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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

J, Yaszemski Michael, ed. Tissue engineering and novel delivery system. New York: Marcel Dekker, 2004.

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2

Kumar, R. A novel multireceiver communications system configuration based on optimal estimation theory. Pasadena, Calif: Jet Propulsion Laboratory, 1990.

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3

PEM fuel cell failure mode analysis. Boca Raton: Taylor & Francis, 2011.

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4

Protected membrane roofing system: Facilities Engineering Applications Program : innovative ideas for the operation, maintenance, & repair of Army facilities. [Fort Belvoir, Va.?: US Army Corps of Engineers, 1990.

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5

United States. Army. Corps of Engineers., ed. Protected membrane roofing system: Facilities Engineering Applications Program : innovative ideas for the operation, maintenance, & repair of Army facilities. [Fort Belvoir, Va.?: US Army Corps of Engineers, 1990.

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6

Salinas-Rodríguez, Sergio G., Juan Arévalo, Juan Manuel Ortiz, Eduard Borràs-Camps, Victor Monsalvo-Garcia, Maria D. Kennedy, and Abraham Esteve-Núñez, eds. Microbial Desalination Cells for Low Energy Drinking Water. IWA Publishing, 2021. http://dx.doi.org/10.2166/9781789062120.

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The world's largest demonstrator of a revolutionary energy system in desalination for drinking water production is in operation. MIDES uses Microbial Desalination Cells (MDC) in a pre-treatment step for reverse osmosis (RO), for simultaneous saline stream desalination and wastewater treatment. MDCs are based on bio-electro-chemical technology, in which biological wastewater treatment can be coupled to the desalination of a saline stream using ion exchange membranes without external energy input. MDCs simultaneously treat wastewater and perform desalination using the energy contained in the wastewater. In fact, an MDC can produce around 1.8 kWh of bioelectricity from the energy contained in 1 m3 of wastewater. Compared to traditional RO, more than 3 kWh/m3 of electrical energy is saved. With this novel technology, two low-quality water streams (saline stream, wastewater) are transformed into two high-quality streams (desalinated water, treated wastewater) suitable for further uses. An exhaustive scaling-up process was carried out in which all MIDES partners worked together on nanostructured electrodes, antifouling membranes, electrochemical reactor design and optimization, life cycle assessment, microbial electrochemistry and physiology expertise, and process engineering and control. The roadmap of the lab-MDC upscaling goes through the assembly of a pre-pilot MDC, towards the development of the demonstrator of the MDC technology (patented). Nominal desalination rate between 4-11 Lm-2h-1 is reached with a current efficiency of 40 %. After the scalability success, two MDC pilot plants were designed and constructed consisting of one stack of 15 MDC pilot units with a 0.4 m2 electrode area per unit. This book presents the information generated throughout the EU funded MIDES project and includes the latest developments related to desalination of sea water and brackish water by applying microbial desalination cells. ISBN: 9781789062113 (Paperback) ISBN: 9781789062120 (eBook)
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7

Marcus, Aaron. Design, User Experience, and Usability: Novel User Experiences. Springer, 2016.

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8

Novel Algorithms for Fast Statistical Analysis of Scaled Circuits Lecture Notes in Electrical Engineering. Springer, 2009.

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9

Marcus, Aaron. Design, User Experience, and Usability: User Experience in Novel Technological Environments. Springer, 2013.

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10

Thiriet, Marc. Signaling at the Cell Surface in the Circulatory and Ventilatory Systems. Springer, 2011.

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11

Signaling At The Cell Surface In The Circulatory And Ventilatory Systems. Springer, 2011.

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12

Thiriet, Marc. Signaling at the Cell Surface in the Circulatory and Ventilatory Systems. Springer, 2016.

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13

Thiriet, Marc. Signaling at the Cell Surface in the Circulatory and Ventilatory Systems. Springer, 2011.

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14

Sugiyama, Masahiro, Atsushi Ishii, Shinichiro Asayama, and Takanobu Kosugi. Solar Geoengineering Governance. Oxford University Press, 2018. http://dx.doi.org/10.1093/acrefore/9780190228620.013.647.

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Climate engineering, a set of techniques proposed to intervene directly in the climate system to reduce risks from climate change, presents many novel governance challenges. Solar radiation management (SRM), particularly the use of stratospheric aerosol injection (SAI), is one of the most discussed proposals. It has been attracting more and more interest, and its pertinence as a potential option for responding to the threats from climate change may be set to increase because of the long-term temperature goal (well below 2°C or 1.5°C) in the 2015 Paris Agreement. Initial research has demonstrated that SAI would cool the climate system and reduce climate risks in many ways, although it is mired in unknown environmental risks and various sociopolitical ramifications. The proposed techniques are in the early stage of research and development (R&D), providing a unique opportunity for upstream public engagement, long touted as a desirable pathway to more plural and inclusive governance of emergent technologies by opening up social choices in technology. Solar geoengineering governance faces various challenges. One of the most acute of these is how to situate public engagement in international governance discourse; the two topics have been studied separately. Another challenge relates to bridging the gap between the social choices at hand and assessment of the risks and benefits of SRM. Deeper integration of knowledge across disciplines and stakeholder and public inputs is a prerequisite for enabling responsible innovation for the future of our climate.
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15

Hritz, Carrie, Christian Isendahl, Lisa J. Lucero, John Meunier, Steffen Nijhuis, Payam Ostovar, Clemens Reichel, Vernon L. Scarborough, Federica Sulas, and T. L. Thurston. IF THE PAST TEACHES, WHAT DOES THE FUTURE LEARN? Ancient Urban Regions and the Durable Future. Edited by John T. Murphy and Carole L. Crumley. TU Delft, 2022. http://dx.doi.org/10.47982/bookrxiv.32.

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How can we transform urban environments to encourage durability and mediate the social price of myriad risks and vulnerability?Our work here is to build a bridge from archaeology to mainstream architectural and design theory. The study of places, landscapes, and regions links the two fields. Architecture can be shaped and enhanced by the long-term cultural and geographic perspective afforded by archaeology; architecture can offer archaeology a ride into the future. We hope that our efforts are novel enough to be inspiring and connected enough to allow existing concepts to be furthered. The bridge unites three domains: material, social, and aesthetic. We look to the past to find material technologies—new engineering and conceptual solutions to an array of problems—and the past obliges with many examples. However, these technologies in their material aspects are only part of the story. The archaeologist sees them as playing a role in a system. This system, while mechanically functional, is also profoundly social: it includes administrative structures, but also innumerable other kinds of relationships—kin groups, neighborhoods, genders—that mirror the embedded relations between humans and nature. As in architecture, systems include semantics and aesthetics: not only are these forms pleasing to the eye, but they also tell stories of history and place and give identity and meaning to the lives in which they are enmeshed. This multi-functionality and multi-vocality are inherent in past systems.
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