Step 1 − Calculate your consumption

Definitions

explanation of words

What do we get?

What are we doing?

Part I: Instructions

Please read the instruction below carefully before filling the data

1 Please check your records and answer questions below
2 Please see the Direct results for your consumption.

Part II: Data-filling steps

A

Select your production field

B

Last year *

2 years ago

3 years ago

What is your company's productivity?

Ton of paper

What is your company's consumption in terms of:

Chemical?

Note: Chemical include mainly NaOH and others as bleaching chemicals (clorine and clorine compound)

Coal

Oil

Electricity

kWh

Water

m³

What is your company's productivity?

Ton of leather product

What is your company's consumption in terms of:

Water?

m³

Electricity

kWh

Coal

Cr2O3 (powder)

Tanin

Oil?

Artificial colouring

Acids, bases and salts

Surfactant

Enzym

What is your company's productivity?

Ton of electric-furnace steel

What is your company's consumption in terms of:

Steel scrap?

Solid iron?

Liquid iron?

Lime?

Coal?

Grafit electrode

Electricity

kWh

Oxygen

m³

Cooling water

m³

What is your company's productivity?

Ton cement

What kind of kiln is your company using?

What is your company's consumption in terms of:

Lime, clay, additive, etc.

Note: Chemical include mainly NaOH and others as bleaching chemicals (clorine and clorine compound)

ton

Gypsum

ton

Additive

ton

Electricity

kWh

What is your company's productivity?

Liter beer

What is your company's consumption in terms of:

Malt/alternative material?

Heat?

Fuel?

liter

Electricity

kWh

Water?

m³

NaOH?

Inert powder?

Step 2 − Identify the gap

Definitions

explanation of words

What do we get?

What are we doing?

1 Please have a look at the Benchmark table of your sector
2 Please see the Direct results for the comparison between your company and benchmarks.

Resource

Last year

2 years ago

3 years ago

Vietnam

India

Northern EU

Chemical ◀				80 - 150	71 - 135	75	kg/T

Coal ◀				575- 1500	575 - 1000	192 -880	kg/T

Oil ◀				294 - 784	294 - 490	98- 450	kg/T

Electricity ◀				900-1900	855 - 980	700 - 850	kWh/T

Water ◀				175 - 350	180 - 280	20- 40	m³/T

Note: India factories using agriculture waste

Chemical (kg/T)

Benchmark

Vietnam
(80 - 150)

India
(71 - 135)

Northern EU
(75)

Last year

2 years ago

3 years ago

Your company

Coal (kg/T)

Benchmark

Vietnam
(575- 1500)

India
(575 - 1000)

Northern EU
(192 -880)

Last year

2 years ago

3 years ago

Your company

Oil (kg/T)

Benchmark

Vietnam
(294 - 784)

India
(294 - 490)

Northern EU
(98- 450)

Last year

2 years ago

3 years ago

Your company

Electricity (kWh/T)

Benchmark

Vietnam
(900-1900)

India
(855 - 980)

Northern EU
(700 - 850)

Last year

2 years ago

3 years ago

Your company

Water (m³/T)

Benchmark

Vietnam
(175 - 350)

India
(180 - 280)

Northern EU
(20- 40)

Last year

2 years ago

3 years ago

Your company

LEGEND

Benchmark

Vietnam

India

Northern EU

Your company

Last year

2 years ago

3 years ago

Resource

Last year

2 years ago

3 years ago

Traditional technology

Advance technology

Vietnam

Water ◀				30-35	15-20	40-50	m³/T

Electricity ◀				-	-	150-200	kWh/T

Coal ◀				-	-	400-600	kg/T

Powder ◀				88	80	88	kg/T

Tanin ◀				25.3	25	25	kg/T

Oil ◀				22	22	22	kg/T

Colour ◀				5.3	5	5	kg/T

Acids, bases and salts ◀				-	-	190	kg/T

Surfactant ◀				3	3	3	kg/T

Enzym ◀				5	5	5	kg/T

Water (m³/T)

Benchmark

Traditional technology
(30-35)

Advance technology
(15-20)

Vietnam
(40-50)

