The History of the Automated Side Loader – How One Small City Changed The Industry Forever


The modern refuse truck operator has it pretty easy today compared to his peers of yesteryear. Gone are the days of the “Vic Tanney” bodies and the driver lugging around 55 gallon drums on their backs. For haulers and drivers who collected trash for the majority of their lives, they were lucky if they could continue to stand up straight by the time they were 50 and their bodies weren’t completely broken. In 1968, the Bureau of Labor Statistics found that the injury rate among refuse collectors was higher than the rate for coal miners, police officer, firefighter or loggers. A report put out between 1969 to 1971 showed that nationally there were 98.8 disabling accidents per million man hours worked in refuse collection. Those numbers are staggering when compared with the next closest industry, police departments, which had 48.15 accidents per million man hours. A fact not surprising considering the nature of the job. Workers were required to jump on and off the truck continually, handle hundreds of containers, many of which were overweight and easy to drop.

An average worker could lift up to 6 tons a day and walk up to 11 miles in all type of weather, which led to multiple injuries and massive insurance claims to the hauler (if they offered insurance) and time away from work. This is why, even today, refuse collection is listed in the Top 10 most dangerous jobs in America. Why do you think so many of the articles in this publication and those like it are filled with safety related items? It’s a major concern and issue even with the advanced technology modern refuse trucks are built upon.

Now there has always been a drive in the industry from the truck manufacturers to deliver the highest compaction body to maximize on-route time over the competition yet they all required one key ingredient before the early 1980s: manual loading. Commercial collection already saw vast improvements in safety, productivity and cleanliness with the introduction of the Front End Loaders (the industry’s first automated truck) in the 1950s. Unfortunately, residential drivers wouldn’t start seeing some relief for another few decades. Let’s explore this history more in-depth.

Automated Side Loader

The City that Birthed a Revolution

Scottsdale, Arizona, a town northeast of Phoenix, incorporated in 1954 with a population of 2,032. After having a major annexation in 1961 that more than doubled its population, the city took over refuse collection from private contractors in March 1964. From 1960 to 1970, the city population increased from 10,026 to 67,823. The new Refuse Division was put under the direction of Marc Stragier, the director of Public Works. Looking at all the available systems at the time, Scottsdale chose to use the recently developed “Refuse Train” system used in many parts of the country. Even though the Train method was an improvement over the use of rear loaders, it still carried all the negative attributes of manual collection. Scottsdale also experienced a high personnel turnover rate due to the 110+ degree working conditions during summer months.

In 1965, the City Manager, Assistant City manager and three Department Heads formed a brainstorming club apart from the city to develop and promote new ideas. They called themselves Government Innovators and among some of the ideas to emerge was the concept of mechanized refuse collection. After searching for a body manufacturer to partner and develop the idea with, Marc found George Morrison, owner of Western Body and Hoist in Los Angeles. After some convincing and motivation, the creative juices in George’s head started to flow and a few months later, George and his lead engineer Otto Ganter met with Marc to show him a concept idea called the “Barrel Snatcher” based off their Wesco-Jet Front Loader platform.

Taking the idea and drawing to Bill Donaldson, Scottsdale City Manager for final approval, the City applied for a Federal grant to develop a mechanized residential refuse collection system. After the initial application was sent back, the Department of Health, Education and Welfare sent a representative down to help edit and draft a second application. The new application proposed a two-phase demonstration: Phase 1—to determine if the concept was practical using city provided containers and if successful; Phase 2—build the sophisticated Barrel Snatcher truck to prove mechanized collection was economical and cost effective. The second draft was approved and awarded in February 1969 with the grant period lasting from March 1969 to June 1972.

Automated Side Loader

Phase 1: Godzilla

Now faced with building a proof of concept truck, it was decided to use a 1964 International Lodal Front Loader not in active service as the test bed. Marc designed the mechanical grabber assembly to attach to the front of the arms and after $2,000 in repairs were made to the truck to make it useable, construction and modifications began. The mechanic in charge of creating the grabber assembly, Chuck Kalinowski, remembers constructing the mechanism, “I didn’t know that Marc was in the shop one day and I was working on the slide, trying to figure out what he wanted there for the arm to grab the container. So I tried two or three different things, you know, just things we had around the place here. I said ‘Aw, for crying out loud, they want you to build something but they won’t give you the material, they want you to build a darned monster… a Godzilla!’ Marc was standing right behind me and from that time on, that’s what it was called.”

After some trial and error, Godzilla was finally ready to go on route in August 1969. The first container it picked up slipped through the grabber and fell into the hopper. Next, the brakes locked up and truck couldn’t be moved. After modifications and repairs, the truck operated for the next six months proving the concept of mechanized collection was sound.

An often overlooked aspect of creating and later adopting a mechanized collection system is the container cost associated with it. For the city, to order a “set” of containers and collection trucks ran about $40,000 (pre-additional modification) for equipment and about $120,000 the containers in 1970 dollars. Scottsdale had many alley routes and after a survey, they decided to use container sizes of 80, 160 and 300 gallons for collection service. The size of the container the customer received was determined by the number of days picked up, either once or twice, and the number of houses per container: one, two or four. It broke down to each household receiving at least 160 gallons of refuse capacity per week. County Plastics was initially awarded the contract for 350 containers in each of the three sizes. After the Phase 1 trials were complete, it was determined that the 80 and 300 gallon containers were the most effective. 300 gallons were used on alley streets while the 80-gallon shined the best for street-side collection. Godzilla and later Son of Godzilla was the most successful in the alleys with the 300 gallon, but too slow and bulky for the 80 gallon service.

Automated Side Loader

Phase 2: Son of Godzilla

Western Body and Hoist’s Barrel Snatcher was a modified version of their Wesco-Jet Front Loader. The Wesco Jet was a 35yd full pack body that evenly distributed the weight over two axles with four super single tires and a specialized cab designed and engineered jointly by Reo Motors and Western. Complete with an Allison automatic transmission and a narrow, air conditioned telephone booth cab, the Barrel Snatcher weighed in empty at 22,500 lbs. and had a GVWR of 36,500 on the two axles. With three years of engineering going into its design, the Barrel Snatcher featured an 8-foot boom, which could extend out to 12 feet to grab the 300 gallon containers. Cycle time from pick up to set down was only 20 seconds.

Modifications and improvements were required after the first unit went online in October 1970. A joystick was added later to help improve operator control as the boom had a tendency to knock down fences in the alleys due to the uncontrollability of the rotary motor that swung it. The frame at the base of the boom was beefed up due to frequent cracking due to weight, in addition to a heavier duty rotary motor that swung the heavy boom. The extension cylinder was moved to the outside of the boom to reduce the six hour repair time needed to get at it when it was mounted inside. The city sent these lists of improvements to Western to be implemented on the second truck they ordered.

Due to the national popularity of the Phase 1 Godzilla truck, the Barrel Snatcher was affectionately called the “Son of Godzilla”, which only served to fuel local and national interest in what Scottsdale was trying to do. The city invested a lot of time and effort to sell the new concept to the public and they constantly fielded requests from foreign dignitaries, state and city governments to come and personally view the trucks in action and on route.

During the construction of the second Barrel Snatcher, George Morrison’s partner and co-owner was killed in an accident. In order to provide and take care of his partner’s widow, George decided to sell the company to Maxon Industries in December 1970. After study, Maxon expressed no desire to continue development, sales or orders for Barrel Snatcher concept with the City, although they did agree to honor the original contract for two additional trucks. The City received many postponements and delay’s from Maxon and finally threatened to sue for breach of contract. None of the improvements recommended by the city were implemented in the second truck when it was delivered in May 1971. The mechanics were well versed in the necessary improvements and changes needed to be made and when the second truck started going on route, the original Godzilla that was built to last six months of the concept phase was finally retired after two years on route.

