scr vs sncr - selective catalytic (SCR) v/s non - catalytic reduction ( SNCR )

selective catalytic (SCR) v/s non -catalytic reduction(SNCR)

SCR
1. An SCR (Selective Catalytic Reduction) unit is an effective means of conditioning the exhaust gas after the combustion process for reducing NOx already formed in the combustion process.
2. SCR is the method for NOx reduction on diesel engines today that can give the largest reductions.
3. The process essentially involves injecting ammonia in the exhaust stream and in the presence of a catalyst the NOx reacts with the ammonia and forms water vapour and nitrogen.Due to the hazardous properties of ammonia, urea solution is generally used to provide the required ammonia.
4. With the SCR technique, the exhaust gas is mixed with ammonia NH3 or urea (as NH3 carrier)    before passing through a layer of a special catalyst at a temperature between 300 and 400°C, whereby NOx is reduced to N2 and H2O.
6. NOx reduction by means of SCR can only be carried out in this specific tem-perature window:
If the temperature is too high, NH3 will burn rather than react with the NO/NO2.
If the temperature is too low, the reaction rate will also be too low, and con-densation of  ammonium  sulphates will destroy the catalyst.
7. When engine exhaust gas is released from the exhaust gas receiver, urea or ammonia is supplied to the pipeline via double-wall piping into a mixer. The engine exhaust gas is mixed with the agent and led into the turbocharger in the turbine side.
8. To compensate for the pressure loss across the SCR system, high-efficiency turbochargers and high performing auxiliary blowers are mandatory. Due to the ammonia/urea heat release in the SCR process, the exhaust gas temperature from the turbocharger is slightly higher than the exhaust gas temperature in engines without SCR.


It consists of the following main components:A reducing agent storage tank, a reducing agent feeding and dosing unit, the reducing agent injection and mixing element, a reactor with catalyst elements, a soot blowing system for keeping the catalyst elements clean and the control system. A pump unit transfers urea from the storage tank to the dosing unit, which regulates the flow of urea to the injection system based on the operation of the engine. The  dosing unit also controls the compressed air flow to the injector. The urea injector sprays reducing agent into the exhaust gas duct. After the injection of reducing agent, the exhaust gas flows through the mixing duct to the reactor, where the catalytic reduction takes place.



SNCR
 Selective non-catalytic reduction (SNCR) is a chemical process that changes nitrogen oxides (NOx) into molecular nitrogen (N2), carbon dioxide (CO2) (if urea is used), and water vapor.
 A reducing agent, typically anhydrous gaseous ammonia or liquid urea, is injected into the combustion/process gases. At suitably high temperatures (870 to 1200 deg c) , the desired chemical reactions occur. Conceptually, the SNCR process is quite simple.
A gaseous or aqueous reagent of a selected nitrogenous compound is injected into, and mixed with, the hot flue gas in the proper temperature range. The reagent then, without a catalyst, reacts with the NOx in the gas stream, converting it to harmless nitrogen gas, carbon dioxide gas (if urea is injected), and water vapor. SNCR is “selective” in that the reagent reacts primarily with NOx,.


 No solid or liquid wastes are created in the SNCR process. While either urea or ammonia can be used as the reagent, for most commercial SNCR systems, urea has become the prevalent reagent used. Urea is injected as an aqueous solution while ammonia is typically injected in either its       gaseous or anhydrous form using carrier air as a dilutive and support medium.
 The principal components of the SNCR system are the reagent storage and injection system, which includes tanks, pumps, injectors, distribution modules, and associated controls. Given the simplicity of these components, installation of SNCR is easy relative to the installation of other NOx control technologies. While SNCR performance is specific to each unique application, NOx reduction levels ranging from 30 % to more than 75 % have been reported.

The NOx reduction efficiency of both SNCR processes depends on the following factors:
    •    Flue gas temperature in reaction zone
    •    Uniformity of flue gas temperature in the reaction zone
    •    Normal flue gas temperature variation with load
    •    Residence time
    •    Distribution and mixing of ammonia/urea into the flue gases
    •    Initial NOx concentration
    •    Ammonia/urea injection rate
    •    Heater configuration, which affects location and design of injection nozzles

certificate related to shipboard fire safety

 Q:-List the various statutory certificates, attachments and type approvals certificate related to shipboard fire safety and their undivided significance.

ANSWER :-

The Various Statutory Certificates, Attachments And Type Approvals Certificate Related To Shipboard Fire Safety are as follows :-

1. Cargo Ship Safety Equipment Certificate :-

A certificate called a Cargo Ship Safety Equipment Certificate shall be issued after survey to a cargo ship of 500 gross tonnage and over which complies with the relevant requirements of chapters II-1 and II-2, III and V and any other relevant requirements of SOLAS 1974. It signifies that the fire safety systems and appliances, life-saving appliances and arrangements except radio installations, the ship borne navigational equipment, means of embarkation for pilots and other equipment to which chapters II-1, II-2, III and V apply, comply with the requirements of the present regulations, are in satisfactory condition and are fit for the service for which the ship is intended.

