detailed project report ofenvironmentclearance.nic.in/writereaddata/form-1a/pfr/47... · 2012. 10....

76
DETAILED PROJECT REPORT OF EXPANSION OF SUGAR PLANT CAPACITY TO 20000 TCD, COGEN TO 73 MW & DISTILLERY 200 KLPD FOR THE UGAR SUGAR WORKS LTD., UGAR KHURD, TQ: ATHANI, DIST: BELGAUM, KARNATAKA PREPARED BY UGAR CONSULTANCY LTD., UGAR KHURD, TQ: ATHANI, DIST: BELGAUM, KARNATAKA

Upload: others

Post on 02-Feb-2021

0 views

Category:

Documents


0 download

TRANSCRIPT

  • DETAILED PROJECT REPORT

    OF

    EXPANSION OF SUGAR PLANT

    CAPACITY TO 20000 TCD, COGEN TO 73 MW & DISTILLERY 200 KLPD

    FOR

    THE UGAR SUGAR WORKS LTD.,

    UGAR KHURD, TQ: ATHANI, DIST: BELGAUM, KARNATAKA

    PREPARED BY

    UGAR CONSULTANCY LTD., UGAR KHURD, TQ: ATHANI, DIST:

    BELGAUM, KARNATAKA

  • CONTENTS

    EXECUTIVE SUMMARY

    HILIGHTS OF THE PROJECT

    1 – 9

    1. INTRODUCTION 10 – 16

    2. NEED FOR THE PROJECT 17 – 18

    3. PRODUCT SALE POLICY 19 - 21

    4. TECHNO COMMERCIAL ASPECTS 22 – 27

    5. TECHNICAL SPECIFICATION OF EQUIPMENTS 28 – 56

    6. LOCATION & SITE ASSOCIATED DETAILS 57 – 60

    7. RISK ANALYSIS & MANAGEMENT 61 – 65

    8. PROJECT COST ESTIMATION 66 – 69

    9. ANNEXURES

    1 BAGASSE BALANCE 70

    2 STEAM BALANCE DURING SEASON 71

    3 POWER BALANCE DUSRING CRUSHING SEASON 72

    4 STEAM BALANCE DURING OFF SEASON 73

    5 POWER BALANCE DURING OFF SEASON 74

  • UCL

    1

    Executive Summary

    Preamble

    1.1 Numbers of new sugar factories have increased in the nearby area of The

    Ugar Sugar Works ltd., and also existing sugar plant expansions are taking

    place in the nearby area. Hence the total cane crushing capacity is

    increasing in the same cane growing area, which in turn reduces the

    duration of crushing days. To maintain the ultimate sugar production target

    it is essential to increase the crushing capacity of USWL. At the same time

    expansion of cogeneration and distillery is also essential to balance the by-

    products. In this line of action management of ugar sugar have decided to

    go for Sugar Plant expansion in phased manner. It is proposed to expand

    sugar plant capacity to 20000 TCD, cogeneration 76 MW and distillery to

    200 KLPD. Before going into details of the project, we can have a look on

    manufacturing procedure of sugar in the following paragraphs.

    1.2 Sugarcane will be harvested at field and clean cane will be loaded in the

    vehicles at field and brought to the factory. The gross weight shall be taken

    and cane unloaded on the feeder table with the help of electric crane

    unloader. The tare weight of the vehicle will be taken to arrive at the weight

    of the cane.

    1.3 Cane will be fed to cane carrier from the feeder table. The cane

    preparatory devices viz. Kicker, chopper, Leveler, fibrizer etc., are

    installed on the carrier for the preparation of cane. The prepared cane will

    be taken to Mills by second carrier where juice is extracted using

    compound imbibition process and hot water is applied for maximum

    extraction before last mill. Mixed juice is strained and sent for processing.

    Water for imbibition and mixed juice both are weighed in automatic

    weighing scale & by mass flow meter respectively. Bagasse (residue of

    cane after juice extraction) is used as fuel in the boiler and surplus

    bagasse saved in the form of bales.

  • UCL

    2

    1.4 Mixed juice will be clarified by sulphitation process by heating at 700C in a

    juice heater, phosphoric acid; sulphur dioxide gas & milk of Lime are used

    as clarificants. These are thoroughly mixed in juice sulphiter. Then the

    sulphited juice is heated to 1050C in another juice heater. This juice is

    passed on to continuous clarifier through flash tank for settling. The settled

    mud is filtered with the help of vacuum filter where filtrates are separated

    and sent back to process. Hot condensate water is used to wash the cake

    & recover maximum sugar from the cake. The washed filter cake with

    minimum sugar content is sent out as bye product. Decanted clear juice

    from clarifier is taken to Evaporators (multiple effects). The concentration is

    increased to syrup consistency. The heat required for heating and

    evaporation is used from exhaust steam and the bled vapors from

    evaporators. Exhaust steam is obtained from prime mover turbine of power

    generation.