Last year

2 years ago

3 years ago

Your company

Electricity (kWh/T)

Benchmark

Traditional technology
(-)

Advance technology
(-)

Vietnam
(150-200)

Last year

2 years ago

3 years ago

Your company

Coal (kg/T)

Benchmark

Traditional technology
(-)

Advance technology
(-)

Vietnam
(400-600)

Last year

2 years ago

3 years ago

Your company

Powder (kg/T)

Benchmark

Traditional technology
(88)

Advance technology
(80)

Vietnam
(88)

Last year

2 years ago

3 years ago

Your company

Tanin (kg/T)

Benchmark

Traditional technology
(25.3)

Advance technology
(25)

Vietnam
(25)

Last year

2 years ago

3 years ago

Your company

Oil (kg/T)

Benchmark

Traditional technology
(22)

Advance technology
(22)

Vietnam
(22)

Last year

2 years ago

3 years ago

Your company

Colour (kg/T)

Benchmark

Traditional technology
(5.3)

Advance technology
(5)

Vietnam
(5)

Last year

2 years ago

3 years ago

Your company

Acids, bases and salts (kg/T)

Benchmark

Traditional technology
(-)

Advance technology
(-)

Vietnam
(190)

Last year

2 years ago

3 years ago

Your company

Surfactant (kg/T)

Benchmark

Traditional technology
(3)

Advance technology
(3)

Vietnam
(3)

Last year

2 years ago

3 years ago

Your company

Enzym (kg/T)

Benchmark

Traditional technology
(5)

Advance technology
(5)

Vietnam
(5)

Last year

2 years ago

3 years ago

Your company

LEGEND

Benchmark

Traditional technology

Advance technology

Vietnam

Your company

Last year

2 years ago

3 years ago

Resource

Last year

2 years ago

3 years ago

Vietnam

Optimal practice in Vietnam

Germany

Finland

Coloring ◀				5-80	4.6-12.3	5-80	-	kg/T

Additive ◀				200-1000	230	92-1032	-	kg/T

Water ◀				130-600	100	100-150	144-380	m³/T

Heat ◀				1.5-2.5	1.655	0.24-0.32	0.86-2.39	Ton FO/T

Electricity ◀				885-2000	900	240-350	-	kWh/T

Coloring (kg/T)

Benchmark

Vietnam
(5-80)

Optimal practice in Vietnam
(4.6-12.3)

Germany
(5-80)

Poland
(-)

Last year

2 years ago

3 years ago

Your company

Additive (kg/T)

Benchmark

Vietnam
(200-1000)

Optimal practice in Vietnam
(230)

Germany
(92-1032)

Poland
(-)

Last year

2 years ago

3 years ago

Your company

Water (m³/T)

Benchmark

Vietnam
(130-600)

Optimal practice in Vietnam
(100)

Germany
(100-150)

Poland
(144-380)

Last year

2 years ago

3 years ago

Your company

Heat (Ton FO/T)

Benchmark

Vietnam
(1.5-2.5)

Optimal practice in Vietnam
(1.655)

Germany
(0.24-0.32)

Poland
(0.86-2.39)

Last year

2 years ago

3 years ago

Your company

Electricity (kWh/T)

Benchmark

Vietnam
(885-2000)

Optimal practice in Vietnam
(900)

Germany
(240-350)

Poland
(-)

Last year

2 years ago

3 years ago

Your company

LEGEND

Benchmark

Vietnam

Optimal practice in Vietnam

Germany

Finland

Your company

Last year

2 years ago

3 years ago

Resource

Last year

2 years ago

3 years ago

Vietnam

Steel scrap ◀				1080 - 1130	1135 - 1200	kg/T

Solid iron ◀				-	0 - 250	kg/T

Liquid iron ◀				-	0 - 600	kg/T

Lime ◀				30 - 80	50 - 80	kg/T

Coal ◀				13 - 15	0 - 20	kg/T

Grafit electrode ◀				1.5 - 4.5	2.9 - 6.8	kg/T

Electricity ◀				350 - 500	420 - 800	kg/T

Oxygen ◀				24 - 47	30 - 50	m³/T

Cooling water ◀				0	4 - 7	m³/T

Steel scrap (kg/T)

