Monday, August 25, 2014

Firewood Photos Tell Global Story


Updated: June 2017

Images of firewood from around the world have many stories to tell.  From tiny sticks collected in Uganda to the huge tree trunks for outdoor boilers in America, it is a story of shortage and plenty.  It is also a story of mechanization, gender roles and even of survival itself.  As our planet faces a changing climate from using too much fossil fuel, in some countries using more firewood is a solution, and in other countries, using less is critical.  

Nearly 3 out of 7.2 billion people on our planet use wood mainly to cook their food on open fires or traditional cook stoves.  But solutions in the developed world and the developing world focus more on getting cleaner and more efficient appliances into use, not on trying to get families to switch from wood to a fossil fuel or another renewable.  Sustainability is not just about forest capacity, but also the capacity of local people in any country to adopt alternatives or use the resource better.  Ultimately, the story of firewood is also about public health, climate change, land use policy and cultural traditions.



Afghanistan

Bolivia


Sarejevo, Bosnia

Bulgaria
Canada

China



Estonia

Guinea


Indonesia


Israel

India (for funeral pyres)

Ivory Coast

Japan (Tsunami debris)


Kenya


Lithuania

Nepal

North Korea

Poland


Poland (Jewish Ghetto, 1941)

Sahara desert



Somalia

Sri Lanka


Soviet Union, 1941

Syria
Switzerland


Tibet (drying yak dung fuel)


Uganda

United States

United States


United States


United States
Venezuala

Wednesday, August 20, 2014

New Paper Undermines Stove Industry Variability Study

A new paper written by Woodstock Soapstone, a New Hampshire wood stove manufacturer, calls a key stove industry study misleading and flawed.  The industry study says the inherent variability in wood stove testing suggests that the EPA cannot lower emissions standards below 4.5 grams an hour. 

The EPA posted the 7-page Woodstock Soapstone paper today as part of the official record that the EPA can use to determine the final rule due in February 2015.  It was written by the company’s CEO, Tom Morrissey, and says the industry variability study is “based on a data sample that is small, old and deeply flawed.” 

The late Paul Tiegs from OMNI
 test labs was a  prominent
critic of variability being caused
mainly by fuel.
Morrissey’s paper argues that variability has much more to do with whether a manufacturer is paying for emission certification than inherent variability in the combustion process. “When a manufacturer pays for certification testing, why are the results so much better than at any other time the same stove is tested?” Morrissey asks.  The Alliance for Green Heat believes, as the Morrissey paper also suggests, that test labs have a range of operating procedures allowed by the EPA that can result in variable emission results.  The late test lab icon Paul Tiegs, a founder of Omni test labs, became a champion of tightening testing protocols to achieve consistency in testing, and rejected the notion that variability was mainly caused by solid fuel, as the industry study argues.

If the EPA, states, and air agencies take the Woodstock Soapstone paper seriously, it could unhinge a major industry legal strategy in the fight against stricter air pollution limits.  Many officials in the EPA and state air agencies were already critical or at least skeptical of the industry variability study.  However, there has not been such a detailed critique from inside (or outside) the stove industry before this.

The variability study was produced and written by Rick Curkeet, a hearth products engineer at the Intertek testing lab and Robert Ferguson, a consultant who is now working for HPBA on the proposed EPA regulations.  It was released in October 2010 in anticipation of the proposed EPA regulations and is called the “EPA Wood Heater Test Method Variability Study: Analysis of Uncertainty, Repeatability and Reproducibility.” 

[Update: Rick Curkeet submitted a rebuttal to the Morrissey paper on Sept. 10 and it should be posted in the EPA docket soon. His 7-page rebuttal defends his original study and he concludes that he stands by his "analysis and conclusions."]  

The study showed that there is a very wide range of variability between proficiency testing and certification testing of wood stoves.  HPBA contends that “it is arbitrary for EPA to define ... a value that is lower than the precision range” of the test method.  HPBA says the minimum justifiable emission limit is 4.5 grams an hour, which Washington State adopted in 1995 and has since become a de facto national standard.  The variability study does not say who paid for it but HPBA confirmed that they provided partial funding and extensively vetted early drafts in late summer and early fall of 2010.