Automated Side Loader

The Concept Fully Realized

After Phase 2 was complete and the third and final Barrel Snatcher was delivered from Maxon in 1973 (two years after it had been ordered), the city continued to improve upon the arm design and even modified three city owned Wesco-Jet Front Loaders to Barrel Snatcher configuration in-house to expand their growing mechanized routes. However, they realized a more permanent solution was needed when it came time to start replacing their aging fleet. Marc Straiger continued to work on designs for an improved automated arm that could be fit to different side load bodies and was not specific to the now discontinued Maxon Wesco-Jet. He designed a prototype to be tested on one of the city’s experimental truck beds and it later came to be known as the “Rapid Rail” arm. It consisted of a grabber assembly with rollers on the rear which allowed it to slide up and down the rail that curved at the top to invert and empty the container.

The city eventually ended up abandoning the project, yet a few companies had taken the idea for Marc’s “Rapid Rail” and developed it into an effective system by 1978. Government Innovators (now a fully realized company), Arizona Special Projects and Ebeling Manufacturing Corp (EMCO) all offered a version of this arm to the public. EMCO was the first company to offer market ready automated packages with their arm design based on Straiger’s “Rapid Rail” for commercial side load dumpsters. However, their arm could be easily modified with “Rapid Rail” grippers for cart collection. Maxon, who had no interest in pursuing further Barrel Snatcher product development with the city after their purchase of Western, finally saw the future in automation and offered their integrated Eagle cab and body truck with an arm copy of the Rapid Rail by 1980.

When it came time for the city to start replacing their worn out fleet of Barrel Snatchers in 1978, they turned to International Harvester chassis with Norcal Waste Equipment 24yd bodies fitted with a modified EMCO lift arm. Each truck cost the city $58,000, which was a bargain compared to the last Barrel Snatcher that cost a low estimate of $63,230. What many people don’t know is that Norcal in Oakland, CA was started after the sale of Western by Otto Ganter, the lead engineer and designer of the Barrel Snatcher.

The Numbers Don’t Lie

In 1980, the city did a comparison to see if the mechanized trucks lived up to their original idea and potential. The numbers were quite staggering and especially in an unforgiving climate like Southern Arizona, well worth the effort and money spent. According to the records and findings from the city: in 1968, 34 men were employed to collect 17,800 homes twice a week. By 1980, 13 residential routes were needed to collect 24,000 homes twice weekly with 13 drivers. The city estimated that if the train method was still being used in 1980, 18 pickup trucks, 72 trailers, seven front loaders and more than 60 men would be required. The injury rate was also reduced from 36 preventable injuries a year average using the train system to only 1 in 1980.

Production rates also increased per man. In 1968, the average was 95 tons per man compared to 212 tons by 1980. They also showed a drastic reduction in employee turnover from 91 percent in 1986 to one employee who left and transferred to another department within the city. While some of the costs of running more advanced trucks were passed on to the residents in terms of monthly collection cost, the state of their streets, alleys and roadways was greatly improved over manual collection, which often left trash and debris in its wake. Their aggressive advertisement and citizen buyoff of the program went a long way to mitigate the town’s outcry over the increase in cost.

Slow to Catch On

Throughout the 1980s, body manufacturers continued to develop and improve the automated arm. For the average hauler, however, it was a gigantic investment in new fleets and carts—one that they were hesitant to make. Municipalities were some of the early adopters to automation due to the fact that they could justify the initial investment by projecting the savings over long term. Automated technology didn’t really take hold nationwide until the 1990s when the technology and arms were more proven and reliable. Even today, the arm design on an ASL is the most competitive feature builders continue to refine and market. Some builders have multiple arm or gripper designs available for customers to choose from, each with their own unique use and application. Also, many haulers tend to stick to one design because it’s a system they adopted early on and know and trust. I can say with absolute confidence that there is no “best arm and gripper” on the market. Each has their strengths in different conditions (alley, confined space, parked cars) and some perform better than others. The Automated Side Loader is still the new kid on the block compared to the rest of the refuse truck styles and there hasn’t been an “industry” standard design established yet. But next time you see one on the road or hop in one to run your route, think about the blood, sweat and cursing a special group of men invested to make your lives a little bit easier and a whole lot safer.

Zachary Geroux is a videographer, photographer, historian and owner of Refuse Truck Photography, which focuses on media and marketing for the Waste Industry. He lives in Western Washington with his wife and newborn son who will soon fall in love with garbage trucks. Currently, he works full time for the Air Force and is focused on growing his business. He has been driving garbage trucks off and on for the past 10 years and considers it the best job he’s ever had. He can be reached at (541) 301-1507, via e-mail at Zachary@refusetruckphotography.com or visit www.refusetruckphotography.com.

*Special thanks to the City of Scottsdale for sending me years and years ago their self-published booklet “Revolutionizing an Industry.” Without this amazing documentation of strife and effort to create and field this system, this article and the knowledge contained within might have been lost forever to the coming generations.

Reposted by WIH Resource Group
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ABOUT WIH RESOURCE GROUP

Celebrating a decade in business, WIH Resource Group is a global provider of professional technical and management support services to a broad range of markets, including waste management, recycling, financials, transportation, M&A due diligence and support, alternative fuel fleet conversions, facilities, environmental, energy for private sector business and government clients.

WIH Resource Group is a leader in all of the key markets that it serves. WIH Resource Group provides a blend of global reach, local knowledge, innovation and technical excellence in delivering solutions that create, enhance and sustain the world’s built, natural and social environments.  WIH Resource Group serves clients in more than 175 key markets internationally.

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7 Tips To Increase Your Productivity


With more demands, and what seems like less time, we are all looking for ways to increase productivity during our work days. Here are 7 simple tips to give you back some control in your work day and help you become more productive.
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1. Create a To-Do list
Before you start each day, make a list of your must do items. This keeps you on task and can bring you back to focus when you keep your list in front of you while working. We suggest you make it a paper list so it is visible at all time.
2. Take breaks
We all seem to overwork ourselves and don’t realize when we need a break. Allow yourself to take breaks when you find that you are getting overwhelmed, stressed, if you start losing concentration, or just need to clear your mind for a few minutes. Step away from your desk take a walk around the office or just stand up and stretch.
3. Weed out distractions
Social Media, push notifications and today’s technology make it easy to have constant distractions. Turn off the notifications on your phone and computer except for crucial appointment reminders so you are not constantly distracted. It is easy to get side tracked from one text or notification and realize 20 minutes later that you have completely lost focus.
4. Designate time to read emails
Allow yourself to check emails in the morning, after lunch and before you leave the office. When you are constantly checking your inbox and reading or replying to every email, it sucks down your productivity time. If you are sending out emails and need them to be responded to promptly, assign a Priority tag to them.
5. Sleep early and get up early
Take a look at every top executive, CEO or successful businessperson and you will find that they all have one main thing in common – they wake up early. Waking up early gives them time to get their morning started without being rushed, stressed and limited on time. Going to bed early ensures they are rested and recharged to start the next day.
6. Focus on one thing at a time
We have all heard that multitasking is detrimental for productivity. It reduces the performance of any task that we do when not being fully focused. Studies have shown that our brain is strained when we are constantly shifting between multiple tasks at one time. Would you rather complete one task with excellent results, or 3 things with mediocre results?
7. De-clutter and organize your environment
When you are working in a cluttered environment, it creates unnecessary stress on your mind and body. It is like having a stack of unopened mail that you know you need to get to. Not to mention, it is a distraction. Clean up your workspace so you can stay focused and more productive.
These tips are provided to you by WIH Resource Group, Inc
WIH Resource Group provides the following useful tips to improve your productivity.

