Skip to content
Welcome To Our Store.
100,000+ Products for Home, Medical, Office & Classroom Needs
Search
Skip to product information
1 of 1

Technical and financial feasibility of hydrothermal carbonization - Paperback

$52.72
$52.72
Sale Sold out
Shipping calculated at checkout.
In stock (100 units), ready to be shipped

Available Offers

Fastest Delivery Tomorrow With Vip DealOrder within 1 hr 8 mins.

Instant 10% Discount On HDFC Banks Credit/Debit Cards EMI and CreditCard

Secure checkout with
  • American Express
  • Apple Pay
  • Diners Club
  • Discover
  • Google Pay
  • Mastercard
  • PayPal
  • Shop Pay
  • Visa

Flight Range: Up to 1,000 meters (3,280 feet)

Maximum Speed: 45 kilometers per hour (28 miles per hour)

For all orders exceeding a value of 100USD shipping is offered for free.

Returns will be accepted for up to 10 days of Customer’s receipt or tracking number on unworn items. You, as a Customer, are obliged to inform us via email before you return the item.

Otherwise, standard shipping charges apply. Check out our delivery Terms & Conditions for more details.

View Product Details
Shopping cart
Product Product subtotal Quantity Price Product subtotal
Technical and financial feasibility of hydrothermal carbonization - Paperback
Technical and financial feasibility of hydrothermal carbonization - Paperback
Technical and financial feasibility of hydrothermal carbonization - Paperback
$52.72/ea
$0.00
$52.72/ea $0.00

Product Description

by Walter Tesch (Author)

For many decades, Europe has enjoyed growth of wealth and wellbeing, based on intensive use of resources. Today, sources of energy, minerals and metals, as well as water, fertile soil, biomass, biodiversity and others are all under pressure, as is the stability of the climate system. While some people already worry about peak oil and the end of cheap energy, it seems that other resources like fertible soil and potable water are "peaking" even faster. In this document a new biomass conversion process called hydrothermal carbonization (HTC) is presented, which has the potential to convert organic waste into a hydrophobic solid of reduced mass and increased fuel value (hydrochar) to provide at least renewable energy and/or increase soil organic matter. As with every emerging technology, hydrothermal carbonization is currently hardly a competitive stand alone process on the open market. But if the process can be implemented in an existing infrastructure e.g. compost plant, sewage plant or other businesses which are confronted with large amounts of wet organic waste, HTC is already today a financially feasible process. Altogether, HTC offers not only a new green and sustainable technology for the treatment of biowaste. It is a promising research and development field leading to new functional materials based on renewable resources.

Number of Pages: 148
Dimensions: 0.34 x 9 x 6 IN
Publication Date: October 07, 2020
you might like