Produktbild: Bioenergy from Wood
Band 26

Bioenergy from Wood Sustainable Production in the Tropics

146,99 €

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Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

17.09.2016

Abbildungen

X, 62 illus., 33 illus. in color., farbige Illustrationen, schwarz-weiss Illustrationen

Herausgeber

Thomas Seifert

Verlag

Springer Netherland

Seitenzahl

266

Maße (L/B/H)

23,5/15,5/1,6 cm

Gewicht

423 g

Auflage

Softcover reprint of the original 1st ed. 2014

Sprache

Englisch

ISBN

978-94-024-0262-9

Beschreibung

Rezension

“The book presents unique strategies for the exploration, management, production, extraction, conversion, quality analysis including the value-chain perspectives of bioenergy production from woody biomass. … the book is a well written ‘guideline for biomass production, procurement and energy production for scientists, practitioners, and decision makers who are interested in a value-chain perspective of bioenergy production from wood in tropical and sub-tropical countries’.” (Sheikh Adil Edrisi and P. C. Abhilash, Journal of Cleaner Production, April, 2015)

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

17.09.2016

Abbildungen

X, 62 illus., 33 illus. in color., farbige Illustrationen, schwarz-weiss Illustrationen

Herausgeber

Thomas Seifert

Verlag

Springer Netherland

Seitenzahl

266

Maße (L/B/H)

23,5/15,5/1,6 cm

Gewicht

423 g

Auflage

Softcover reprint of the original 1st ed. 2014

Sprache

Englisch

ISBN

978-94-024-0262-9

Herstelleradresse

Springer-Verlag KG
Sachsenplatz 4-6
1201 Wien
AT

Email: GPSR Kontakt

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  • Produktbild: Bioenergy from Wood
  • 1. Bioenergy from wood in the tropics

    1.1 Woody biomass – an antiquated or a modern source of energy?

    1.2 The key concept of sustainable production of bioenergy

    1.3 Managing the value chains

    1.4 The scope and structure of this book

    1.5 References

    2. Localisation of biomass potentials

    2.1 Introduction

    2.2 Terrestrial inventory methods

    2.3 Remote sensing methods using LiDAR or photogrammetry to estimate tree or stand parameters

    2.4 Remote sensing methods estimating bulk biomass

    2.5 Case study of integrated approaches and data fusion

    2.6 Conclusions

    2.7 References

    3. Modelling and simulation of tree biomass

    3.1 Introduction

    3.2 Upscaling from biomass samples to tree biomass

    3.3 Upscaling from the tree to the stand level

    3.4 Model evaluation and model error

    3.5 Simulation of biomass in growth models

    3.6 Conclusions

    3.7 References

    4. Managing Southern African woodlands for biomass production: The potential challenges and opportunities

    4.1 Introduction

    4.2 Vegetation types of Southern Africa

    4.3Woodland utilization and associated impacts

    4.4 Productivity potential in the different biomes with case study data from the sub-region 

    4.5 Management practices for improved productivity in extensively managed woodlands in southern African

    4.6 Institutional frameworks and policy directions for managing extensively managed woodlands in southern Africa

    4.7 Conclusions

    4.8 References

    5. Biomass production in intensively managed forests

    5.1 Introduction

    5.2 Matching highly productive tree taxa with specific site types and bio-energy production systems.

    5.3 Selecting the optimum combination of stand density, harvesting system and rotation length.

    5.4 Optimising growth conditions at time of establishment through harvest residue (slash) management and soil tillage.

    5.5 Intensive cultural management to maximise growth resource utilization

    5.6 Interactions among intensive silvicultural operations

    5.7 Intensified silviculture, fertilization and the carbon footprint

    5.8 Harvesting larger percentages of biomass from the stand than conventional practices.

    5.9 References

    6. Biomass Harvesting and logistics  

    6.1 Introduction

    6.2 Biomass felling and extraction harvesting equipment

    6.3 Collection and extraction equipment and machinery

    6.4 Chipping equipment and machinery

    6.5 Biomass sources and harvesting systems

    6.6 Activities at roadside landing, terminal or plant

    6.7 Secondary transport of biomass

    6.8 Managing biomass trade and supply

    6.9 Managing feedstock supply and supply cost curves

    6.10 Conclusion

    6.11 References

    7. Biomass conversion to bioenergy products    

    7.1 Introduction

    7.2 Types of bioenergy products

    7.3 Thermochemical conversion technologies

    7.4 Biochemical Conversion Technologies

    7.5 Integration of different conversion technologies

    7.6 Technology maturity and economic considerations for biomass conversion

    7.7 Conclusion

    7.8 References

    8. Biomass Quality

    8.1 Introduction

    8.2 Drying and Storage

    8.3 Particle Size

    8.4 Moisture Content

    8.5 Density

    8.6 Chemical Composition

    8.7 Elemental Composition

    8.8 Calorific Value

    8.9 Ash Content

    8.10 Volatile Content

    8.11 Biomass Requirements

    8.12 References

    9 Socio-economic aspects of rural bio-energy production 

    9.1 Introduction

    9.2 Use of and dependency on biomass for energy in developing countries

    9.3 Rural energy use and alternatives to fuelwood

    9.4 Progress up the energy ladder and implications for rural users of energy

    9.5 Costs and benefits of rural energy production

    9.6 Role of rural communities in bioenergy strategies

    9.7 Conclusion

    9.8 References10. Ecological impacts of biomass production at stand and landscape levels

    10.1 Introduction

    10.2 Impacts at the landscape level

    10.3 Impacts at the site level

    10.4 References

    11. Determination of the environmental implications of bio-energy production using a life-cycle assessment approach

    11.1 Introduction

    11.2 Life-Cycle Assessment

    11.3 Assessing lignocellulosic bioenergy systems using LCA – a case study

    11.4 Conclusions

    11.5 References