Source: WIH Resource Group

Contact WIH Resource Group
For more information, Visit our website by CLICKING HERE and contact us today to see how we can best serve you by phone at 480.241.9994 or by e-mail at admin@wihrg.com

Visit our new website!   www.wihresourcegroup.com

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ABOUT WIH RESOURCE GROUP

Celebrating a decade in business, WIH Resource Group is a global provider of professional technical and management support services to a broad range of markets, including waste management, recycling, financials, transportation, M&A due diligence and support, alternative fuel fleet conversions, facilities, environmental, energy for private sector business and government clients.

WIH Resource Group is a leader in all of the key markets that it serves. WIH Resource Group provides a blend of global reach, local knowledge, innovation and technical excellence in delivering solutions that create, enhance and sustain the world’s built, natural and social environments.  WIH Resource Group serves clients in more than 175 key markets internationally.

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More information on WIH Resource Group and its services can be found at www.wihrg.com.

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Renewable Portfolio Standards drive the waste-to-energy industry


There is one single, constant driver that can propel the WTE industry forward or hold it back, and that’s renewable portfolio standards (RPS). These RPS’s are policies in 29 states and Washington, DC to increase renewable energy, usually from wind, solar, biomass, and sometimes landfill gas and municipal solid waste.

USA Renewables by State

How much capital is allocated to each of these sources depends on what “tier” within the RPS it is placed. Tier 1 generates more revenue than tier 2, allowing WTE technologies in this higher category to compete with solar and wind, which are the energy-producing forerunners right now. While biomass, biogas, and other WTE grew by 15% since 2008, wind grew by 65% in 2014 alone.

Then there is a market driver at the federal level: the Public Utility Regulatory Policy Act (PURPA). The law requires utilities to buy electricity from a qualified facility, but to only pay what it would cost the utility to produce that electricity.

“So they pay a relatively small amount, which rarely pencils out for renewable energy producers,” said Brian Lips, DSIRE project manager at North Carolina Clean Energy Technology Center. “But the RPS places [renewable energy producers] in a position where they don’t have to compete with fossil fuels; rather they compete against other renewables.”

Sometimes biomass, one of the more widely used WTE sources, is in tier 1 on the RPS. But what counts as biomass gets tricky as there is no standard definition; so feedstocks under this umbrella vary but could include organic materials like trees, crops, and animal waste.

How Maryland pays out for trash-to-energy

One state standing out on the WTE front is Maryland, the only state in the country that places trash-burning incinerators in tier 1, according to Energy Justice Network Founder and Director Mike Ewall. This incentive drew New York-based Energy Answers International to Baltimore, where it got a permit in 2010 to build what would have been the largest incinerator in the country — one that environmentalists vehemently protested, arguing the emissions would threaten public health.

Just last week, following a long, hard fight between Energy Answers and its opponents, Maryland announced that the incinerator project is no longer valid, stating the permit became void after an extended construction delay.

Some states have left trash incineration out of the RPS altogether, such as New York, which only allows the burning of biomass. However, that state is subsidizing crop burning. “Rarely can you make it work to grow crops just to burn them; it’s too expensive. But New York and Iowa have burned grass and or trees for electricity,” said Ewall.

Meanwhile, commercial scale trash-burning incinerators seem to be fading from the landscape. One to be built in West Palm Beach will be the first such plant launched in 20 years, at least on a new site. Many others are shuttering or at risk of closing, with the number currently in operation having fallen under 80 for the first time in decades, largely because of their cost.

Introducing more energy sources to the playing field

In quest of new options, Pennsylvania, Ohio, and West Virginia have put fossil fuels in their RPS, bringing a whole new category onto the playing field. “They are the first ones [and only ones] to do this,” said Ewall. He added that Ohio has put nuclear in their portfolio in addition to fossil fuels. And a fairly new industry direction is to pelletize trash and market it to existing boiler plants for energy.

Some of the growing options — and their price tags — are sparked by regulations mandating the amount of electricity that utilities must derive from renewable resources.

“In California where 50% of energy has to come from renewable sources, utilities may pay more. But in North Carolina where just 12.5%  has to be renewable, utilities have more bargaining power,” explained Lips.

The renewable energy market is particularly strong in New Jersey, and Hawaii has the most ambitious goal in the country: 100% renewable energy by 2045, he said. The island state has two motivators: outrageously high electricity rates as it burns imported oil, and its vast renewable energy resources.

How the Federal Clean Power Plan is driving state policies

More change may be on the horizon if EPA’s Clean Power Plan unfolds. It’s part of Obama’s push, claimed to curb greenhouse gas emissions from fossil fuel and coal-fired power plants, which would allow for natural gas and renewable energies such as biomass, incineration, and natural gas.

Analysts project this law will be a major market driver, and it’s already proving to be, at least in the natural gas front. There are about 300 proposals for gas-fired plants in the United States now, according to Ewall.

“Most were underway before EPA adopted the plan. But they were [further] fueled by the rule. So Clean Power would be a major driver to push for natural gas,” he said.

Source: Waste Dive

Published by WIH Resource Group

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ABOUT WIH RESOURCE GROUP

Celebrating a decade in business, WIH Resource Group is a global provider of professional technical and management support services to a broad range of markets, including waste management, recycling, financials, transportation, M&A due diligence and support, alternative fuel fleet conversions, facilities, environmental, energy for private sector business and government clients.

WIH Resource Group is a leader in all of the key markets that it serves. WIH Resource Group provides a blend of global reach, local knowledge, innovation and technical excellence in delivering solutions that create, enhance and sustain the world’s built, natural and social environments.  WIH Resource Group serves clients in more than 175 key markets internationally.

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More information on WIH Resource Group and its services can be found at www.wihrg.com.

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WIH Resource Group Launches New Dynamic Website


Phoenix, AZ — March 28, 2016—WIH Resource Group, Inc. (http://wihrg.com/) has kick-started its 2016 marketing campaign with a new, vibrant, and fully revamped and informative website.   “We’ve worked hard to deliver a website that can inform and inspire across our diverse client base and we are delighted with the results. We hope it answers a lot of the questions that we are commonly asked, and goes a long way to demonstrating the firm’s capabilities, expertise and experience” said Bob Wallace, President and Founder of WIH Resource Group.

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WIH Resource Group was founded in 2005 and is renowned for its exemplary service and industry individuality. Wallace explains, “We are a professional, innovative organization that focuses on giving our clients a high-quality, personalized customer experience and we want that level of care to remain synonymous with the WIH Resource Group name.”

“Our broad range of services allows us to offer our clients a full service package. We wanted a new website that reflects our professionalism, specifies our accreditations, introduces our exceptional team and gives some insight to our current clients, our meaningful partners, and our diverse areas of expertise. We’ve more than met that in the new website, which sums up the WIH Resource Group ethos perfectly.” said Wallace.  It also features downloadable Industry White Papers http://www.wihrg.com/onlinestore.html

About WIH Resource Group

WIH Resource Group is an American based leading global independent provider of environmental, waste management, recycling, transportation, financial and logistical solutions.  The company also provides its clients with strategic consulting solutions in alternative vehicle fuels, fleet management, operations, M&A transactional support, surveying and polling, collection vehicle route auditing, expert witness and transportation matters for corporations, federal, state, and local government clients.

WIH looks to establish long term relationships with their clients where they are called upon regularly to assist in developing viable and sustainable solutions.

