- Home
- Technology & Engineering
- Agriculture
- Instant Insights: Using crops as biofuel
Instant Insights: Using crops as biofuel
- Availability: Confirm prior to ordering
- Branding: minimum 50 pieces (add’l costs below)
- Check Freight Rates (branded products only)
Branding Options (v), Availability & Lead Times
- 1-Color Imprint: $2.00 ea.
- Promo-Page Insert: $2.50 ea. (full-color printed, single-sided page)
- Belly-Band Wrap: $2.50 ea. (full-color printed)
- Set-Up Charge: $45 per decoration
- Availability: Product availability changes daily, so please confirm your quantity is available prior to placing an order.
- Branded Products: allow 10 business days from proof approval for production. Branding options may be limited or unavailable based on product design or cover artwork.
- Unbranded Products: allow 3-5 business days for shipping. All Unbranded items receive FREE ground shipping in the US. Inquire for international shipping.
- RETURNS/CANCELLATIONS: All orders, branded or unbranded, are NON-CANCELLABLE and NON-RETURNABLE once a purchase order has been received.
Product Details
Overview
This collection features five peer-reviewed literature reviews on using crops as biofuel.
The first chapter reviews the key issues and challenges faced when expanding sugarcane cultivation for bioenergy, primarily, competition with food crops, loss of biodiversity, water, air and soil pollution, as well as a potential increase in pest problems.
The second chapter describes current technologies and constraints of biodiesel production, including the need for a consistent supply of feedstock to ensure a sustainable biodiesel industry. The chapter also examines life cycle assessment (LCA) of canola/rapeseed biodiesel production.
The third chapter addresses the sustainability of biofuels derived from palm oil and discusses the impact of their production on our ecosystems. The chapter also reviews the economics of biofuel and the levels of governmental support needed for sustainable production.
The fourth chapter examines the potential of varying grassland types for biomass production. It details the options for use of grassland biomass, citing its suitability for combustion, pyrolysis, biorefining and for use in bioenergy applications.
The final chapter reviews best agronomic practices for increasing overall biomass output in the face of pressing environmental changes. It also utilises the LCA framework to review strategies for crop improvement, such as crop rotations.
