reduce, while technology will continue to improve.  Also, the implementation and advances in energy storage will be crucial to wind and solar.  The wind doesn’t always blow and the sun doesn’t always shine during peak demand, resulting in curtailed wind energy production and clipped solar production.  The SunShot 2030 goal includes integration of PV solar with storage as an integral part of reducing the LCOE by half.  The Lazard analysis cites the ability for energy storage to not only capture otherwise lost energy, but also share interconnection and inverter costs, as reasons why the LCOE of utility-scale PV solar and wind may decrease in the future.  In addition, the trend of mothballing and not replacing older conventional generation facilities will only increase demand and market penetration for renewables.  

Photo By Matt Pankuch