For additional information, visit the new website http://wihrg.com/

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List of Top Waste Management Twitter Users


ABOUT WIH RESOURCE GROUP

Celebrating a decade in business, WIH Resource Group is a global provider of professional technical and management support services to a broad range of markets, including waste management, recycling, financials, transportation, M&A due diligence and support, alternative fuel fleet conversions, facilities, environmental, energy for private sector business and government clients.

WIH Resource Group is a leader in all of the key markets that it serves. WIH Resource Group provides a blend of global reach, local knowledge, innovation and technical excellence in delivering solutions that create, enhance and sustain the world’s built, natural and social environments.  WIH Resource Group serves clients in more than 175 key markets internationally.

More information on WIH Resource Group and its services can be found at www.wihrg.com.

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10 Shocking Facts About Your Garbage


It’s easy not to think about garbage. You throw away your empty cartons, bags, and cups, and once a week the trash collector comes and takes it all away. Out of sight, out of mind… except that it’s not really gone.

Most US garbage is simply relocated from your garbage can to a landfill or incinerator, both of which are fraught with problems:

  • Incinerators: Emit toxic dioxins, mercury, cadmium, and other particulate matter into the air, and convert waste into toxic ash (which is sometimes used to cover landfills).
  • Landfills: There are more than 3,000 active landfills, and 10,000-old landfills, in the US.1 While the number of landfills in the US has been decreasing in recent decades, they have, individually, been increasing in size.

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Along with being a major source of methane emissions, landfills produce “leachate,” a toxic fluid composed of pollutants like benzene, pesticides, heavy metals, endocrine-disrupting chemicals, and more, which come from the compressed trash.

Although landfills are technically supposed to keep garbage dry and are lined to prevent leachate from contaminating nearby soil and groundwater, the landfill liners are virtually guaranteed to degrade, tear, or crack eventually, allowing the toxins to escape directly into the environment.

10 Shocking Facts About Your Garbage

MSN compiled 10 facts about garbage that are likely to surprise you.2 You may never look at your trash the same way again…

  1. More Than 100 Tons of Waste for Every American: The average American throws away more than 7 pounds of garbage a day. That’s 102 tons in a lifetime, more than any other populations on Earth.
  2. Bottled Water Is the “Grandfather of Wasteful Industries. Edward Humes, author of the book “Garbology: Our Dirty Love Affair with Trash,” counts bottled water among the most wasteful of industries. In the US, Americans toss 60 million water bottles daily, which is nearly 700 each minute.
  3. Food Waste Is a Problem Too: Americans throw away 28 billion pounds of food a year, which is about 25 percent of the US food supply.
  4. Disposables Are a Drain: Ten percent of the world’s oil supply is used to make and ship disposable plastics – items like plastic utensils, plates, and cups that are used just one time and thrown away.
  5. Trash Is Expensive: Most communities spend more to deal with trash than they spend for schoolbooks, fire protection, libraries, and parks.
  6. Carpet Waste Alone Is Astounding: Americans throw away 5.7 million tons of carpet every year.
  7. Paper Waste Is a Shame: Americans waste 4.5 million tons of office paper a year. Ask yourself… do I really need to print that?
  8. Opting Out of Junk Mail Makes a Difference: According to Humes, the energy used to create and distribute junk mail in the US for one day could heat 250,000 homes. You can opt-out of junk mail by going to CatalogChoice.org.
  9. Too Many Toys: Only 4 percent of the world’s children live in the US, but Americans buy (and throw away) 40 percent of the world’s toys. Buy less toys, opt for second-hand versions, and pass down the toys you do purchase to others.
  10. Plastic Bags: On average, Americans use 500 plastic bags per capita each year. Such bags make up the second most common type of garbage found on beaches. Stash reusable shopping bags in your purse or car so you’re not tempted by plastic or paper.

Bottled Water: One of the Worst Offenders

US landfills contain about 2 million tons of discarded water bottles, each of which will take more than 1,000 years to biodegrade. Recycling is only possible for a small number of these bottles, because only PET bottles are recyclable. In all, only one out of five plastic bottles ever make it to a recycling bin.3

You might think re-using the bottle is an option, but commercial water bottles tend to wear down from repeated use, which can lead to bacterial growth in surface cracks inside the bottle. This risk is compounded if you fail to adequately wash the bottle between each use, using mild soap and warm water.

But even with washing, these microscopic hiding places may still allow pathogenic bacteria to linger. Perhaps more importantly, the plastic chemical bisphenol-A (BPA) and phthalates lurk in plastic water bottles and can pose serious health hazards, especially to pregnant women and children.

Fortunately, the use of bottled water is one of the easiest habits to change. Simply put a filter on your tap and use a reusable glass water bottle to carry with you.

Why You Should Consider Ditching Plastic Bags

Plastic bags are so wasteful and polluting to the environment that many US cities have already banned them outright. For a succinct and entertaining introduction to the waste that is the plastic bag, I highly recommend the film “Bag It.”4

It is a truly eye-opening look to the vastness of the problem, and the immense waste that could be spared if more Americans toted a reusable bag with them to the grocery store. As their website reported:5

“In the United States alone, an estimated 12 million barrels of oil is used annually to make the plastic bags that Americans consume. The United States International Trade Commission reported that 102 billion plastic bags were used in the US in 2009.

These bags, even when properly disposed of, are easily windblown and often wind up in waterways or on the landscape, becoming eyesores and degrading soil and water quality as they break down into toxic bits.”

On a worldwide scale, each year about 500 billion to 1 trillion plastic bags are used worldwide. At over 1 million bags per minute, that’s a lot of plastic bags, of which billions end up as litter each year, contaminating oceans and other waterways.

Food Waste Is a Serious Issue

You might not think throwing a banana peel or apple core in your trash is a big deal, but organic waste is actually the second highest component of landfills in the US. Organic landfill waste has increased by 50 percent per capita since 1974, as illustrated in this infographic.6

One solution to this problem is to cut down on the amount of food you waste by planning your meals carefully (and shopping according), vacuum packing produce to help it last longer, eating leftovers and knowing when food is still safe to eat (versus when it’s actually spoiled).

Composting Can Help Reduce Organic Waste in Landfills

Another solution lies in creating a backyard compost pile. Composting food scraps recycles their nutrients and can reduce their ecological impact. It benefits soil, plants, and the greater environment, and it’s not as difficult as you might think. Compost can be created with yard trimmings and vegetable food waste, manure from grazing animals, egg shells, brown paper bags, and more.

This can be done on an individual or community-wide level. For instance, in California, The Sonoma County Waste Management Agency operates a regional compost program in which they accept yard trimmings and vegetative food discards that are placed in curbside containers by local residents.

The organic material is then converted into premium quality organic compost and mulches, along with recycled lumber, firewood, and biofuel used to generate electricity. Since 1993, 1.6 million tons of yard and wood debris have been converted into these beneficial products.

Sonoma Compost, which operates the Organic Recycling Program on behalf of the Sonoma County Waste Management Agency, estimates that nearly 1.5 million tons of yard and wood trimmings have been diverted from landfills since 1993 as a result of the program.7

The Consequences of Living in a ‘Throwaway’ Society

Your parents and grandparents likely used products in reusable, recyclable, or degradable containers made from glass, metals, and paper. But today, discarded plastics and other waste are circling the globe at a significant human and environmental cost. It’s a problem of convenience – choosing a plastic disposable water bottle instead of using a reusable glass container, for instance – as well as one of overconsumption.

Even durable items like electronics, toys, and clothes are often regarded as “throwaway” products that we use for a short period and quickly replace – often without recycling, donating, or re-using them for another purpose.

Of course, you are living in a society that makes you feel behind if you do not buy the latest model of this or that, or update your wardrobe with the latest fashions. We’re also increasingly living on the go, where food in throwaway packages is by far the rule rather than the exception.