Benchmark

EU
(1080 - 1130)

Vietnam
(1135 - 1200)

Last year

2 years ago

3 years ago

Your company

Solid iron (kg/T)

Benchmark

EU
(-)

Vietnam
(0 - 250)

Last year

2 years ago

3 years ago

Your company

Liquid iron (kg/T)

Benchmark

EU
(-)

Vietnam
(0 - 600)

Last year

2 years ago

3 years ago

Your company

Lime (kg/T)

Benchmark

EU
(30 - 80)

Vietnam
(50 - 80)

Last year

2 years ago

3 years ago

Your company

Coal (kg/T)

Benchmark

EU
(13 - 15)

Vietnam
(0 - 20)

Last year

2 years ago

3 years ago

Your company

Grafit electrode (kg/T)

Benchmark

EU
(1.5 - 4.5)

Vietnam
(2.9 - 6.8)

Last year

2 years ago

3 years ago

Your company

Electricity (kg/T)

Benchmark

EU
(350 - 500)

Vietnam
(420 - 800)

Last year

2 years ago

3 years ago

Your company

Oxygen (m³/T)

Benchmark

EU
(24 - 47)

Vietnam
(30 - 50)

Last year

2 years ago

3 years ago

Your company

Cooling water (m³/T)

Benchmark

EU
(0)

Vietnam
(4 - 7)

Last year

2 years ago

3 years ago

Your company

LEGEND

Benchmark

Vietnam

Your company

Last year

2 years ago

3 years ago

Resource

Last year

2 years ago

3 years ago

Vietnam

Lime, clay, additive, etc ◀				1.27	1.27 - 1.32	Ton/ton cement

Gypsum ◀				0.05	0.03	Ton/ton cement

Additive ◀				0.14	0.165	Ton/ton cement

Technology

Last year

2 years ago

3 years ago

Wet rotary kiln PP/vertical kiln

Dry rotary kiln PP

Heat recovery rotary kiln

Electricity ◀				120 - 130	90 - 100	75 - 80	kWh/ton cement

Lime, clay, additive, etc (Ton/ton cement)

Benchmark

EU
(1.27)

Vietnam
(1.27 - 1.32)

Last year

2 years ago

3 years ago

Your company

Gypsum (Ton/ton cement)

Benchmark

EU
(0.05)

Vietnam
(0.03)

Last year

2 years ago

3 years ago

Your company

Additive (Ton/ton cement)

Benchmark

EU
(0.14)

Vietnam
(0.165)

Last year

2 years ago

3 years ago

Your company

Electricity (kWh/ton cement)

Benchmark

Wet rotary kiln PP/vertical kiln
(120 - 130)

Dry rotary kiln PP
(90 - 100)

Heat recovery rotary kiln
(75 - 80)

Last year

2 years ago

3 years ago

Your company

LEGEND

Benchmark

Vietnam

Wet rotary kiln PP/vertical kiln

Dry rotary kiln PP

Heat recovery rotary kiln

Your company

Last year

2 years ago

3 years ago

Resource

Last year

2 years ago

3 years ago

Old technology

Medium technology

Modern technology

Vietnam (present)

Malt/alternative material ◀				18	16	14	14 - 18	kg/100 liters

Heat ◀				390	250	150	200-350	MJ/100 liters

Fuel ◀				11	7	3	3.6 - 8.5	liter/100 liters

Electricity ◀				20	16	7-12	7.5 - 20	kWh/100 liters

Water ◀				2 - 3.5	0.7 - 1.5	0.4	0.6 - 2	m³/liters

NaOH ◀				0.5	0.25	0.1	0.2 - 0.6	kg/100 liters

Inert powder ◀				570	255	80	100 - 400	g/100 liters

Malt/alternative material (kg/100 liters)

Benchmark

Old technology
(18)

Medium technology
(16)

Modern technology
(14)

Vietnam (present)
(14 - 18)

Last year

2 years ago

3 years ago

Your company

Heat (MJ/100 liters)

Benchmark

Old technology
(390)

Medium technology
(250)

