1. Clean Technology
(PB386)
Click to edit Master title style Numfon Eaktasang, Ph.D.

2. Principle of Clean Technology
Cleaner Technology
Reuse/Recycle
Source Reduction
Product Change
Process Change
Reuse
Recycle
Raw Material Change
Technology Improvement
Operational Management
Before
After

3. Waste Reduction at Source
Final change or intermediate products change
To reduce waste generation and environmental load
Ecolabelling
Product design
Life cycle assessment (LCA)
Product Change

4. Waste Reduction at Source
Process Change
Raw Material Change
Technology Improvement
Operational Management

5. Waste Reduction at Source
Input material changes
Material substitution
Replace toxic chemical by non-toxic chemical
Increasing material cost but saving in waste treatment and disposal cost
Raw Material Change

6. Waste Reduction at Source
Redesign production system, using automatic machine
Quality checking/maintenance
Improving chemical synthesis such using more selective catalyst to reduce by-product formation
Improving process control
Redesign or reconfiguring process to improve heat recovery
Improving the selectivity of separation processes
Technology Improvement

7. Waste Reduction at Source
Good operating practice
Preventing unnecessary releases and merges into on-site recycling
Operational Management

8. Reuse and Recycle On-site reuse Off-site reuse Material recovery
Energy recovery
Recycle
Waste
New product

9. Reuse and Recycle
Energy recovery

10. Process of Clean Technology
Planning and Organization
Pre-Assessment
Detail Assessment
Feasibility Study
Implementation and Evaluation

11. Process of Clean Technology
CT working team
Goal and objective setting
1. Planning and Organization

12. Process of Clean Technology
Scope of the study
Manufacturing process inspection
Identify pollution sources
Mass balance (input-process-output)
Waste Evaluation
Economic evaluation (cost-benefit analysis)
Environmental impact assessment
Priority setting
2. Pre-Assessment

13. Process of Clean Technology
Identify source of pollution or energy loss
Mass balance: energy balance, water balance, material balance
Analysis and find the solutions
Not effect on production process and quality of product
Clean technology options
3. Detail Assessment

14. Process of Clean Technology
Choose appropriate option
Feasibility study in terms of 3Es (Engineering, Economic, Environment)
4. Feasibility Study

15. Process of Clean Technology
Tool, equipment
Experience
Area
Product
Quality
Safety
Maintenance
Interrupt the normal production process
Engineering

16. Process of Clean Technology
Investment cost
Machine
Under improvement/ stop production
Maintenance
Etc.
Saving cost
Material cost saving
Energy cost saving
Treatment cost saving
By-product
Etc.
Economic

17. Process of Clean Technology
Reduce environment impact
Pollution prevention
Waste reduction
Environment

18. Process of Clean Technology
To action must include a detailed work plan
Target area, Timing and responsibilities
Monitoring and evaluation to ensure that the practice is based on work plan
If any there will be further revised.
5. Implementation and Evaluation

19. Project Implementation
CT team
Policy
Goal
Objective
Technical team
Data report & assessment
Identified option
Evaluation
Next plan
Supporting information
Process information
- Supervisor
Process engineer
Environmental engineer

20. Sugar Production Process
Boiling and Evaporation
Thickener
Sugar crystal
Dark brown sugar
Sugar cane
Sugar cane Juice
Washing

21. Boiling and evaporation
Mass Balance
Sugar cane
Sugar cane juice
Thickener
Boiling and evaporation
Crystal
Washing
Dark brown sugar
100 tons
Hot water 33 tons
Calcium oxide 0.08 ton
Flocculants 0.01 ton
Bagasse 28 tons
Steam tons
Steam tons
Filter cake 2.86 tons
Molasses 8.86 tons
10.34 tons
Hot water 0.19 tons
Hot water 5.64 tons
105 tons
tons
23.58 tons
19.01 tons
10.34 tons

22. Mass Balance
Material balance
Energy balance
Water balance

23. Thank You !