    1.5 The syrup from evaporators is sulphited to pH of 5.0 – 5.2 & it is used in

    vacuum pan boiling to produce ‘A’ Massecuite. The necessary seed

    crystals are taken in the pan and boiled with syrup / melt at about 600C.

    This gives ‘A’ massecuite. ‘A’ Massecuite from the pan is discharged into

    crystallizer. Then the sugar crystals are separated from the surrounding

    film of mother liquor in centrifugal machine. It is also washed by

    superheated water wash. The liquor is called as ‘A’ Heavy molasses and

    the white crystal sugar is dropped on the hopper from centrifugal machine.

    The sugar is conveyed on hoppers graded & bagged. The crystal sugar

    gets dried & cooled while conveying on hoppers.

    1.6 ‘A’ heavy molasses is subjected to second boiling to get ‘B’ Massecuite

    there by B- sugar is used as Seed and / or excess is melted & melt is used

    in ‘A’ boiling. B-Heavy molasses is subjected to third boiling to get C-

    Massecuite and there by C- sugar and final molasses. C- Sugar is

    magmized and double cured. The mother liquor separated is called C-Light

    molasses. It is used in C boiling. C-double cured sugar is melted and melt

    is used in A boiling.

  • UCL

    3

    Final molasses is weighed and stored in steel tanks (non duty paid). It is

    then sold as bye product or used to distillery.

    1.7 The sugar industry is the only industry blessed with captive regenerative

    cellulosive matter to meet its own energy for processing sugar cane to

    produce sugar. The optimal use of energy is the theme of the day. Cane

    sugar industries having its own captive fuel till late were not very conscious

    about the effective utilization of energy and to render surplus for other

    utilization. In the present context newly developed technologies has proved

    to be very effective in releasing energy (thermal & electrical) and

    conservation of utilities.

    1.8

    The increasing concern about the effect of emissions from the power

    industry, amongst others, on the environment is the driving force behind

    the development of cogeneration and the utilization of renewable fuel

    sources. The cane sugar industry is eminently suited, because it has been

    in this field for 150 years or so as well as the fact that it uses a renewable

    fuel that is C02 emission neutral.

    1.9 Sugar factories, since inception are equipped with facilities for co-

    generation of steam & power for captive use. However, in recent time the

    meaning of the term “co-generation” has widened to denote the generation

    of surplus power that can be supplied to the grid. The primary fuel in these

    co-generation plants is bagasse, which is generated as a by-product of

    cane crushing operations in the sugar manufacturing process. To extend

    the operating days and to increase profitability, supplement fuel such as

    coal can be used during off season.

    1.10 India is one of the largest sugar producing nations in the world. There are

    around 500 sugar factories in operation out of these two third are owned &

    managed by cooperative sector & public sector. The estimated co-

    generation potential from bagasse-based projects is 5000 MW, which

    could be tapped by installing efficient co-generation plants.

  • UCL

    4

    1.11 Realizing the vast potential of cane production and power generation from

    sugar plant co-generation a task force was constituted by Government of

    India to address the constraints to commercially exploit the co-generation

    potential. The task force had recommended the policy, fiscal incentives to

    overcome constraints based on the recommendations Ministry of Non-

    Conventional Renewable Energy Sources (MNRE) has announced

    incentives like one time capital subsidy to set up co-generation projects in

    the sugar factories.

    2. USWL Background: 2.1 M/s. The Ugar Sugar Works Ltd. is one of the pioneers in sugar industry in

    the state of Karnataka, having started its operations way back in 1939.

    USWL has distillery, IML section and Co-generation plant. The company

    has expanded its capacity from time to time and the present capacity is

    10,000 TCD and 44 MW co-generation, out of which 28 – 30 MW is

    exportable.

    2.2 The factory started Distillery in the year 1963 & the present capacity of the

    distillery is 75 KLPD (30 KLPD batch type & 45 KLPD continuous type).

    Company has further installed 20 KLPD Ethanol Plant & 50 KLPD ENA

    Plant with blending & bottling of 9 different IML varieties. The company has

    provided fully fledged effluent treatment plant which includes Chemical

    digesters, concentration & spray drying of spent wash and mixed lagoons

    anaerobic & aerobic treatment of sugar factory effluent & evaporation &

    drying system for distillery spent wash etc.