While Morrissey’s paper is by far the most direct critique of the variability study, most experts agree that the understanding of variability in wood stove testing can be assessed in many more ways than the data set used by this industry study.  For example, compliance test data could be used.  The EPA requires that all stoves be retested after they produce between 2,500 and 10,000 units.  This data, if it could be obtained from the EPA, would provide possibly a more important data set than the one the industry study chose to use.  Another data set will be from the “K list” changes.  Most stove manufacturers are re-certifying their stoves in advance of the new EPA rules so they will have 5 years before they have to test again.  HPBA has been encouraging its members to recertify stoves with “K list” changes as they are allowed to do by the EPA so that they won’t have to face higher testing costs that include cord wood testing and the uncertainty of a new test method that may be harder to pass.  HPBA had urged the EPA to grandfather all stoves under 4.5 grams an hour until 2020.  In any case, these retests will provide a new and better data set to assess variability.

Even if high variability could be established and confirmed using various approaches and data sets by independent experts, the poor relations between industry and state air agencies and other key players has undermined the ability of the two sides to agree on much.  At a November 2012 meeting in Minneapolis convened by NESCAUM, Greg Green of the EPA left the room and urged the two sides to talk more amongst themselves.  That strategy did not work and very little productive communication occurred for more than a year, a result that is likely not beneficial to the interests of HPBA industry members. 
Greg Green, Alison Simcox and Gil 
Wood of the EPA listening to testimony 
at the Boston hearing on the NSPS.

The hard line approach to critics is what prompted Morrissey to write his rebuttal of the variability study which begins as a defense of test reports of his own stoves that had been called into serious question by HPBA, Rick Curkeet and Roger Purinton at Jotul stoves in formal comments to the EPA.  Ironically, proof that catalytic or non-catallytic wood stoves can be consistently clean has become the biggest threat to the mainstream stove industry that HPBA represents.  This conflict between cleaner catalytic stoves and not-as-clean non-catalytic stoves became very heated and public in an EPA hearing in Boston on February 26, 2014.  But it was preceded by the release of study in 2013 by non-catalytic makers that dismissed the effectiveness of catalytic stoves to reduce wood smoke in real world settings.  If this public rift within HPBA had not happened, the stove industry would likely have made it through the EPA rule making with a much more unified voice. 

According to interviews with non-catalytic stove manufacturers, they felt it was vital for the EPA to understand that very low emission numbers from catalytic stoves in testing labs did not accurately reflect emissions in peoples’ homes as catalysts often clog, are not replaced, and are not properly engaged and used by consumers.  This issue has proved to be key because the EPA proposed emission limits of 1.3 grams an hour in 2020, a number that only a few catalytic stoves can appear to meet.  The company that has produced tests showing it can meet it is Woodstock Soapstone.

The Woodstock Soapstone defense of its test results and critique of the variability study comes at an important time when the EPA is finalizing its new wood heater standards, known as the New Source Performance Standards (NSPS).  It is believed that as of September or October, the EPA staff will have made most of their key decisions to send to Washington for review and approval by senior EPA officials and EPA lawyers.  Attempts between HPBA and air agencies to reach any agreements behind the scenes could still be fruitful, but time is running out.  And even if any agreements could be reached, the EPA may not adopt them.

The regulation and emission limits for outdoor wood boilers are also hotly contested but the testing variability for boilers is not a big issue, nor is it an issue with pellet stoves.  One solution, supported in part by the Alliance for Green Heat, would be to set separate emissions standards for pellet stoves, catalytic stoves and non-catalytic stoves, based on how clean each technology has become.  The argument for separating pellet stoves from cat and non-cat wood stoves may be even stronger because they use a different and very uniform fuel and are burned in a much more controlled combustion setting.  The Catalytic Hearth Caucus, of which Woodstock Soapstone is a member, strongly opposed separate emission limits for cat and non-cat stoves as well.  Ultimately, HPBA did not recommend setting separate emission limits that Jotul and other non-catalytic manufacturers initially appeared to support.  At this point in the process, the EPA may have already decided to set a single emission standard for these very different technologies, as they had proposed.