Contrast that to a couple of generations ago when frugality and resourcefulness were highly valued, and food came fresh from the farm, butcher shop, or baker, and you begin to see where the real problems with excess waste are springing from. The sheer amount of waste that is generated needlessly on any given day is quite mind-boggling. For instance, according to the Clean Air Council:8

  • The average American office worker uses about 500 disposable cups every year.
  • Every year, Americans throw away enough paper and plastic cups, forks, and spoons to circle the equator 300 times.
  • The estimated 2.6 billion holiday cards sold each year in the US could fill a football field 10 stories high.
  • Between Thanksgiving and New Year’s Day, an extra million tons of waste is generated each week.
  • 38,000 miles of ribbon are thrown away each year, enough to tie a bow around the Earth.

Reduce, Reuse, and Recycle!

You’ve probably heard of The Three Rs: Reduce, Reuse, and Recycle. Committing this into practice in your home can significantly reduce the amount of waste your family generates while also saving you money. You can do your part by taking the following action steps that reduce your plastic consumption and generation of waste, which will benefit your health as well as the environment.

Reduce your plastic use: If at all possible seek to purchase products that are not made from or packaged in plastic. Here are a few ideas… Use reusable shopping bags for groceries. Bring your own mug for coffee and bring drinking water from home in glass water bottles instead of buying bottled water. Store foods in the freezer in glass mason jars as opposed to plastic bags. Take your own leftovers container to restaurants. Request no plastic wrap on your newspaper and dry cleaning. Avoid disposable utensils and buy foods in bulk when you can. These are just a few ideas — I’m sure you can think of more. Recycle/Repurpose what you can: Take care to recycle and repurpose products whenever possible, especially ones that are not available in anything other than plastic. This includes giving your clothes or gently used household items to charities and frequenting second-hand stores instead of buying new. Make use of online sites like Freecycle.org that allow you to give products you no longer need away to others instead of throwing them away. Choose reusable over single-use: This includes non-disposable razors, washable feminine hygiene products for women, cloth diapers, glass bottles for your milk, cloth grocery bags, handkerchiefs instead of paper tissues, an old t-shirt or rags in lieu of paper towels, and so on.
Compost your food scraps and yard waste: A simple bin in your backyard can greatly cut down on your landfill contributions while rewarding you with a natural fertilizer for your soil. Support legislation: Support legislative efforts to manage waste in your community; take a leadership role with your company, school, and neighborhood. Be innovative: If you have a great idea, share it! Your capacity to come up with smarter designs and creative ideas is limitless and many heads are better than one. Innovations move us toward a more sustainable world.
Assist recovery: Return deposits on bottles and other plastic products, and participate in “plastic drives” for local schools, where cash is paid by the pound.

ABOUT THE FOUNDER
Bob Wallace, MBA is the Founder and a Principal of WIH Resource Group, Inc. and has over 27 years of experience in waste and recycling collections programs management, transportation / logistics operations, alternative fuels (CNG, LPG, RNG, LNG & biodiesel), Fleet Management, Operational Performance Assessments (OPAs), Waste-by-Rail programs, recycling / solid waste operations, transfer stations, landfills, planning and development. Mr. Wallace has extensive experience in working with clients in both the private and public sectors. Prior to WIH Resource Group, Mr. Wallace served as the Director of Transportation & Logistics for Waste Management, the largest provider of waste management and recycling services in North America. He can be reached at bwallace@wihresourcegroup.com or 480.241.9994. For more information visit http://www.wihrg.com

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WIH Resource Group is a global leader and provider of comprehensive waste management consulting, recycling, transportation / logistical and business solutions, specializing in, among other services, waste management operational performance assessments, financial analysis. transportation / logistics, alternative fuel solutions, solid waste planning, waste and recycling market studies, business development, business valuations, due diligence and Mergers and Acquistions (M&A) transactional support and environmental services.

WIH Resource Group’s experience includes the oversight of operations, maintenance, finance, human resources, business development, sales, safety and environmental compliance while maintaining responsibility for multi-million dollar publicly and privately held assets including: a variety of collection operations, Sub-title D and hazardous and Class II landfills, transfer stations, intermodal facilities, recycling centers, buyback centers, material recovery facilities, vehicle and container maintenance operations, call centers and payment processing operations.

Based in Phoenix, Arizona, the company serves both private companies and public sector Agency clients throughout North America and internationally.  To learn more about WIH Resource Group, Inc. visit http://www.wihrg.com .

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Issues to Consider for Converting Your Garbage Truck Fleet to Natural Gas


Issues to Consider for Converting Your Garbage Truck Fleet to Natural Gas

ARTICLE OVERVIEW
This article looks at the practical implications for waste management firms and organizations, both private and public sectors, for moving their fleets to alternative fuels including what the options are, as well as some of the challenges and the benefits. This Article provides a high level of key issues to consider and “how to” guide on the subject looking at the practical considerations of making the switch including infrastructure. Many fleet managers and owner/operators are weighing their options when it comes to purchasing natural gas trucks vs. diesel trucks. The big question is “When it comes to diesel or natural gas trucks, which is best for my bottom line?” If fleet managers and owner/operators want to make an informed decision about their business, it is crucial to understand the differences between diesel and natural gas trucks.

A growing number of fleets have already made the switch to natural gas after weighing the benefits and challenges. Private waste companies such as Waste Management and Republic Services are buying thousands of new natural gas vehicles (NGVs), based mainly on the economics of switching. The public sector is lagging behind private haulers in making the switch largely because governments have a harder time securing the capital needed to buy the new equipment, even though there is typically an eventual payoff. However, some cities and other local governments are moving in the same direction as the private sector in order to generate the economic and environmental benefits that are available from compressed natural gas (CNG).

INTRODUCTION
Every day in every major City, Town or Community, one vehicle type, besides school buses, passes through every residential street – the garbage / recycling collection truck. Garbage Trucks (aka as refuse collection vehicles – RCVs) operate daily in various parts of every residential part of every City, collecting garbage, green waste, recyclables, food waste and bulk waste. In most cities or towns, these trucks are still powered by traditional diesel or biodiesel, spewing tons of carcinogens and relatively high amounts of CO2 into our atmosphere and our communities.

Those plumes of diesel exhaust emit dangerous levels of CO2 and in the United States alone approximately 180,000 refuse trucks operate and burn approximately 1.2 billion gallons of diesel fuel a year, releasing almost 27 billion pounds of the greenhouse gas, CO2. Every gallon of diesel fuel burnt emits more than 22 pounds of CO2.

In the U.S., there has been increasing interest in fuelling waste and recycling collection fleets using alternative fuels, primarily either from CNG from the gas-utility grid, or in some cases from landfill or biogas (aka bioCNG) captured at their own waste processing facilities.

CNG OR LNG FUEL
There are two types of natural gas fuels – compressed natural gas (CNG) and liquefied natural gas (LNG). Each has its own advantages and disadvantages. CNG is the lower priced of the two fuels and is much more readily available. CNG requires somewhat more payload displacement for equal fuel capacity vs. LNG. However, the disparity had been reduced in recent years due to lighter CNG-storage cylinders and more efficient cylinder configurations on the trucks. The other major challenges with LNG are the fuel delivery, storage and actual vehicle fueling. For the purposes of discussion, this article focuses on CNG, since it is a more readily available both in terms of fueling facilities and vehicles, the abundance of infrastructure, and lower cost.

FUEL ECONOMY & COSTS COMPARED TO DIESEL
Garbage trucks have poor fuel efficiency, typically around 3 miles per gallon, which has been compounded in recent years since the price of diesel has hovered around $4+ per gallon for the last five years.