2. Cargo Ship Safety Construction Certificate :-

A certificate called a Cargo Ship Safety Construction Certificate shall be issued after survey to a cargo ship of 500 gross tonnage and over which satisfies the requirements for cargo ships on survey, set out in regulation I/10 of SOLAS 1974, and complies with the applicable requirements of chapters II-1 and II-2, other than those relating to fire-extinguishing appliances and fire-control plans.

The survey shall include a complete inspection of the structure, machinery and equipment. It signifies that that the arrangements, materials, scantlings and workmanship of the structure, boilers and other pressure vessels, their appurtenances, main and auxiliary machinery including steering gear and associated control systems, electrical installation and other equipment comply with the requirements of the present regulations, are in satisfactory condition and are fit for the service for which the ship is intended and that the required stability information is provided.

3. Fire control plan

The fire control plan is a mandatory requirement of SOLAS convention described in Regulation 15 of Chapter II. It is a general arrangement plans that provides information about control station for each deck, the various fire sections enclosed by "A" class divisions, the sections enclosed by "B" class divisions together with particulars of the fire detection and fire alarm systems, the sprinkler installation, the fire-extinguishing appliances, means of access to different compartments, decks, etc., and the ventilating system including particulars of the fan control positions, the position of dampers and identification numbers of the ventilating fans serving each section.

4. Fire safety operational booklet

The fire safety operational booklet contains the necessary information and instructions for the safe operation of the ship and cargo handling operations in relation to fire safety.

5. Fire safety training manual

A training manual shall be written in the working language of the ship and shall be provided in each crew mess room and recreation room or in each crew cabin. The manual shall contain the instructions and information on General fire safety practice and precautions related to the dangers of common shipboard hazards. General instructions on fire fighting activities and procedures for notification of a fire and use of manually operated call points. Meaning of the ship’s alarms. Operation and use of ship specific fire fighting systems and appliances. Operation and use of shipboard fire doors. Operation and use of shipboard fire and smoke dampers. Shipboard escape systems and appliances.

6. Maintenance plans

The maintenance plan shall include the necessary information about Maintenance, testing and inspections of fire protection systems and fire-fighting systems and appliances as required under regulation II-2/14.2.2.

For tankers, additional requirements are referred to in regulation II-2/14.4. 

7. Structural fire protection plan

It gives detail of Method of construction, Categories of spaces, Details of fire insulation and specification of materials and doors, Application of fire rated divisions for all areas and spaces, Draught stops

8. Ventilation system drawing

It gives details of Duct layout and construction details, Specification of fire insulated ducts, Position, dimension and details of fire Dampers, Arrangement of means of control for closure of openings and stop of ventilation fans

9. Penetration details drawing

It give details of details of ventilation duct penetrations through fire divisions, details of cable penetrations through fire divisions, details of pipe penetrations through fire divisions.

10.Escape route plan

It give details of arrangement of primary and secondary escape routes including stairways, escape trunks and escape ladders, Width of escape routes including doors, Inclination of stairways/ladders.

11.Fire main system drawing

It gives details of Fire pumps including emergency fire pump, arrangement and construction details of fire main and isolating valves, number and positions of hydrants and hoses, Fire pump capacity calculations.

12.Arrangement drawings for fixed fire-extinguishing system in machinery spaces

It shows the Specification and location of all equipment, Reference to equipment certificates, Calculations for the quantity of the media used and the proposed rates of application, Release instructions, Control and monitoring system. 

13.Arrangement drawings for fixed fire-extinguishing system in cargo spaces (if relevant)

It give the Specification and location of all equipment, Reference to equipment certificates, Calculations for the quantity of the media used and the proposed rates of application, Release instructions, Control and monitoring system. 

14.Arrangement drawings for automatic sprinkler, fire detection and fire alarm system (if relevant)

It shows Sprinklers grouped into sections, Specification and location of, pumps, tanks, alarms and activators, Relevant information as specified for arrangement drawings for fixed fire detection and fire alarm system

15.Arrangement drawings for fixed fire detection and alarm systems

It gives Specification of control panel (central unit), indication units, detectors, alarm devices and manual call points, Location of equipment including cable routing and loops, Power supply arrangement, Details of smoke extraction system (where relevant).

16.Type Approval certificate :-

For constructions and equipment required by SOLAS to be tested in accordance with the Fire Test Procedure Code. The type approval certificates are required for

• All extinguishers
• All fixed fire fighting system
• Self Contained breathing apparatus
• Emergency Escape breathing apparatus
• Fire Detection system

17.Other certificates with respect to inspection , maintenance and tests 

• Fire extinguishers servicing certificates
• Fire Extinguishers Pressure testing certificates
• Fixed gas fire extinguishing system cylinder Pressure test and servicing certificates
• SCBA cylinder test and inspection certificates and were required EEBD