John Heidemann / Papers / Steam-Powered Sensing

Steam-Powered Sensing
Chengjie Zhang, Affan Syed, Young H
USC/Information Sciences Institute

Citation

Chengjie Zhang, Affan Syed, Young H. Cho and John Heidemann. Steam-Powered Sensing. Proceedings of the 9th ACM SenSys Conference (Seattle, Washington, USA, Nov. 2011), 204–217. [PDF] [alt PDF]

Abstract

Sensornets promise to extend automated monitoring and control into industrial processes. In spite of great progress made in sensornet design, installation and operational costs can impede their widespread adoption—current practices of infrequent, manual observation are often seen as sufficient and more cost effective than automation, even for key business processes. In this paper we present two new approaches to reduce these costs, and we apply those approaches to rapidly detect blockages in steam pipelines of a production oilfield. First, we eliminate the high cost of bringing power to the field by generating electricity from heat, exploiting the high temperature of the very pipelines we monitor. We demonstrate that for temperature differences of 80 \textcelsius or more, we are able to sustain sensornet operation without grid electricity or batteries. Second, we show that non-invasive sensing can reduce the cost of sensing by avoiding sensors that pierce the pipeline and have high installation cost with interruption to production. Our system instead uses surface temperature to infer full or partial blockages in steam pipelines and full blockages in hot water pipelines. Finally, we evaluate our “steam-powered sensing” system to monitor potential blockages in steam pipeline chokes at a production oilfield. We also show the generality of our algorithm by applying it to detect water pipeline blockages in our lab. To our knowledge, this paper describes the first field-tested deployment of an industrial sensornet that employs non-solar energy harvesting.

Bibtex Citation

@inproceedings{Zhang11a,
  author = {Zhang, Chengjie and Syed, Affan and Cho, Young H. and Heidemann, John},
  title = {Steam-Powered Sensing},
  booktitle = {Proceedings of the 9th ACM {SenSys} Conference },
  year = {2011},
  sortdate = {2011-11-01},
  project = {ilense, cisoft},
  jsubject = {sensornet_applications},
  pages = {204--217},
  address = {Seattle, Washington, USA},
  month = nov,
  publisher = {ACM},
  jlocation = {johnh: pafile},
  keywords = {steamflood optimization, energy harvesting,
                    non-invasive detection},
  xdoi = {xxx},
  url = {https://ant.isi.edu/%7ejohnh/PAPERS/Zhang11a.html},
  pdfurl = {https://ant.isi.edu/%7ejohnh/PAPERS/Zhang11a.pdf},
  myorganization = {USC/Information Sciences Institute},
  copyrightholder = {ACM},
  copyrightterms = {
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   	republication to ACM Publications, Copyright &
   	Permissions at the address above or fax +1 (212)
   	869-0481 or email permissions@acm.org.}
}

Copyright

Permission to make digital or hard copies of portions of this work for personal or classroom use is granted without fee provided that the copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page in print or the first screen in digital media. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. otherwise, to republish, to post on servers, or to redistribute to lists, requires prior specific permission and/or a fee. Send written requests for republication to ACM Publications, Copyright & Permissions at the address above or fax +1 (212) 869-0481 or email permissions@acm.org.
Copyright © by John Heidemann