Currently, CNG is competitively priced with diesel. The price of a diesel gallon equivalent (DGE) of CNG has steadily fallen compared to the price of a gallon of diesel. Although the market price of natural gas was fairly volatile in the previous decade, it has stabilized due to significant increases in discovery and production of natural gas in the U.S. It now appears the price of natural gas has decoupled from the price of oil and has therefore not been as volatile as gasoline and diesel prices.

The expansion of natural gas vehicle (NGV) usage holds the promise of reducing carbon emissions, lessening dependence on foreign oil, and lowering fuel and transportation costs. Viability of natural gas as a transportation fuel has grown partly because the availability of shale gas resources has dramatically expanded and gasoline and diesel prices have spiked. NGVs are also appealing because the high-pressured fuel system is sealed, so very little fugitive emission occurs during fueling and use.

Natural gas trucks can save on fuel costs, but the up-front costs are significant. The most costly element is installing a natural gas fueling station, which depending on its size, can cost several million dollars to permit, design, and construct. An alternative to constructing a new fueling facility is to locate a nearby facility that allows third-party access for fueling. In addition, fleet maintenance facilities have to be upgraded to accommodate CNG fleet maintenance, which requires gas detection as well as improved ventilation to manage possible gas leaks that can be ignited through an inadvertent spark.

The trucks themselves can also cost between $30,000 and $50,000 more than their basic diesel counterparts. However the savings for operating NGVs add up quickly. A DGE of CNG costs less than $1.15 to produce, including the cost of the gas commodity, electrical power for system operation and a maintenance allowance .

LANDFILL BIOGAS (BIOCNG) & RENEWABLE NATURAL GAS (RNG)
Fueling a vehicle with food waste was a concept made famous by the movie Back to the Future in the 1980s. Now, almost 30 years later, what was once a futuristic idea has become a reality. In some places, garbage trucks run on the methane captured from the same landfills where they drop off their payloads.

Biogas, also known as renewable natural gas (RNG), produced at locations such as landfills dairy farms, or anaerobic digesters can supply gas to onsite fueling infrastructure for vehicles such as refuse haulers and dairy trucks. Bacteria breaks down organic waste to produce the methane, which is then filtered and compressed for use in the trucks as a vehicle fuel creating RNG.

There is equipment costs associated with refining RNG for use as vehicle fuel, which includes processes to remove moisture, CO, CO2 and heavier hydrocarbons. Once the RNG has been refined, equipment and installation costs for a fueling station using RNG are similar to those for a fueling station that is connected to a utility pipeline. Increased use of CNG vehicles opens the door to use of RNG. The great news it that RNG is a fully sustainable fuel and with over 30 percent of municipal solid waste (MSW) being food waste and green material, refuse fleets are uniquely positioned to capitalize on a “closed-loop” approach, collecting and processing organic waste to produce RNG for fueling vehicles hauling the same waste.

Producing RNG captures greenhouse gas (GHG) emissions from agricultural waste and landfills that would otherwise migrate into the atmosphere, turning a costly pollution problem into a revenue-generating product that serves regional climate goals. In fact, RNG has the lowest carbon intensity (CI) values of all fuels rated for California’s Low Carbon Fuel Standard. According to the California Energy Commission (CEC), CNG from landfill gas and dairy-digester biogas reduces life-cycle GHG emissions to 85–90 percent below those of diesel fuel, while biomethane derived from high-solids anaerobic digestion can reduce life-cycle GHG emissions to roughly 115 percent below those of diesel. And the operating economics are good, as the cost of the gas commodity is zero, though the processing system does have capital and operating costs.

The use of landfill gas as a vehicle fuel is becoming more common as organizations seek to cut their greenhouse gas emissions and take advantage of the availability and sale of renewable energy. In July 2014, the EPA finalized the Renewable Fuel Pathways II Final Rule to identify additional fuel pathways under the Renewable Fuel Standard (RFS) Program.

 

BENEFITS OF CNG
The expansion of natural gas vehicles (NGV) usage holds the promise of reducing carbon emissions, lessening dependence on foreign oil, and lowering transportation costs. Viability of natural gas as a transportation fuel has grown partly because the availability of shale gas resources has dramatically expanded and gasoline and diesel prices have spiked. NGVs are also appealing because the high-pressured fuel system is sealed, so little evaporative emission occurs during fueling and use.

MUNICIPALITIES ARE REQUIRING CNG TRUCKS
Cities, Counties and States are increasingly requiring that CNG refuse trucks be used as a condition of granting solid waste and recycling collection contracts. While California jurisdictions have been leading the charge, the town of Smithtown, NY also pioneered this approach in 2006, becoming the first locality outside of California to mandate use of CNG trucks for refuse collection. The approach has since become commonplace elsewhere. Even in communities that do not mandate use of CNG trucks, proposing to use a CNG fleet can improve a firm’s competitive position in the bidding and evaluation process, with the promise of lower contract costs for fuel, reduced emissions and lower noise pollution.

FLEET OPERATIONAL ASSESSMENT
In determining whether it is practical and cost effective to consider converting a garbage truck fleet to CNG, it is necessary to perform the proper due diligence by reviewing the operations and fleet needs as follows:

  • Existing vehicle requirements for conversion to CNG / fleet vehicle-replacement schedules;
  • Typical fuel use per day including travel routes, mileage, stops, capacity by vehicle type;
  • Maintenance capabilities including facilities operational requirements, location, and personnel knowledge and training;
  • Expected growth in services, customers, etc. as related to future vehicle numbers and use; and
  • Proximity to customers with the potential for CNG fueled fleets.
    Feasibility of locating a CNG-fueling facility at the fleet yard, including consideration of adequate space, electrical power, and vehicle circulation.
  • Evaluation of fast-fill (fueling 1-3 NGVs simultaneously within 5-10 minutes, similar to a conventional petrol fueling sequence) vs. time- or slow-fill (fueling the entire fleet simultaneously with individual dispenser hoses installed at NGV-parking spaces, typically over 8-10 hours each night).

The answers to these primary factors are critical in assessing the practicality of converting a fleet to CNG.

FLEET VEHICLES COST – BENEFITS ANALYSIS
In addition to the due diligence collected from the fleet operational assessment, fleet managers should assess the qualitative and quantitative comparisons of using CNG for new RCVs such comparisons to include:

  • Cost of new vehicles;
  • Lead time between vehicle order and delivery;
  • Cost of diesel fuel;
  • Five (5) and ten (10) year spreads on a miles per equivalent gallon basis based on projected supply/demand of fleet use in the US of various fuels;
  • Fuel tank capacity, fueling frequency, and mileage;
  • Expected vehicle performance in terms of productivity, number of stops, starts, unit life, speed, performance, acceleration, vehicle range, etc.;
  • Emissions based on expected use of the fueling options;
  • Cost per mile comparison;
  • Payload capacity impacts;
  • Gross Vehicle Weight, weight difference and impact on route numbers or timing of routes;
  • Noise generation comparison; and
  • Analysis on issues stemming from the mounting of the fuel tanks to the body, specifically addressing:  1. Height restrictions; and 2.Tank serviceability by mechanics and required fall protection.

OPERATIONAL AND FINANCIAL IMPACT ANALYSIS
Conducting a operational and financial impacts analysis includes reviewing personnel (headcount) requirements for repairs, fleet maintenance, and operations of the fleet assuming vehicle replacement schedule for the next five (5) and ten (10) years with CNG vehicles, including the following:

  • Expected service life of the vehicle
  • Routine/scheduled maintenance requirements including timing and materials;
  • Required maintenance including maintenance facility requirements/modifications and personnel;
  • Vehicle inspection requirements (including fuel tanks) and licensing fee comparisons;
  • Cost and availability of replacement parts, including if vehicle fuel type increases in use or is phased out of manufacture;
  • Number and skill level of personnel for maintenance;
  • Initial and ongoing training requirements for service and maintenance personnel;
  • Comparison of cost of in-house maintenance and/or outsourcing maintenance;
  • Modifications to the maintenance garage as needed to make the garage CNG-safe;
  • Initial and ongoing training requirements for mechanics and drivers; and
    Identifying local private sector repair and service facilities and providers.