If senior leadership at EPA sees reliable data that at least one stove can consistently be tested under 1.3 grams an hour, they now have a better legal foundation to stick to their proposed 1.3 gram an hour standard.  And this is the nightmare scenario that HPBA and non-catalytic stove manufacturers fear.

Stove experts like Tom Morrissey, Robert Ferguson and Rick Curkeet are not only savvy about how stoves are tested, they are also skilled number crunchers.  Interpreting stove test data is like any other data set: it can yield very different conclusions based on what data is used, how it is interpreted and what statistical methods are applied.  The EPA in turn has to assess the reliability of each study and they can reasonably expect that their assessments will be challenged in court.

Tom Morrissey, top, 2nd from right and
the team that designed and built the
Ideal Steel for a 2013 competition
The stove that Tom Morrissey says is reliably and consistently less than 1.3 grams an hour was specifically built to win the 2013 Wood Stove Design Challenge, and it did. The Wood Stove Decathlon judged stove on 5 categories: emissions, efficiency, affordability, consumer appeal and innovation.  The Ideal Steel Hybrid is certified by the EPA at 1.0 grams an hour and gets 82% efficiency.  A second place winner, the Cape Cod, was a similar hybrid stove by Travis Industries that is certified at even lower  0.5 grams an hour.  Travis however does not say that they can reliably or consistently test at such low emission numbers, particularly with cord wood.  Woodstock Soapstone says testing shows that their Ideal Steel Hybrid is as clean with cord wood as it is with crib wood.

The Alliance for Green Heat promotes cleaner and more efficient residential wood heating to reduce our reliance on fossil fuels and help families affordably heat their homes.  Founded in 2009, the Alliance is based in Takoma Park, Maryland and is registered as a non-profit, 501c3 educational organization.


Wednesday, August 13, 2014

NYSERDA Provides Grant to Develop Automated Wood Stove

In an effort to bring more automation to the wood stove, New York State Energy Research and Development Authority (NYSERDA) is providing a $49,000 grant to support the Alliance for Green Heat to test and work towards improving automated wood stove designs.

The project will bring some of the world’s leading automated stoves and prototypes to Brookhaven National Lab in November to test their performance and assess which designs hold the most promise in smoke reduction, reliability and consumer demand.  Seven companies with different approaches to automation are competing in the event.
John Rhodes, CEO of NYSERDA
announcing Renewable Heat NY
funding in August 2014

 NYSERDA support is part of Governor Cuomo’s Renewable Heat NY initiative, which encourages the expansion of sustainable markets in New York State for high-performance wood-fired heating technology and encourages the use of renewable biomass fuel, such as cord wood and wood pellets. NYSERDA has become the largest supporter of research on residential wood and pellet heating technology in the U.S. 

This project, called the Collaborative Stove Design Workshop, is a follow-on to the successful Wood Stove Decathlon on the National Mall in November 2013 that was also supported by NYSERDA.  Unlike the Decathlon, which was a more formal technology competition, this Workshop will bring a variety of experts together to study and help improve the automated designs, some of which may be open sourced so anyone can build from them.

“A wood stove is only as good as its operator and its fuel,” said John Ackerly, President of the Alliance for Green Heat (AGH).  Automation can eliminate the widespread problem of operators who don’t give their stoves enough air at the right times, leading to excessive smoke in rural communities, suburban neighborhoods and towns.  It can also mitigate the problem of using unseasoned wood. “Pellet stove technology represents the biggest breakthrough in residential wood heating in the past quarter century but we believe more breakthroughs are possible,” Ackerly said.

The Organizing Committee that oversees the project consists of John Ackerly, Alliance for Green Heat; Ellen Burkhard, NYSERDA; Tom Butcher, Brookhaven National Lab; Craig Issod, founder of Hearth.com; Mark Knaebe, US Forest Service; Ben Myren, Myren Consulting; Norbert Senf, Masonry Heater Association; Dean Still, Aprovecho Research Center; Rod Tinnemore, Washington Department of Ecology; and Rebecca Trojanowski, Brookhaven National Lab. Additional funding comes from the Osprey Foundation and the US Forest Service.

Applications to attend and take part in the workshop are being accepted until September 1.