Paper/Nano Technology Books
Micro and Nanotechnology in Paper Manufacturing
Author- Dr. Mahendra Patel, (530 pages ); ISBN No. 978-81-923542-2-4);
Price: $ (USA) 120 + delivery charge
Minerals in Paper Manufacturing
(Author- Dr. Mahendra Patel, 32 chapters, 350 pages ; ISBN No. 978-81-923542-1-7).
Price: $ (USA) 65 + delivery charge
Operations and Recycling in Paper Mills with Micro and Nano Concepts
Author- Dr. Mahendra Patel; (22 chapters- 500 pages); ISBN No.978-81-923542-3-1)
Price: $ (USA) 150 + delivery charge
Materials for
Better Productivity in Pulp and Paper Mills: Metals and Polymers
(Author: Dr. Mahendra
Patel; 616 pages; 36 chapters; ISBN No.978-81-923542-5-5)
Price- US $230+
Cost of dispatch.
Ceramics in Paper Manufacturing
including Advanced and Nano Materials
(Author: Dr.
Mahendra Patel, 420 pages; 32 chapters, ISBN No: 978-81-923542-4-8.)
Price: $ (USA) 220 + delivery charge
Contact: industrypaper@yahoo.co.uk
patel@nanoindustry.in
:Tel:91(0)9871787870
Payment possible through Paypal/Bank transfer/Cheque
Up to 30% reduction to specialised Organisations/Individuals
Sent by Registered Airmail through Post office after confirmation of payment
Nanotechnology Update
Pulp, Paper and Packaging industries
13/03/2012
Nanotechnology in Bioenergy
Recent advances have proved crucial for the microbial bioenergy synthesis and nanotechnologies are seen as a key in the next generation of biofuels. Indeed, nanoparticles, nanotubes, nanofibres and nanoporous materials serve as efficient tools for processing raw materials, genetic engineering, biofuels and for bioelectrochemical systems. Thus, with the development of materials and technologies, nanomaterials are doomed to be part of the bioenergy sector, such as for example the topic of efficient harvesting of biofuels: in effect on this subject the versatile nature of nanomaterials has allowed us to imagine the development of new absorbent materials and membranes that make harvesting biofuels easier and less expensive. More recently nanoparticles have been developed that are capable of recovering the oil produced by algae without denaturing and destroying them. Thus these particles are able to slip between the membrane and cell wall and recover oil in their nanopores without causing cell death, which may have a significant impact on the sustainable development of the biofuel industry based on algae.

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