Environmental Engineering Reference
In-Depth Information
42. Mantell, M.E.,
Produced water reuse and recycling challenges and opportunities across major shale
plays
. Cheseapeake energy presentation, 2011.
43. Babson, D., K. Bellman, S. Prakash, and D.E. Fennell, Anaerobic digestion for methane genera-
tion and ammonia reforming for hydrogen production: A thermodynamic energy balance of a
model system to demonstrate net energy feasibility.
Biomass and Bioenergy
, 2013.
56
: pp. 493-505.
44. Werther, J., and T. Ogada, Sewage sludge combustion.
Progress in Energy and Combustion
Sciences
, 1999.
25
: pp. 55-116.
45. Stillwell, A.S., D.C. Hoppock, and M.E. Webber, Energy recovery from wastewater treatment plants
in the United States: A case study of the energy-water nexus.
Sustainability
, 2010.
2
: pp. 945-962.
46. USGAO,
Energy-Water Nexus: Amount of Energy Needed to Supply, Use, and Treat Water is Location-
Speciic and Can Be Reduced by Certain Technologies and Approaches
. 2011, US Government
Accountability Ofice: Washington, DC.
47. Sanders, K.T., and M.E. Webber, Evaluating the energy consumed for water use in the United
States.
Environmental Research Letters
, 2012.
7
: pp. 1-11.
48. USEPA,
Evaluation of Energy Conservation Measures for Wastewater Treatment Facilities
. 2010, US
Environmental Protection Agency: Washington, DC.
49. Tchobanoglous G., F.L. Burton, and H.D. Stensel, eds.
Wastewater Engineering: Treatment and
Reuse
, 2003, McGraw Hill: Boston, MA.
50. Fytili, D., and A. Zabaniotou, Utilization of sewage sludge in EU application of old and new
methods—A review.
Renewable and Sustainable Energy Reviews
, 2008.
12
: pp. 116-140.
51. Verstraete, W., and S.E. Vlaeminck, ZeroWasteWater: Short-cycling of wastewater resources for
sustainable cities of the future.
International Journal of Sustainable Development and World Ecology
,
2011.
18
: pp. 253-264.
52. USEPA,
Emerging Technologies for Biosolids Management
. 2006, US Environmental Protection
Agency: Washington, DC.
53. USEPA,
Opportunities for Combined Heat and Power at Wastewater Treatment Facilities: Market
Analysis and Lessons from the Field
. 2011, US Environmental Protection Agency: Washington, DC.
54. Rentricity,
City of Keene Water Treatment Facility
. Rentricity: New Hampshire.
55. Forrestal, C., P. Xu, and Z. Ren, Sustainable desalination using a microbial capacitive desalina-
tion cell.
Energy and Environmental Science
, 2012.
5
: pp. 7161-7167.
56. Cao, X., X. Huang, P. Liang, K. Xiao, Y. Zhou, and B.E. Logan, A new method for water desalina-
tion using microbial desalination cells.
Environmental Science Technology
, 2009.
43
: pp. 7148-7152.
57. Qu, Y., Y. Feng, X. Wang, J. Liu, J. Lv, W. He, and B.E. Logan, Simultaneous water desalination
and electricity generation in a microbial desalination cell with electrolyte recirculation for pH
control.
Bioresource Technology
, 2012.
106
: pp. 89-94.
58. Moghaddam, S., E. Pengwang, Y.-B. Jiang, A.R. Garci, D.J. Burnett, C.J. Brinker, R.I. Masel,
and M.A. Shannon, An inorganic-organic proton exchange membrane for fuel cells with a con-
trolled nanoscale pore structure.
Nature Nanotechnology
, 2010.
5
: pp. 230-236.
59. Shannon, M.A., Water desalination: Fresh for less.
Nature Nanotechnology
, 2010.
5
: pp. 248-250.
60. Evans, A., V. Strezov, and T.J. Evans, Assessment of sustainability indicators for renewable
energy technologies.
Renewable and Sustainable Energy Reviews
, 2009.
13
: pp. 1082-1088.