Modern technology
(150)

Vietnam (present)
(200-350)

Last year

2 years ago

3 years ago

Your company

Fuel (liter/100 liters)

Benchmark

Old technology
(11)

Medium technology
(7)

Modern technology
(3)

Vietnam (present)
(3.6 - 8.5)

Last year

2 years ago

3 years ago

Your company

Electricity (kWh/100 liters)

Benchmark

Old technology
(20)

Medium technology
(16)

Modern technology
(7-12)

Vietnam (present)
(7.5 - 20)

Last year

2 years ago

3 years ago

Your company

Water (m³/liters)

Benchmark

Old technology
(2 - 3.5)

Medium technology
(0.7 - 1.5)

Modern technology
(0.4)

Vietnam (present)
(0.6 - 2)

Last year

2 years ago

3 years ago

Your company

NaOH (kg/100 liters)

Benchmark

Old technology
(0.5)

Medium technology
(0.25)

Modern technology
(0.1)

Vietnam (present)
(0.2 - 0.6)

Last year

2 years ago

3 years ago

Your company

Inert powder (g/100 liters)

Benchmark

Old technology
(570)

Medium technology
(255)

Modern technology
(80)

Vietnam (present)
(100 - 400)

Last year

2 years ago

3 years ago

Your company

LEGEND

Benchmark

Old technology

Medium technology

Modern technology

Vietnam (present)

Your company

Last year

2 years ago

3 years ago

Step 3 − Identify potential CP options

Definitions

explanation of words

What do we get?

What are we doing?

Part I: Instructions

Please read the instruction below carefully before filling the data

1 Please check all CP options provided.
2 Please estimate the cost needed for each option.
3 Please decided when you want to apply that option.
4 Please check the Direct results for your timeline of implementation.

Part II: Data-filling steps

List of opportunities for cleaner production

Estimated cost

Implementing plan

Fix leaking positions

Leaking positions such as pipe, valve... need to be fixed

Lock taps when not using

Auto-locking valves should be applied

Remove stuck on grid nozzle

Use non-toxic pigment/coloring substance

Only apply for color paper production

Use white bleaching substance peoxit hydro

Replace using chlorine and more friendly with environment

Use enough space pulp launching tank

Prevent overflow of pulp

Use high pressure centrifugal washer

Save pulp

Improve water separated and washed procedure by using doubled grid belt squeezer

Save water

Recycle white and technological water

For pulp washing, bleaching and diluting

Recover and recycle condensation water

Recycle for boiler

Reuse short-length/waste fibre

Produce lower quality products

Check and supervise quantitation of chemical

Leather production use large amount of chemical
Chemical: inorganic (acid, base...), organic, tanning (chrome, oil, dying, solven, enzyme...)

Instruct workers to implement exactly customer order

Especially requirement of quality, dimension, thickness...

Request workers for careful operation

Tanning technology include several stage where some need precise operation (time, quantity) such as feather bleaching, lime bleaching, chrome tanning, base and humidity regulation...

Equip chemical recovering trays

Use in chemical quantitation to recover spilled chemical to reuse

Suitable quantitation of salt utilization

In reservation of material

Use salt-processed leather replacing for production

Save salt when using raw leather

Increase absorption ability of chrome in tanning

Use modern system, able to automatic check and regulate operational parameters: temperature, pH... and supplment chemical as needed

Recycle chrome waste water

Reuse high concentration chrome in waste water (usually discharge as waste water after each tanning batch

Recover and reuse chrome by using sedimentation method

Reuse high concentration chrome in waste water (usually discharge as waste water after each tanning batch

Recover solution after water squeezing stage to recover tanning chemicals

Reuse tanning chemicals after water squezzing stage that usually to discharge as waste water

Fix leaking (valve, pump and other equipment)

Implement frequently, tend to prevent and maintain continuously

Close unnecessary tap

Use self-closing taps, implement frequently and replace as necessary

Recover overflow printed starch when put starch into brush

Use recover trays

Prevent starch while transportation

Input starch at level of 80% volume of container to prevent overflow starch while transportation

