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== Understanding the Market == | == Understanding the Market == | ||
Most buildings contain the potential for great energy savings. In order to exploit this potential, a number of economic factors must be considered. These include (but are not limited to): | |||
* | * Initial/start-up cost | ||
* | * Savings potential | ||
* | * Equipment life | ||
* | * Payback period | ||
Other considerations include the use of fuel and electricity. Understanding the economic trends of these energy sources can be of great benefit. For instance, if some equipment type have the capability of multiple fuel usage. By prioritizing fuel consumption based on off-peak hour usage, savings can be had without the need of retrofit applications. In situations where the equipment cannot be powered via multiple energy sources, the cost of replacement and/or retrofit must be weighed against the payback period of the device. Often, cost and energy consumption can be reduced through the simple training of plant operators and the maintenance crew. | |||
== Project Requirements == | == Project Requirements == |
Revision as of 14:59, 13 May 2010
ABSTRACT
Introduction
Many of the busiest buildings today are quite old. Some of these buildings waste large amounts of energy, resulting in higher loads on the grid as well as increased operational costs. Furthermore, the energy demands of our society are on the rise. These factors, combined with the climate change dilemma, indicate that before increasing energy output, the load on the grid should be reduced. By auditing existing facilities, large gains in efficiency can be made. These gains result in a reduction in energy consumption as well as monetary savings. Often, solutions to problems require little to no money and involve only a change in operational philosophy. In the case of retrofitting, most payback periods are on the order of a few years or less. These retrofits can provide large efficiency gains while adding a negligible amount of maintenance. This page is intended to be used as a basis for performing energy audits. It provides a general guideline for auditing and the suggested data to collect. Every situation is unique, however, and care should be taken to ensure that the proper solutions are being implemented.
Understanding the Market
Most buildings contain the potential for great energy savings. In order to exploit this potential, a number of economic factors must be considered. These include (but are not limited to):
- Initial/start-up cost
- Savings potential
- Equipment life
- Payback period
Other considerations include the use of fuel and electricity. Understanding the economic trends of these energy sources can be of great benefit. For instance, if some equipment type have the capability of multiple fuel usage. By prioritizing fuel consumption based on off-peak hour usage, savings can be had without the need of retrofit applications. In situations where the equipment cannot be powered via multiple energy sources, the cost of replacement and/or retrofit must be weighed against the payback period of the device. Often, cost and energy consumption can be reduced through the simple training of plant operators and the maintenance crew.
Project Requirements
The goal of this project is to generate an outline for performing energy audits. This outline will contain information enabling companies to quickly audit their facilities and generate solutions to efficiency problems.
Design
To begin, the main components of the building will be inspected to yield the required information to perform an efficiency analysis. Most of this information could be gathered from the manufacturer and/or the equipment operator.
The following devices/systems account for the majority of building energy expenditure:
Boiler ECM
Chiller ECM
Service Water Consumption ECM
Air Handling Equipment ECM
Costs
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See Help:Tables for more.
Discussion
Your discussion.
Next Steps
The next steps.
Conclusions
Your conclusions.
Contact details
Add your contact information.
Pages in category "Energy audit"
The following 56 pages are in this category, out of 56 total.
B
E
- ECM - Collaborating documents electronically
- ECM - Desktop videoconferencing
- ECM - Double-sided printing
- ECM - Energy efficient laptop computers
- ECM - Energy efficient power supplies for desktop computer
- ECM - Energy monitoring
- ECM - Energy Star Monitors
- ECM - Energy-efficient PC\workstations
- ECM - Energy-efficient printers
- ECM - Linear fluorescent retrofit (T12 to T8)
- ECM - Motion sensor controlled vending machines
- ECM - Motion sensor controlled vending machines/tr
- ECM - Network server virtualization
- ECM - Phantom power reduction (smart power bars)
- ECM - Server Virtualization
- ECM - Server Virtualization Literature Review
- ECM - Vending machine motion sensors
- Electricity test kit: QAS
- Energy audit
H
R
- RCEA energy audit reviews
- RCEA energy audit reviews/Food for People
- RCEA energy audit reviews/Honest Engine
- RCEA energy audit reviews/Hospice of Humboldt
- RCEA energy audit reviews/Japhy's
- RCEA energy audit reviews/Leon's Car Care Center
- RCEA energy audit reviews/Mckinleyville Community Services District
- RCEA energy audit reviews/McMurray
- RCEA energy audit reviews/Ramone's Bakery
- RCEA energy audit reviews/Richard E Benoit DDS
- RCEA energy audit reviews/Rookery Books
- RCEA energy audit reviews/RREDC
- RCEA energy audit reviews/Scrapper's Edge
- RCEA energy audit reviews/Sequoia Humane Society
- RCEA energy audit reviews/Tailwaggers Thrift Shop
- RCEA energy audit reviews/Vellutini Baking Company
- RCEA energy audit reviews/Wildberries Marketplace
- Redwood Coast Energy Authority