Introduction to Biomass and Biomass Combustion

Question 1

Up to when did we use biomass as the primary source of energy and why did this stop in the UK?

Answer 1

Wood was the primary source of energy until the 1800s and caused much deforestation in England at the beginning of the industrial revolution, but then coal was discovered.

Question 2

How is biomass formed?

Answer 2

Through the conversion of CO2 in the atmosphere into carbohydrate by the Sun’s energy in the presence of chlorophyll and water

Question 3

What are important ingredients for the growth of biomass?

Answer 3

A living plant, visible spectrum solar radiation, CO2, chlorophyll (serves as a catalyst promoting absorption of CO2 from the atmosphere), water

Question 4

Why is biomass CO2 neutral?

Answer 4

Because the CO2 released into the atmosphere is only that which it absorbed to grow.

Question 5

What is the most common use of biomass as fuel?

Answer 5

Direct combustion, followed by gasification and pyrolysis

Question 6

How much of the biomass on Earth can be used for energy and how much of the world’s energy consumption would this provide?

Answer 6

5%, 26% (6 billion tonnes eqv)

Question 7

What are the three motivations for using biomass for energy?

Answer 7

Renewability benefits - fossil fuels are finite, biomass is not likely to be depleted with consumption
Environmental benefits - reduce human-made GHG emissions, no net contribution to CO2 emissions, very low SOx and NOx emissions
Socio-political benefits - generally locally grown, biomass source needs to be close to the conversion plant to be viable, development of associated industries for biomass growth (collecting and transporting) therefore more local jobs, energy security for countries that need to import fossil fuels

Question 8

What are the two key controversies surrounding using biomass for energy?

Answer 8

Food vs Fuel: agriculture production diverted away from food crops, especially in developing countries, competition in numerous areas (agriculture, rural investment, infrastructure, water, fertilisers, skilled labour), may cause food shortages and price increases
Availability of Land and Water: biomass requires land to grow and is subject to factors governing how and by whom the land should be used, therefore improving biomass productivity per hectare is key

Question 9

Define biomass

Answer 9

A non-fossilised and biodegradable organic material originating from plant, animals and micro-organisms. This shall also include products, by-products, residues and waste from agriculture, forestry and related industries as well as the non-fossilised and biodegradable fractions of industrial and municipal wastes.

Question 10

Does biomass include gases and liquids?

Answer 10

Yes, recovered from decomposition of non-fossilised and biodegradable organic materials

Question 11

List the 5 common sources of biomass

Answer 11

Agricultural (food grain, sugarcane, corn stalks, straw)
Forest (trees, wood waste, sawdust, timer slash)
Municipal (RDF, food waste, waste paper)
Energy crops (poplars, willows, switchgrass, corn, soybean)
Biological (animal waste, aquatic species and biological waste)

Question 12

What are the 4 classifications of biomass under the Quality Assurance for solid biofuels?

Answer 12

Woody biomass: trees, bushes and shrubs
Herbaceous biomass: those plants that die at the end of the growing season such as grains and cereals
Fruit biomass: fruits (derived from woody biomass)
Blends and mixtures: blends are the intentional mixing of biomass, while mixtures are unintentional mixing of biomass

Question 13

What two broad groups can biomass be split into?

Answer 13

Virgin biomass (wood, plants, leaves, crops and vegetables)
Waste biomass (solid and liquid wastes, sewage, animal, human wastes and agricultural wastes)

Question 14

What organic materials make up biomass?

Answer 14

Carbohydrates, fats, proteins and small amounts of Na, P, Ca and Fe

Question 15

What are the main components of biomass? Describe these.

Answer 15

Extractives (substances present in the vegetable or animal tissue that can be separated by successive treatment with solvents and recovered from the evaporation of the solution), fibre/cell wall components (provides structural strength to the plant, allowing it to stand tall without support. Typically made of carbohydrates (cellulose and hemicellulose fibres which impart strength) and lignin (hold the fibres together)) and ash.

Question 16

What are the four different types of products of biomass conversion?

Answer 16

Heat and power
Liquid fuels (ethanol, biodiesel, methanol)
Gaseous fuels (methane, syngas)
Solid fuels (charcoal, biochar)

Question 17

Farm products corn, sugarcane and wheat make what fuel?

Answer 17

Ethanol

Question 18

Farm products rapeseed, soybean and Jatropha make what fuel?

Answer 18

Biodiesel

Question 19

Lignocellulosic materials wood, straw, husk, corn stover make what fuels?

Answer 19

Ethanol, diesel, gasoline

Question 20

What are the challenges surrounding use of biomass?