Replace bleaching chemical CCl4

Apply for bleaching stage
Reduce environment impacts

Check material/water rate

Install water meter to check material/water in order to optimization of water using

Install nozzles in jigger dying machine

Increase efficiency of washing process

Install hollow volume in jigger and winch machine

Reduce dying solution volume

Install nozzles in printer

Increase efficiency of printing process

Reuse dying water

Especially when using dispersal dying chemical
Number of dying water reusing depend on concentration of oil in cloth and type of color

Recover and recycle condensation water

Recover condensation water from jigger and provide for boiler

Recover ethyl acetate solven

From waste flow of solven-based washing stage though distillation process

Recover printed starch that stick in printed cloth

Recover printed starch remaining in cloth by a moving blade
Use recovered printed starch for dark-color starch preparation

Use impurities which separate from material cleaning process to provide to boilers

Impurities generated from distillation process of waste of printed cloth washing using solven
Need to improve combustion chamber to load solid waste

Check carefully material import process

Material import might mix impurities: nonmetallic material, dust, oil... reducing product quality
Layout for material import, classification...
Impurities remove and reject material trucks which do not meet requirement

Replace and maintain pipes, valve...

Replace and maintain periodically divides, pipes, machines... which leaking oil and grease

Remove impurities and substance that causing fire/exploitation

Remove material mixing with oil and grease-impurities that can cause fire/exploitation

Use cutter, squeezer to process material to pieces

Cut and squeeze material into smaller pieces to reduce volume

Minimize furnace opening time

Minimize furnace opening time to save energy

Maintain vacuum system, replace filter bag

Blow out dust when opening furnace to input fuel in case of bad maintenance of vacuum system and filter bags

Use small miller to mill material, clinke

Use roller mill instead of ball miller in milling raw material and clinke to save 30%-40% electrical energy

Recover waste heat to generate electricity

Apply for the factory having cement production capacity of over 1000 tan/day and using modern rotary kiln. Generated electricity sufficient to meet 25-35% factory's consumption demand

Use close jaw beating and hammer grinding system, suction filter sealed hammer with equipped filter

Open jaw beating and hammer grinding system without filter will pollute environment and affect human health

Use high productivity dust sleeve system and material recovery

Wet dust hushing system (low productivity) in material drying system pollute environment with dust

Educate operational workers

System operation by workers drops material and can be recover

Transport directly clinke and cement from silo to truck

Manual load to truck can drop clinke and cement

Minimize dust and recover dust while transportation

Cover truck and recover dust in production and transportation

Change motor power that suitable with additional charge

Overload/underload operation of motor cause power losses

Install additional capacitor cos Φ for motors in factory

Overload/underload operation of motor cause power losses

Install inverter in suitable conveyor belt

Overload/underload operation of motor cause power losses

Good reservation of material (rice and malt)

Use silo, construct warehouse against rat, use methods to exterminate rat and other rodent species

Prevent material (rice/malt) losses in milling process

Install material recover system

Reduce sugar solution loss by discharge as waste water

Strengthen deposition ability of sugar solution by using deposition fluxes
Recover deposition solution to filter pot
Invest deposition solution centrifuge

Reduce beer lost in fermentation solution when withdraw residual in tank bottom

Select fermentation bacteria/yeast to improve deposition ability
Select optimal/modern technology
Invest isobaric fermentation withdrawing system

Reduce beer lost in filtration causing by beer mixing with water

Use intermediate container contains both beer and water in filtration process
Apply high concentration fermentation technology

Reduce beer lost whenever machine cleaning

Improve filtration ability of beer solution: select fermentation bacteria/yeast, use fermentation fluxes, cold providing for beer before filtration process

Reduce beer lost by spilling with pressure discharge line

Cause by overpressure in the system
Invest CO2 loading system in recovery line

Reduce beer lost in extraction process

Control CO2 concentration and beer temperature before CO2 saturation
Transform or invest new extraction divides

Direct result

No cost Low cost Investment (need feasibility study before implementation)

