Tryden Energy Systems
Generate power from the energy you already pay for
Increase overall plant/building efficiency with Wate Heat Recovery
Discover the Tryden Commercial ORC Systems
Features
Applications
Low grade heat recovery (Temperatures under 300F)
Works with a wide range of hot fluids and gasses
Simple and compact design
Pre-Engineered and Pre-Assembled for you Plant
Ideal for saturated steam
Payback Period of 2-5 years
Food and Beverages
- Sterilization
- Boiling
- Pasteurization
Textile
- Bleach
- Dyeing
Chemical and Pharmaceutical
- Distilling
Hotels & Hospitals
- Pre-heat of boiler feed water
- Plant Heating
- Cool-down of process water
Sizes
2, 5, 10, 20, 30, 40 kWh
Applications Examples
Breweries
California is mandating 50% Energy and GHG reduction by 2025.
Owners and operators may consider energy costs as an expense they cannot control, but that is the case no longer. Energy Usage, GHG Reduction, Efficiency and Load Management is a focus of the Brewers Association as America moves into a sustainable future.
ORC Technology allows Brewers to recover the energy they use everyday to heat and cool the wort. The gut of the ORC are two food grade heat exchangers, that do not interrupt the brewing process. The Tryden System can capture 10% of the thermal energy from the boilers that currently goes to waste as heat thereby making electricity, offsetting operating costs, and decreaseing GHG emmissions.
To facilitate heat recovery, Tryden also offers a line of high efficency boilers
Contact us for more information
10 kWh System:
Low Temperature Recovery
Hi - Temp Circuit
Annual Performance
Footprint
Fluid
Inlet Temp (F)
Outlet Temp (F)
Flow Rate
Water/Wort
180
155
38 gpm
Gross Electric Production
System Consumption
Net Production
42 MWh
6 MWh
36 MWh
36" Wide,
60" long
72" High
Low - Temp Circuit
Annual Emissions Reduction
Payback Period
Fluid
Inlet Temp (F)
Outlet Temp (F)
Water
68
86
CO2e - Carbon Dioxide
CH4 - Methane
NOx - Nitrous Oxide
14 mT
0.7 lbs
0.2 lbs
5 years
Autoclave Processing
Autoclaves consistantly cycle between heating and cooling requireing cooling towers, and other means to offload excess heat.
Tryden ORC technology allows Operations Managers to recover the excess thermal energy used in post-processing to cool the autoclave by placing an ORC between the hi-heat cooling circuit and the low-heat cooling circuit. The Tryden System can capture 10% of the thermal energy from the autoclave, normally vented to the atmosphere thereby makeing electricity, offsetting operating costs, and decreaseing GHG emissions.
We'll size the system for you
Contact us for more information
Dairy Biodigesters
Biogas is created with an Anaerobic Digester. These systems turn manure and water into usable Biogas - a drop in replacement for Natural Gas which sequesters carbon and has a near zero emissions rating. Often digesters run the biogas to an efficient internal combustion engine (ICE) to generate power. This ICE is environmentaly friendly because the exhaust comes from sequestered carbon. The Tryden ORC works with the ICE to convert the wasted exhaust heat into electricity thereby boosting efficiency and decreasing the emissions; AND, Tryden ORC can work with the heat exchanger used to regulator the biodigester's internal temperature. The additional electricity can be used to offset operational costs or to assit in the creation of biogas.
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Technical Summary | Organic Rankine Cycle System
The ORC works like a steam power plant - but, at a much lower temperature.
It is similar to an HVAC Cycle run in reverse. HOT + COLD = Electricity.
The ORC requires a special expander turbine to generate electricity.
The ORC uses execess thermal energy, trapped in a fluid or gas.
This can be in water, fluid, saturated steam, or exhaust gas with temperatures as low as 160F.
To work, it requires a cooling circuit input at least 70F lower than the heating circuit input.