Answer 20

Bulkiness, low energy density and inconvenient form make rapid transition difficult, cannot be stored or handles easily, therefore good to convert into liquid and gaseous fuels

Question 21

What are the two major routes for conversion of solid biomass into liquid and gaseous fuels?

Answer 21

Biochemical and thermochemical conversion

Question 22

How does biochemical conversion generally work?

Answer 22

Biomass molecules are broken down into smaller molecules by bacteria or enzymes.

Question 23

Is biological or thermochemical conversion quicker?

Answer 23

Thermochemical is quicker but requires much more external energy input

Question 24

What are the 3 types of biochemical conversion? Describe these.

Answer 24

Anaerobic digestion (only organic matter from biomass can be used, no oxygen, products are biogases methane and carbon dioxide and solid residues) , Aerobic digestion (composting) (with oxygen, produces heat, carbon dioxide and solid digestate), fermentation (commercial at the moment for starch and sugar based feedstock, sugar is converted into ethanol/other chemicals with the help of yeast, lignin is not converted and is left for combustion)

Question 25

Why is pre-treatment and hydrolysis needed for fermentation?

Answer 25

Cellulosic feedstock is difficult to break down the materials to fermentable sugars
Lignocellulose feedstock (wood, straw) requires pre-treatment (acid or enzyme) to break down the cellulose and hemicellulose into simple sugars needed by the yeast and bacteria for fermentation

Question 26

How does pre-treatment before hydrolysis and fermentation work?

Answer 26

Pre-treatment with steam and acid occurs to break down the lignocellulose into its 3 constituents: cellulose, hemicellulose and lignin. This is done because the cellulose micro-fibrils are linked with hemicellulose embedded in lignin, so is inaccessible. Pre-treatment makes the biomass materials more accessible to either chemicals or enzymes for efficient product generation.

Question 27

Draw how cellulose, hemicellulose and lignin make up the cell wall

Answer 27

Drawing 21

Question 28

Define hydrolysis

Answer 28

Chemical decomposition in which a compound is split into other compounds by reacting with water

Question 29

What is more advanced, acid or enzyme hydrolysis?

Answer 29

Acid hydrolysis is more technologically advanced and costs less than enzyme hydrolysis, however enzyme hydrolysis is more commonly used.

Question 30

Which thermochemical conversion of biomass is commercially mature?

Answer 30

Combustion

Question 31

What is the main driver for biomass thermochemical conversion?

Answer 31

Production of electricity and heat

Question 32

Draw a typical hydrolysis and fermentation process

Answer 32

Drawing 22

Question 33

Can biochemical or thermochemical conversion produce a larger diversity of products?

Answer 33

thermochemical

Question 34

Which part of the biomass is utilised in thermochemical conversion?

Answer 34

The whole thing

Question 35

How is syngas converted into liquid transport fuels?

Answer 35

The Fischer-Tropsch process

Question 36

Define liquefaction

Answer 36

Large molecules of wet feedstock (wet biomess) are decomposed into liquids (bio-oil) which has smaller molecules, which happens in the presence of a catalyst at low temperatures (300 degrees C) in the absence of oxygen.

Question 37

What 4 elements should be considered when deciding whether a biomass conversion plant is economically viable?

Answer 37

Availability of biomass over the project lifespan and market for the products,
Financial structure including loan gaurantees, investors, government subsidies
CAPEX and OPEX
Environmental impact, any applicable regulations and approval processes

Question 38

Name the 4 types of thermochemical conversion

Answer 38

Pyrolysis, gasification, liquefaction and combustion

Question 39

What is the RO (renewables obligation)?

Answer 39

Support mechanism for large-scale renewable electricity projects in the UK, which requires electricity suppliers to to derive electricity from a specific and continually increasing proportion of renewable sources or a penalty is applied. Green certificates are awarded to operators of accredited renewable plants for the eligible renewable energy they generate. These certificates can be traded.

Question 40

What is the RHI (renewable heat incentive)?

Answer 40

Provides financial assistance to generators of renewable heat and producers of renewable biogas and biomethane

Question 41

What is the CCL (climate change levy)?

Answer 41

CCL is charges on all energy supplied to industry and commerce, agriculture and public administration services, and as of 2015 renewable electricity is not exempt

Question 42

What is ECA (enhanced capital allowance)?

Answer 42

Enables businesses to claim 100% first-year capital allowances on their spending on qualifying machinery

Question 43

What is EEFS (energy entrepreneurs fund scheme)?

Answer 43

Funded by the department of energy and climate change, support is awarded to the development of innovative, new technologies, products and processes in the areas of energy efficiency and building technologies and power generation and storage. This is competitive.

Question 44

What is CTEEF (carbon trust energy efficiency finance)?

Answer 44

Flexible loans for SMEs to allow investment in energy saving equipment

Question 45

What are the main two types of drying biomass?