List of opportunities for cleaner production

Next month

Next year

Next 5 years

Fix leaking positions

Leaking positions such as pipe, valve... need to be fixed

Lock taps when not using

Auto-locking valves should be applied

Remove stuck on grid nozzle

Use non-toxic pigment/coloring substance

Only apply for color paper production

Use white bleaching substance peoxit hydro

Replace using chlorine and more friendly with environment

Use enough space pulp launching tank

Prevent overflow of pulp

Use high pressure centrifugal washer

Save pulp

Improve water separated and washed procedure by using doubled grid belt squeezer

Save water

Recycle white and technological water

For pulp washing, bleaching and diluting

Recover and recycle condensation water

Recycle for boiler

Reuse short-length/waste fibre

Produce lower quality products

Check and supervise quantitation of chemical

Leather production use large amount of chemical
Chemical: inorganic (acid, base...), organic, tanning (chrome, oil, dying, solven, enzyme...)

Instruct workers to implement exactly customer order

Especially requirement of quality, dimension, thickness...

Request workers for careful operation

Tanning technology include several stage where some need precise operation (time, quantity) such as feather bleaching, lime bleaching, chrome tanning, base and humidity regulation...

Equip chemical recovering trays

Use in chemical quantitation to recover spilled chemical to reuse

Suitable quantitation of salt utilization

In reservation of material

Use salt-processed leather replacing for production

Save salt when using raw leather

Increase absorption ability of chrome in tanning

Use modern system, able to automatic check and regulate operational parameters: temperature, pH... and supplment chemical as needed

Recycle chrome waste water

Reuse high concentration chrome in waste water (usually discharge as waste water after each tanning batch

Recover and reuse chrome by using sedimentation method

Reuse high concentration chrome in waste water (usually discharge as waste water after each tanning batch

Recover solution after water squeezing stage to recover tanning chemicals

Reuse tanning chemicals after water squezzing stage that usually to discharge as waste water

Fix leaking (valve, pump and other equipment)

Implement frequently, tend to prevent and maintain continuously

Close unnecessary tap

Use self-closing taps, implement frequently and replace as necessary

Recover overflow printed starch when put starch into brush

Use recover trays

Prevent starch while transportation

Input starch at level of 80% volume of container to prevent overflow starch while transportation

Replace bleaching chemical CCl4

Apply for bleaching stage
Reduce environment impacts

Check material/water rate

Install water meter to check material/water in order to optimization of water using

Install nozzles in jigger dying machine

Increase efficiency of washing process

Install hollow volume in jigger and winch machine

Reduce dying solution volume

Install nozzles in printer

Increase efficiency of printing process

Reuse dying water

Especially when using dispersal dying chemical
Number of dying water reusing depend on concentration of oil in cloth and type of color

Recover and recycle condensation water

Recover condensation water from jigger and provide for boiler

Recover ethyl acetate solven

From waste flow of solven-based washing stage though distillation process

Recover printed starch that stick in printed cloth

Recover printed starch remaining in cloth by a moving blade
Use recovered printed starch for dark-color starch preparation

Use impurities which separate from material cleaning process to provide to boilers

Impurities generated from distillation process of waste of printed cloth washing using solven
Need to improve combustion chamber to load solid waste

Check carefully material import process

Replace and maintain pipes, valve...

Replace and maintain periodically divides, pipes, machines... which leaking oil and grease

Remove impurities and substance that causing fire/exploitation

Remove material mixing with oil and grease-impurities that can cause fire/exploitation

Use cutter, squeezer to process material to pieces

Cut and squeeze material into smaller pieces to reduce volume

Minimize furnace opening time

Minimize furnace opening time to save energy

Maintain vacuum system, replace filter bag

Blow out dust when opening furnace to input fuel in case of bad maintenance of vacuum system and filter bags

Use small miller to mill material, clinke

Use roller mill instead of ball miller in milling raw material and clinke to save 30%-40% electrical energy

Recover waste heat to generate electricity

Apply for the factory having cement production capacity of over 1000 tan/day and using modern rotary kiln. Generated electricity sufficient to meet 25-35% factory's consumption demand

Use close jaw beating and hammer grinding system, suction filter sealed hammer with equipped filter

Open jaw beating and hammer grinding system without filter will pollute environment and affect human health