FUELING FACILITY SITE ANALYSIS
The US Department of Energy Alternative Fuels Data Center website offers a free alternative fueling station locator for finding alternative fueling stations near a specific address or ZIP code or along a route in the United States. It allows users to enter a state to see a station count and specific fueling facility locations (see http://www.afdc.energy.gov/locator/stations/)

In the event a local CNG fueling facility is not available, a fueling facility will need to be designed and constructed. In this scenario, it is important to consider the following as part of the decisions as to where to site the facility:

  • Location of natural gas distribution lines in relation to the planned CNG facility and requirements to adequately serve the compressors;
  • Location of electrical service in relation to the planned CNG facility and the cost and requirements to adequately connect and operate the compressors;
  • Footprint of the locations to house the entire solid waste fleet;
    Footprint of the locations to house required vehicle maintenance structures and the requirements and costs for those maintenance structures/changes to existing structures;
  • Logistical comparison of each with respect to ingress and egress as related to CNG fueling;
  • Operational cost impact including any route modifications required of each CNG refuse trucks based on vehicle fueling requirements;
  • Operational cost impact including any route modifications of all non-CNG refuse trucks including vehicle fueling requirements;
  • Design-engineering and permitting requirements including timing;
    estimated infrastructure costs;
  • Maintenance and operational costs for the station(s) and related equipment;
  • Useful life of major station equipment and estimated replacement cost;
    Consideration of developing a coop or shared-use CNG facility with nearby fleet(s), as well as consideration of the public sale of CNG as a revenue stream;
  • Suitability of time-fill and fast-fill CNG station(s) and/or a combination thereof; and
  • Should procuring for such services be required, estimating the timing for the possible design, permitting, and construction for all locations, including a temporary station (if applicable) needs to be considered.

If a fueling facility is to be designed and constructed, it is necessary to determine a baseline for function and performance for the needed CNG fueling facility, as required to meet the planned use. Once the key design parameters have been determined – i.e. number of fast and/or time-fill dispensers, standard cubic ft. per minute (SCFM) capacity of the compressor system, compressor-redundancy levels etc. – site-specific configurations and conceptual equipment layouts will be prepared that account for variations in gas-supply pressure, total available space, and even shape of the space (perhaps a single duplex skid would fit better than two separate skids at a given site). This would also include assessing cost and operational factors for fast-fill vs. time-fill solutions, such as reduced fueling-labor costs for time fill, verses reduced dispenser costs and improved fuel-use tracking for fast-fill configurations.

Once the equipment configuration and conceptual site layout for two or three candidate locations has been established, that information can be used to prepare preliminary construction-cost estimates for the fueling facility. This needs to include site-specific allowances for ancillary factors, such as paving, fencing, lighting, supply-utility upgrades, and added sound-mitigation requirements.

FUELING FACILITIES LOCATION IMPACTS
In the event a local CNG fueling facility is not available, a fueling facility will need to be designed and constructed. In this scenario, it is important to consider the following as part of the decisions as to the optimal location(s) of permanent fueling station(s). Some of the critical factors that need to be included in the analysis are:

• Permitting, design and construction costs;
• Timing of permitting;
• Selection of a suitable design-consulting firm to prepare engineered drawings and specifications;
• Selection of Equipment;
• Operational and maintenance costs of the station(s);
• Analysis of the long term costs or operational benefits;
• Operational impact (if any) on the routing of the RCVs.

Optimal projects should assume a RCV fleet-replacement schedule for the next five (5) and ten (10) years is accomplished with CNG vehicles.

Optimal fueling facility locations should also consider opportunities to provide service to the public and/or commercial customer(s) whose fleets may be served by a conveniently sited station(s). With a production cost of less than $1.15 per DGE and a typical sale-price range of $2.00 to $2.90 per DGE, a reasonable margin per DGE is available.

It is also important to note that it may be necessary to determine if a temporary (or mobile) fueling facility will be required, and if so, the costs, operational requirements, timing of completion, location, and the vehicle fueling capacity of the temporary station.

GRANT AND FUNDING OPPORTUNITIES
It is important to conduct research and identify funding and grant opportunities as well as any tax or government rebates or credits for which a specific fleet may qualify. Various incentives may be available in the forms of tax credits, grants, rebates and voucher-based vehicle price buy-downs which can further accelerate payback period for fleet conversions.

Along with Federal incentives, several states such as California, Colorado, Florida, Texas and Indiana offer strong incentive programs for purchasing vehicles that run on CNG. Other states offer incentives as well, and some states offer incentives for building CNG fueling infrastructure.

The federal government has for several years provided for an excise tax credit of 50 cents per gasoline gallon equivalent (GGE) of CNG used as a transportation fuel to be claimed on tax filings, as well as a tax credit of up to $30,000 of the cost of building CNG fueling infrastructure. The federal tax credits expired on the last day of 2014; however there is a high likelihood that during its current session, Congress will renew these tax credits retroactive to the first of January 2015. Depending on the type and amount of incentives received, ROIs for fleet conversions to CNG RCVs can be reduced to just two or three years. A listing of incentives available for deploying CNG trucks can be found at http://www.afdc.energy.gov/laws and at ngvamerica.org/government-policy/federal-incentives/.

OTHER CONSIDERATIONS
The recent discoveries of massive natural-gas reserves in the U.S. are creating greater scales of economy in support of long-term planning and fleet conversions to NGVs. NGVs are helping the U.S. and Canada to break free of dependence on foreign oil. According to the Environmental Protection Agency, NGVs typically emit 25 percent less greenhouse gases than diesel-powered vehicles.

In addition, natural gas is lower priced than diesel, approximately $1.50 to $2.50 less per gasoline gallon equivalent (DGE), depending on whether the CNG is purchased at a retail location or is produced at a fleet’s own facility. About 50 percent of new garbage trucks and 25 percent of new buses in the U.S. operate on natural gas. In several cities, all RCVs and buses are now running on natural gas, either in city collection fleets or contracted private-sector fleets.

While diesel prices have declined in recent months, fleet owners and managers need to take a long-term view about petroleum costs and fleet conversions to CNG. The U.S. Energy Information Administration (EIA) has projected that natural gas prices will remain significantly lower than the price of petroleum for at least the next two decades and that natural gas prices will exhibit only one-third the price volatility of diesel fuel.

Fleet standardization in terms of vehicle type, manufacturer, model, chassis, body and other specifications is an excellent way to gain greater productivity out of fleet operators, fleet maintenance, reducing spare parts inventory, and increased utilization the fleet.

If you are considering the switch to a natural gas fleet, work with experienced experts such as WIH Resource Group to assist you in deciding what is best for your business.

ADDITIONAL RESOURCES
Alternative Fuels Data Center (AFDC)http://www.afdc.energy.gov/ – The Alternative Fuels Data Center (AFDC) is a comprehensive clearinghouse of information about advanced transportation technologies. The AFDC offers transportation decision makers unbiased information, data, and tools related to the deployment of alternative fuels and advanced vehicles.

