technical writing
AUDIENCE PROFILE
Audience Identity and Needs
Primary audience: Brad Jones, CEO
Relationship: None
Intended Use of Document: Determine Feasibility of Wireless Energy Transfer
Prior knowledge about this topic: Very little
Additional information needed: TBD
Probable questions: Unknown
Audience's Probable Attitude and Personality
Attitude toward topic: Receptive
Probable objections: Unknown
Probable attitude toward this writer: Receptive
Organization climate: Financial
Persons most affected by this document: Cautious
Temperament: Curious
Probable reaction to document: Skeptical
Risk of alienating anyone: None
Audience Expectations about the Document
Reason document originated: My idea
Acceptable length: Concise
Tone: Business
Cultural Considerations: U.S.A audience
Due Date: October 30
Wireless Energy Transfer
Prepared for
Brad Jones
Electric Reliability Council of Texas, Inc.
By
Alfredo Argueta
OCTOBER 23, 2021
Letter of Transmittal
October 20,2021
Brad Jones- CEO
Electric Reliability Council of Texas, Inc.- Electrical power
7620 Metro Center Drive
Austin, Texas 78744
Dear Mr. Jones:
We are submitting the attached report entitled Wireless Energy Transfer
This report will examine the problems with the way energy is transfer around the globe. The limitations set by nature and how wireless energy will help us overcome those boundaries. Also, the report will include how the mechanics of how this should work as well as what we need to get us to that point.
Sincerely,
Alfredo Argueta
Table of Context
Introduction
The way energy has been transferred has been the same for a long time, and with time we have evolution, which is the future and the importance of newer technology to being developed. Wires are something that will be a thing of the past, the ability to transfer energy without wire is revolutionary. The possibilities of wireless energy transfer have unlimited uses, which can and will help those people and areas that cannot have energy due to geological barriers.
Since the creation of a method to store and harness electricity for man’s personal use we have used wires as the man source to transfer the stored energy. As we work on the future capabilities of technology, we are limited by our possibilities due to the fact that we may not have the materials or resources to accomplish what it is we need to do. Materials are become scarce as we use them to create our and advanced technology, so a good way to off put the material is to reduce the wires used in our technology. The power grids around the world are all made the same way with wire circulating around powering anything is that needs to be powered.
With this method of wireless energy there would be no need to run all the wires or even have as many towers as possible for the power. This would be a great reduction to cost and over all help everywhere gain easy access to power as long as we are able to place transmitters in areas. The good of the environment and people would increase due to the lack of need to trim trees so the tire are not snaped of ripped if the tree falls the only are that would need to be trimmed are the transmitters themselves.
Data Section
an energy-efficient renewable scheme (ERSVC) with low complexity based on this non-radiative energy transfer. Our goal is to decrease energy consumption of the entire system while maintaining the network operational permanently. Due to the potential large coverage of a WSN, we employ a mobile charging vehicle (MCV) to periodically visit each sensor node and charge it wirelessly. Different from previous schemes in [[ 6]–[ 8]], the MCV only visits and charges a portion of sensor nodes in ERSVC during each cycle. The set of charged nodes during each cycle is redesigned by taking into account the power consumption of each node. We use the total power consumption and MCV's vacation time ratio as the performance metric. Moreover, we derive the proof theoretically that ERSVC can make sure the network operational forever. Numerical results have shown that ERSVC achieves the goal of energy saving with lower complexity than other schemes in [[ 6]–[ 9]], which suggest it seems to be more practical for real applications.
Conclusions
The future of the earth is being able to give its people access to energy no matter wherever on the planet we are. Through the innovation and advancement of technology it is possible to help the world evolve more.
WORK CITITED
Zhang, Qian, Rong Cheng, and Zhihua Zheng. “Energy-Efficient Renewable Scheme for Rechargeable Sensor Networks.” EURASIP Journal on Wireless Communications & Networking 2020, no. 1 (April 3, 2020): 1–13. doi:10.1186/s13638-020-01687-4.