Use high productivity dust sleeve system and material recovery

Wet dust hushing system (low productivity) in material drying system pollute environment with dust

Educate operational workers

System operation by workers drops material and can be recover

Transport directly clinke and cement from silo to truck

Manual load to truck can drop clinke and cement

Minimize dust and recover dust while transportation

Cover truck and recover dust in production and transportation

Change motor power that suitable with additional charge

Overload/underload operation of motor cause power losses

Install additional capacitor cos Φ for motors in factory

Overload/underload operation of motor cause power losses

Install inverter in suitable conveyor belt

Overload/underload operation of motor cause power losses

Good reservation of material (rice and malt)

Use silo, construct warehouse against rat, use methods to exterminate rat and other rodent species

Prevent material (rice/malt) losses in milling process

Install material recover system

Reduce sugar solution loss by discharge as waste water

Strengthen deposition ability of sugar solution by using deposition fluxes
Recover deposition solution to filter pot
Invest deposition solution centrifuge

Reduce beer lost in fermentation solution when withdraw residual in tank bottom

Select fermentation bacteria/yeast to improve deposition ability
Select optimal/modern technology
Invest isobaric fermentation withdrawing system

Reduce beer lost in filtration causing by beer mixing with water

Use intermediate container contains both beer and water in filtration process
Apply high concentration fermentation technology

Reduce beer lost whenever machine cleaning

Improve filtration ability of beer solution: select fermentation bacteria/yeast, use fermentation fluxes, cold providing for beer before filtration process

Reduce beer lost by spilling with pressure discharge line

Cause by overpressure in the system
Invest CO2 loading system in recovery line

Reduce beer lost in extraction process

Control CO2 concentration and beer temperature before CO2 saturation
Transform or invest new extraction divides

What's next?

1-on-1 Consultancy

Consult a consultant by checking expert list in e-channel and discuss outcomes.

E-library

Check out suggested literature or toolkit for more in-depth information about tools & methods.

Implementation form

Use consultancy implementation form to take outcomes to the next level.

Stakeholders

Discuss outcomes with peers and stakeholders of your organization.

Added Value

Think about the added value of implementing the outcomes for corporate image or sales.

Step 1 − Calculate your consumption

Definitions

explanation of words

What do we get?

What do we get?

What are we doing?

What are we doing?

Example

Example

A

B

Step 2 − Identify the gap

Definitions

explanation of words

What do we get?

What do we get?

What are we doing?

What are we doing?

Example

Example

Chemical (kg/T)

Coal (kg/T)

Oil (kg/T)

Electricity (kWh/T)

Water (m3/T)

LEGEND

Water (m3/T)

Electricity (kWh/T)

Coal (kg/T)

Powder (kg/T)

Tanin (kg/T)

Oil (kg/T)

Colour (kg/T)

Acids, bases and salts (kg/T)

Surfactant (kg/T)

Enzym (kg/T)

LEGEND

Coloring (kg/T)

Additive (kg/T)

Water (m3/T)

Heat (Ton FO/T)

Electricity (kWh/T)

LEGEND

Steel scrap (kg/T)

Solid iron (kg/T)

Liquid iron (kg/T)

Lime (kg/T)

Coal (kg/T)

Grafit electrode (kg/T)

Electricity (kg/T)

Oxygen (m3/T)

Cooling water (m3/T)

LEGEND

Lime, clay, additive, etc (Ton/ton cement)

Gypsum (Ton/ton cement)

Additive (Ton/ton cement)

Electricity (kWh/ton cement)

LEGEND

Malt/alternative material (kg/100 liters)

Heat (MJ/100 liters)

Fuel (liter/100 liters)

Electricity (kWh/100 liters)

Water (m3/liters)

NaOH (kg/100 liters)

Inert powder (g/100 liters)

LEGEND

Step 3 − Identify potential CP options

Definitions

explanation of words

What do we get?

What do we get?

What are we doing?

What are we doing?

Example

Example

Direct result

What's next?

1-on-1 Consultancy

E-library

Implementation form

Water (m³/T)

Water (m³/T)

Water (m³/T)

Oxygen (m³/T)

Cooling water (m³/T)

Water (m³/liters)