Turns out that Waste Management has a bunch of environmental information on their web site. While putting brochures on a web site doesn't fix the environment it shows they are at least thinking about it and recognizant of their role in environmental stewardship. I don't know how well they do as environmental stewards. However it's clear they have the potential to play a large role due to their position of receiving all the trash people throw out. That trash is potentially a resource stream which can be turned into products.
It's not just Waste Management but every "trash" company in the world, if there were technology whereby they could perform recycling on a huge scale of every item that comes into their hands it would perhaps erase the word "landfill" from our vocabulary. Unfortunately that potential isn't anywhere near being implementable. One small piece to the puzzle is the "landfill gas" that lots of waste companies, Waste Management included, is looking at tapping. This gas is a form of natural gas and can be burned just as natural gas, and being a biogas has some positive environmental benefit over fossil natural gas. It can also be liquified into a fuel to use in trucks.
On November 2, 2009, Waste Management and the Linde Group announced a project at the Altamont Landfill (near Livermore CA) which makes liquified natural gas from landfill gas, the LNG will be used to power Waste Management's trucks. They believe the plant has the capacity to produce 13,000 gallons of fuel per day, from that one plant. Given that it's from just one of Waste Management's landfills, it's mind boggling to think of the quantity of landfill gas emitted from all landfills around the country (or around the world), and how much fuel that represents.
Energy production from landfill gas turns out to be a big deal. Yahoogling for "landfill gas renewable energy" turns up lots of interesting articles and resources. The following is just a smattering of what I found.
The landfill-to-energy process begins with garbage collected and brought to landfill operations. Much of it is organic and is broken down by bacteria in a natural process. Methane and other gasses known as landfill gas is produced. With special wells the gas is captured and piped to a processing facility.
After processing it is the same as natural gas and can be used the same way.
Each landfill gas "well" is just a couple pipes drilled into the ground.
Waste Management Partnering to Find Gas in the Trash: This project at the Altamont Landfill is only one of many which Waste Management plans to launch. They own 477 landfills and have announced intent to open 60 landfill gas projects by the end of 2012. Further there are 1,700 operating landfills in the U.S., and according to the the EPA’s Landfill Methane Outreach Program, they contain enough natural gas to produce 2,643 megawatts of electricity.
CARB tables of landfill gas composition shows the percentages of different constituents to landfill gas. On average it's 44% methane and 35% CO2, both are recognized as the leading components to greenhouse gas.
Clearly averting the emission of those gasses into the atmosphere would abate some greenhouse gas issues. However burning the landfill gas doesn't destroy the carbon. Therefore burning landfill gas cannot avert emission of the landfill gas. What it can do is replace the use of some fossil natural gas or fossil liquid fuels.
Production of 25 MW of Electricity Using Landfill Gas: Describes a project in Montreal (Canada) to build an electricity plant that uses landfill gas as its fuel. The plant cost CAD $37 million to build and produces 25 megawatts of power.
Video: Powering Up with Landfill Gas: Discusses a similar project at the University of New Hampshire. In the video it's mentioned they've been "flaring" their landfill gas, and are now instead using it to generate power. Flaring gas just means they're burning it with no attempt to capture any energy. Turning it from a flaring to power production situation is an improvement by any measure.
Waste-based Renewable Energy: Landfill operators place collection wells that act like straws throughout a landfill to draw out the methane gas. The gas is then piped to a compression and filtering unit beside the landfill. Technicians make sure that the gas is filtered properly before it is piped to its end user. The entire process is carefully managed to prevent odors and leakage of waste material.
California Energy Commission, Renewable Energy Research, Biomass and Landfill is a resource center about landfill gas research in California. When a landfill is capped, landfill gas (LFG) is generated as organic portions of the municipal solid wastes (MSW) are decomposed. Traditionally, landfill is not controlled and the expected period over which landfill gas will be produced may range from 50 to 100 years. But a usable landfill gas production rate that can be utilized lasts for only 10 to 15 years. A bioreactor is a controlled landfill in which water and other nutrient sources are added into the MSW to increase the landfill gas production rate.
The four basic uses of landfill gas is:
- medium-BTU gas production,
- electricity generation,
- injection into existing natural gas pipelines,
- conversion to other chemical forms. California leads the nation in both the solid waste generation and number of landfill gas to electricity (LFGTE) facilities. The Puente Hills landfill, operated by the Los Angeles County Sanitation District, produces approximately 46.5 MW of power and is the largest LFGTE facility in the U.S.
US EPA Landfill Methane Outreach Program (LMOP): is a voluntary assistance and partnership program that promotes the use of landfill gas as a renewable, green energy source. Landfill gas is the natural by-product of the decomposition of solid waste in landfills and is comprised primarily of carbon dioxide and methane. By preventing emissions of methane (a powerful greenhouse gas) through the development of landfill gas energy projects, LMOP helps businesses, states, energy providers, and communities protect the environment and build a sustainable future.
Instead of allowing LFG to escape into the air, it can be captured, converted, and used as an energy source. Using LFG helps to reduce odors and other hazards associated with LFG emissions, and it helps prevent methane from migrating into the atmosphere and contributing to local smog and global climate change.
Is Landfill Gas Green Energy? Is a study by the Natural Resources Defense Council looking at just how "green" an energy can one get from landfill gas.
- Combustion of raw LFG in a flare, an engine, or a turbine dramatically reduces the overall toxicity.
- Collection and combustion dramatically reduces global warming impacts and toxicity.
- Using LFG to generate electricity further reduces the greenhouse gas impacts and also reduces emissions of nitrogen oxides, sulfur dioxide and mercury. Burying garbage in landfills results in the release of more heat-trapping gases than any other waste-management option.
- Because LFG is a by-product of landfills, and landfills are such a poor way to manage our waste, LFG can not be considered renewable.
Linde and Waste Management commission world’s largest landfill to liquefied natural gas facility
Altamont Landfill's gas fuels garbage trucks
World’s Largest Landfill Gas to LNG Plant Opens in California:
Landfill waste to power Waste Management hauling fleet
Landfill Gas to Energy
http://en.wikipedia.org/wiki/Biogas
Renewables and Alternate Fuels > Landfill Gas
Baltimore Landfill Gas Powers Up Coast Guard Yard
Production of Renewable Energy
Landfill Gas Resources and Technologies
Energy Companies To Harvest Durham Landfill Gas
Mexico’s President Applauds Monterrey’s Landfill Gas Plant as Model Renewable Energy Project for Latin America
Duke Energy Carolinas Signs Deal to Turn Landfill Gas into Energy
Waste Management to build 60 new landfill gas plants
LANDFILL GAS-TO-ENERGY PROJECT CASE STUDIES
Landfill gas–to–energy facility at Cedar Hills Regional Landfill
Landfill Gas Videos
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