Alternative Fuels Vehicles Group on Linked Inhttp://goo.gl/SvYYTN – The Alternative Fuel Vehicles (AFV) Group on Linked In was created as a catalyst for sharing information on AFVs and promoting the use of AFVs and fleet conversions. The AFV Group was founded and is sponsored by WIH Resource Group (http://www.wihrg.com). The AFV welcomes new members and encourages member participation in the Alternative Fuel Vehicles Group (AFV) discussions.

California Natural Gas Vehicle Partnershiphttp://www.cngvp.org/ – The California Natural Gas Vehicle Partnership is an alliance of air quality, transportation and energy agencies; vehicle and engine manufacturers; fuel providers; transit and refuse hauler associations; and others interested in supporting and increasing deployment of natural gas vehicles throughout California. The website provides additional NGV facts, general industry news and success stories.

CNG Nowhttp://www.cngnow.com/ – The official Pickens Plan site promotes natural gas for transportation and provides information on vehicles, fueling and energy news.

NGVAmericahttp://www.ngvamerica.org/ – This national trade association promotes development of the U.S. market for natural gas vehicles, and advocates for supportive federal policies, publishes a weekly newsletter and provides fact sheets and other resources for NGVs and CNG facilities.

NGV Global – http://www.ngvglobal.com/ – The International Association for Natural Gas Vehicles provides news and information on the industry from around the world.

Natural Gas Vehicle Technology Forumhttp://goo.gl/RZAgSA – Run by the Clean Vehicle Education Foundation and supported by the Department of Energy and the California Energy Commission, the NGVTF aims to advance natural gas vehicle and infrastructure technology and deployment.

Natural Gas Vehicle Institutehttp://www.ngvi.com/ – The Natural Gas Vehicle Institute provides training and consulting to address a full range of natural gas vehicle and fueling needs.

CALSTARThttp://www.calstart.org/ – The nonprofit CALSTART works with the public and private sectors to develop advanced transportation technologies and help clean transportation companies succeed.

Energy Information Administrationhttp://www.eia.gov/naturalgas/ – Statistics on and analysis of natural gas supply, production and use from the U.S. Department of Energy.

ABOUT THE AUTHORS
Bob Wallace, MBA is the Founder and a Principal of WIH Resource Group, Inc. and has over 27 years of experience in waste and recycling collections programs management, transportation / logistics operations, alternative fuels (CNG, LPG, RNG, LNG & biodiesel), Fleet Management, Operational Performance Assessments (OPAs), Waste-by-Rail programs, recycling / solid waste operations, transfer stations, landfills, planning and development. Mr. Wallace has extensive experience in working with clients in both the private and public sectors. Prior to WIH Resource Group, Mr. Wallace served as the Director of Transportation & Logistics for Waste Management, the largest provider of waste management and recycling services in North America. He can be reached at bwallace@wihresourcegroup.com or 480.241.9994. For more information visit http://www.wihrg.com

Reb Guthrie is a Principal and co-founder of Fuel Solutions Inc. He has managed most of the projects performed by the company since its inception 1n 1994, including the assessment, specification, development and installation of more than 130 CNG fueling stations for municipalities, transit authorities, counties, school districts and federal agencies throughout the U.S. Reb’s recent project-management work includes providing lead technical consulting to the Los Angeles County MTA in the procurement of a $6.2 million fast-fill CNG facility at Division 13 in downtown Los Angeles, and the design and construction supervision of a $2.1 million fast- and time-fill fueling facility for the City of Denver Sanitation Department. He has also been certified by the NGV Institute and Southern California Gas Company as an NGV Fueling Facility Planner. Reb has a BS in Economics from the College of Business at Arizona State University.

Published & Written by: WIH Resource Group, Inc.

For More Information, visit WIH Resource Group’s You Tube by Clicking HERE

SOURCE: WIH Resource Group & Fuel Solutions

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Contact WIH Resource Group
For more information, Visit our website by CLICKING HERE and contact us today to see how we can best serve you by phone at 480.241.9994 or by e-mail at admin@wihrg.com

WIH Resource Group’s Diversified Client-Specific Services include:

  • Waste Management Consulting
  • Recycling Programs Optimization
  • Alternative Fuels for Truck Fleets
  • Research & Polling – Customer Satisfaction Surveys
  • Landfill Operations Consulting
  • Business and Assets Appraisals & Valuations
  • Collection, Processing, Transfer & Disposal Procurement
  • M&A Due Diligence
  • Waste to Energy & New Technology Evaluation Environmental Services
  • Expert Testimony/Litigation Support
  • Facility Planning & Design
  • Finance and Economic Analysis
  • Mergers, Acquisitions and Divestitures
  • Operations & Performance Assessment (OPAs)
  • Planning – Solid Waste, Recycling and Program
  • Program Management & Capital Project Planning
  • Rates, Financial Analyses & Appraisals
  • Rates and Regulatory Support
  • Recycling Program Design
  • Renewables / Clean Energy Technology

Click here to request more information about these services & WIH Resource Group

RELATED LINKS: http://www.wihrg.com

Clean Green Renewable Energy

ABOUT WIH RESOURCE GROUP
WIH Resource Group is a global leader and provider of comprehensive waste management consulting, recycling, transportation / logistical and business solutions, specializing in, among other services, waste management operational performance assessments, financial analysis. transportation / logistics, alternative fuel solutions, solid waste planning, waste and recycling market studies, business development, business valuations, due diligence and Mergers and Acquistions (M&A) transactional support and environmental services.

WIH Resource Group’s experience includes the oversight of operations, maintenance, finance, human resources, business development, sales, safety and environmental compliance while maintaining responsibility for multi-million dollar publicly and privately held assets including: a variety of collection operations, Sub-title D and hazardous and Class II landfills, transfer stations, intermodal facilities, recycling centers, buyback centers, material recovery facilities, vehicle and container maintenance operations, call centers and payment processing operations.

Based in Phoenix, Arizona, the company serves both private companies and public sector Agency clients throughout North America and internationally.  To learn more about WIH Resource Group, Inc. visit http://www.wihrg.com .

For Additional information on WIH Resource Group, Inc. contact:
Bob Wallace, Principal & VP of Client Solutions
WIH Resource Group – Waste Management, Recycling and Logistical Solutions
Email: admin@wihrg.com Phone: 480-241-9994

Website: http://www.wihrg.com
Daily News Blog: http://www.wihresourcegroup.wordpress.com
Follow WIH Resource Group on Twitter: http://twitter.com/wihresource

WIH Resource Group’s White Paper on Compressed Natural Gas (CNG) Fuel Use in Refuse Collection Vehicles Industry is Available for Purchasing:   The entire 65-plus page report and Appendices: $299.00 US Funds – Visa and Mastercard Accepted.

CLICK HERE to Order Your Copy today!

Phone: 480.241.9994 ~ E-mail: admin@wihrg.com

Should you have any questions about this news or general questions about our diversified services, please contact Bob Wallace, Principal & VP of Client Solutions at WIH Resource Group and Waste Savings, Inc. at admin@wihrg.com

Feel free to visit our websites for additional information on our services at: http://www.wihrg.com and our daily blog at https://wihresourcegroup.wordpress.com

Follow Bob Wallace and WIH Resource Group on Twitter: http://twitter.com/wihresource

Be sure to check out Invigorated Solutions, Inc.

  1. Follow @invigorsolution on Twitter
  2. Visit our website: http://www.invigoratedsolutions.com/
  3. Like our Facebook Page
  4. Follow Invigorated Solutions on Tumblr

About Invigorated Solutions

Passionate about life, learning, love and sharing their experiences of life, Bob & Tracy Wallace enjoy sharing their invigorated (energizing) solutions / advice and useful life tips for living life to the fullest on their popular life development blog, “Invigorated Solutions”.  Click HERE to visit our website for more valuable information.

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