We see here a new range of waste
heat energy converters coming on to the market to fill the market for smaller
applications. It always was a tech fix
but never attracted a major player to satisfy the very real market.
I was involved in a serious effort
to tap flare gas in the Alberta
oil industry and that was shut out at the time by the power company. Today it would fly easily and with this tech
package it will swiftly be made to happen.
A huge amount of heat energy is
wasted and the Rankin Engine is efficient at producing power. Now we have a suitable system for smaller
applications.
Waste heat engine that can use any fuel receives patent and will launch
commercially later in 2011
MAY 04, 2011
It is designed to run on waste heat from the exhaust of small
industrial furnaces, diesel engines and gas turbines,
Cyclone's WHE has also been adapted for other recovered energy applications.
One such extended use is the Phoenix
10, an environmentally-friendly
electric power generator that runs on used motor oil. Earlier this year Cyclone
announced that Topline Energy Systems, an affiliated company of global
automotive parts manufacturer Topline Automotive Engineering, signed-on to help
commercialize and manufacture the WHE for the Phoenix 10 and other products.
The Cyclone Engine needs:
* No catalytic converter or muffler
* No oil pump or motor oil
* No transmission or transmission fluid
Overall, the Cyclone Engine has fewer parts to manufacture, assemble and, ultimately, break-down or wear-out. Its components are made of inexpensive, non-exotic materials. As a result, we expect the cost of manufacturing and maintaining the Cyclone Engine will be less expensive than conventional gasoline or diesel engines of comparable power output.
Phoenix-10 Waste Oil Electrical Generator, designed to produce 10 kw of
power
Size (with cover): 23"wide x 28"deep x 56"tall
Weight: Approximately 400 lbs
Phoenix-40 diagram
Size (with cover): 36"wide x 36"deep x 48"tall
Weight: 500 lbs
Power Source: Mark V external combustion engine by Cyclone Power
Technologies
Fuel Consumption: Approximately 3.5gal/hr at full output
Electrical Output: Up to 60kW
Sound Emission: Similar to a residential air conditioner
Exhaust Temperature: Approximately 600°F (at engine top)
Emission Data: NOx and CO2 particulates essential eliminated
The Phoenix-40 is the next generation of technology that is capable of utilizing waste oil products, such as used motor/equipment oil, to produce electricity for transfer to the power grid. Utilizing the award-wining, clean burning Cyclone Mark V External Combustion Engine, preliminary designs rate the P-40 generator system as producing upwards of 60kW of electrical power.
The
The exhaust from the Waste Heat generators are multiples cleaner than typical gas or diesel engines. The reason is simple.. gensets burn the fuel more thoroughly since it stays in the combustion chamber far longer than internal combustion engines. Internal combustion engines are powered by fuel exploding in the cylinders.
Mass production for the Phoenix-10 to commence in the second quarter of 2011. The Phoenix-40 beta testing and pilot program is projected to commence toward the end of 2011.
Based on U.S. Department of Energy statistics, Cyclone estimates that
there are well over $250 million of potential small-scale waste heat recovery
installations in the United States alone that would benefit from the patented
WHE system. Other uses include increasing operating efficiencies of long-haul
trucks, busses and trains. Phoenix Power Group, manufacturer of the Phoenix 10,
has estimated over $30 million in sales for
that clean-tech product following its launch, currently slated for later this
year.
The following are a few of the many possible heat sources for the Cyclone WHE systems:
• Glass melting furnace
• Cement kiln
• Fume incinerator
• Aluminum reverberatory furnace
• Industrial boiler
• Commercial food processing ovens
• Steel electric arc furnace
• Turbine or reciprocating engine exhaust
One of the primary reasons for the vast amount of unused waste heat is that the economies of scale required to utilize current waste to power technologies – typically massive steam or Organic Rankine cycle (ORC) turbines – are too large for many heat producing sources. Thus, waste heat recovery is both technologically and economically impractical. Cyclone’s WHE systems are meant to address these concerns of system scaling, allowing a major, underserved market of industrial heat producers to put to work their wasted heat.
The market which Cyclone’s WHE systems could serve, and the impact that such installations could have, are enormous. For instance:
Average WHE installation size: 250kW
Average energy savings per year: 1.35 Million kWh (1)
Average CO2 avoided per year:
794 metric tons
Potential number of industrial installation (US): 10,000 (2)
Potential total energy savings per year: 13.5 billion kWh
Potential total CO2 avoided per year: 7.94 Million metric tons
(1) Assuming full load, 18 hrs/day, 300 days/yr.
(2) These projected figures are based upon the assumptions from the DOE
Energy Information Administration that there are approximately 50,000
industrial heat sources that produce a minimum of 500ºF of waste heat; as well
as other figures taken from the DEO web site. Any projections by the company
are for demonstration purposes only, and actual operating results may vary.
1 comment:
Very well written piece
Solar Power systems may seem like the new kid on the block but the reality is they have been around for over 70 years.
There are solar panels in the Sahara Desert that have been running continually for 27 years in sandstorms and blazing heat, others that have been in space for over 50 years and going from -160 to +200 degrees C every 90 minutes!
Post a Comment