Answer 45

Passive drying (out in the sun) and active drying

Question 46

What is the typical moisture value of biomass, what does it depend on and what does it impact?

Answer 46

30-60%, depends on the type of biomass and the location/environment

Question 47

What are the 3 main impacts of a high moisture content of biomass?

Answer 47

• Moisture content reduces CV, overall efficiency and combustion T
• Reduced combustion T = incomplete combustion, which may produce tars that might condense in downstream equipment resulting in clogging, frequent shut-down and system failure
• Water may re-condense in the flue gas and cause corrosion

Question 48

How do you design a combustion system to handle high moisture?

Answer 48

Make use of some of the heat of combustion to dry the fuel as it approaches the combustion zone

Question 49

What moisture contents can gasifiers and pyrolysers handle?

Answer 49

10-20 wt%

Question 50

Is biochemical or thermochemical conversion more suited to handling high moisture contents?

Answer 50

Biochemical

Question 51

What is the impact of high moisture on biomass transport?

Answer 51

Lower energy density by mass compared to dry biomass, therefore transport is less efficient and more costly.

Question 52

What is the impact of high moisture on biomass storage?

Answer 52

Greater risk of decay, mould formation, fire risk from elevated temperature due to heat from composting in storage, good ventilation and air flow is needed

Question 53

Why is active drying more expensive than passive drying?

Answer 53

It requires input of energy from an external source (can be from excess process heat so less expensive, or a dedicated heating unit

Question 54

What does drying time depend on in passive drying?

Answer 54

Material characteristics (size, density, shape, moisture content)
Storage conditions (temperature, method of stacking, air flow, humidity)

Question 55

What drying medium is used in active drying?

Answer 55

Hot air (rotary dryers) or steam (superheated steam dryers)

Question 56

What kind of dryers are most commonly used?

Answer 56

Air rotary driers as they are less sensitive to particle size and have a larger capacity, however the fire risk is higher

Question 57

Why are superheated steam dryers safer than rotary driers?

Answer 57

They do not use oxygen

Question 58

What percentage of total processing costs can drying be?

Answer 58

30%

Question 59

What is the difference in cost between pellets including and excluding the drying costs?

Answer 59

52.2-81.7 euro/t compared to 73.5-94.6 euro/t

Question 60

Why is pelletisation carried out?

Answer 60

To increase the bulk density therefore reducing volume which improves transport and feeding abilities (less dust formation and lower transportation cost)

Question 61

What will be included for standards for pellets?

Answer 61

Thermal value, mercury and chlorine content

Question 62

What are the current disadvantages of pellets?

Answer 62

There is no technical specification to quantify pellet characteristics (density, size, moisture etc), and there is no quantification made to characterise a standard test for pellet strength or durability

Question 63

How is pellet strength measured?

Answer 63

Radially using a Tensometer

Question 64

Define biomass combustion

Answer 64

The exothermic reaction between oxygen and hydrocarbons in biomass

Question 65

What are the two types of small biomass boilers?

Answer 65

Manually fired boilers (burn through boilers, under-burn boilers, reverse combustion boilers), automatically fired burners (compact units, stoker-fired units, boilers with pre-furnace)

Question 66

What are the main disadvantages of using biomass as fuel?

Answer 66

• It is bulky and costly to transport
• Low energy density
• Readily absorbs moisture
• Agricultural wastes have highly variable compositions and may arrive in very wet conditions, especially in winter
• Highly heterogeneous (could produce very dusty and corrosive hot gases during pyrolysis/gasification)
• Supply is seasonally dependent
• Generally putrescible (short storage life) and can become infested with vermin

Question 67

What are the 3 main challenges in energy from biomass?

Answer 67

Fuel composition, transportation/handling, boiler reliability

Question 68

What causes fouling in wheat straw?

Answer 68

Ash deposit during combustion

Question 69

What causes corrosion and fouling in general?

Answer 69

High content of highly alkaline metals

Question 70

What is the capacity of the EON biomass power plant in Sheffield?

Answer 70

30MW (20-25MW electricity plus 5-10MW of heat), 180,000 t/yr of clean recycled wood waste, reduces 80,000 t/yr of CO2

Question 71

What is the capacity of the Elean biomass power plant in Cambridgeshire?

Answer 71

World’s 2nd larggest straw burning power station, 40 MW electricity, 200,000 tonnes burning capacity (up to 25% moisture content), produces steam at 540 degrees C, 92 bar, 18m high straw barns, 25 m high central boiler
Furnace operating parameters: air T 174 degrees C, theoretican air - 3.63 Nm3/kg straw, straw feed rate = 20 tonnes/hr, air/fuel ratio = 1.73