    2.3 The company has also provided Methane gas generated by biodegradation

    of filter cake is used for domestic fuel requirement. The gas is provided to

    170 residential quarters. Filter cake is a by-product of sugar factory.

  • UCL

    5

    2.4 Present Director board of the company is as follows:

    Shri. R.V.Shirgaokar’ (C & M)

    Shri. P.V. Shirgaokar (E V C)

    Shri. S.S. Shirgaokar (MD)

    Shri N. S. Shirgaokar (JMD)

    Shri C. S. Shirgaokar (JMD)

    Shri M. R. Desai (Director)

    Shri V. Balasubramanyam (Director)

    Shri S. N. Inamdar (Director)

    Shri M. G. Joshi (Director)

    Shri A. B. Kage (Director)

    Shri D. B. Shah (Director)

    Shri S. K. Shirgaokar (Director)

    3. Production Scheme 3.1 The main activity of the company is to manufacture white crystal sugar,

    Electrical power, ENA, ethanol & IML.

  • UCL

    6

    3.2 The daily Sugar cane crushing capacity of the plant after expansion will be

    20000 TCD, which means the additional production as follows (maximum).

    Product Production per Annum in MT

    Maximum Minimum Average

    Sugar cane crushing MT 30,00,000 24,00,000 27,00,000

    Sugar in QT 34,50,000 27,60,000 31,05,000

    Proposed Power Generation During season

    75.6 MW 65.7 MW 70.65 MW

    Proposed power export 50.20 MW 40.20 MW 45.20 MW

    3.3

    The raw material for manufacturing the above is Sugarcane i.e. 25 to 30

    lakh MT which is sufficient for 120 to 150 days @ 20000 TCD. The

    productivity of the sugar cane & yield depend on water supply & hence, the

    cane can be grown in & around the Ugar. Which is on the bank of river

    Krishna, has full & sufficient irrigation facility. It is expected that yield will

    be 30 to 40 MT per Acre with recovery of sugar as 11% to 12%.

    4. Co-generation scheme

    4.1

    The co-gen plant is configured keeping in view that the sugar factory

    operations & also to meet peak steam & power requirement. The

    installed capacity of co-gen plant is 77.6 MW with 4 numbers of boilers

    having 310 TPH capacities @ 62 bar 490 deg C temp, one boiler having

    100 TPH capacity @ 110 bar 540 deg Temp and one 50 TPH capacity @

    32 bar 490 deg c & two back pressure TG sets of 22 MW each, one back

    pressure TG of 12 MW and one extraction cum condensing turbo

    alternator. of 20 MW

    4.2 The total average cane crushing is envisaged 25 to 30 lakh MT every year

    in the crushing period of 120 to 150 days with crushing rate of 20000 TPD

    This would be achieved by the sugar factory from its past performance

    data of unit I.

  • UCL

    7

    4.3 The process steam consumption is assumed 41.5% on cane; this could

    be easily achieved as the proposed modification in the boiling house is

    proved one. The electricity consumption during season of sugar factory,

    cogeneration, colony etc. is taken as 28 kwh / MT of cane crushed with

    electric drives for mill.

    4.4 The proposal for expansion is to add one new boiler of 100 TPH capacity

    along with modification in the existing boiler. The modification Scheme

    envisages the boiler with super heater outlet steam parameters of 32 bar

    & 490 Deg. C. & turbo-alternator with the steam inlet parameters of 30 bar

    & 480 Deg. C. New Boiler is of 110 bar with 540 deg C steam parameters

    with suitable new TG set. All the necessary auxiliary plants & systems in

    respect of boiler modification will be installed for the efficient operations of

    the co-gen plant.

    4.5 The power generation is at 11 KV voltage level from the co-gen plant.

    The interconnection with the KPTCL grid is at 110 KV after stepping up

    the voltage from 11 KV to 110 KV. The power evacuation feeder is

    connected to 110 KV sub-station at ugar which is around 2 Kms from the

    co-gen plant site.

    4.6 It is envisaged that the co-gen plant would run on sugar factory Bagasse

    for 120 to 150 days (normal crushing season) & on saved bagasse for

    around 150 to 200 days in non-crushing season to optimize the utilization

    of co-gen plant.

    4.7 Other equipments remains same, which comprises high pressure boiler,

    TG set. condensate system, DM water system, cooling water system, fire

    fighting system, compressed air system, instrumentation & control

    system, electrical system, LT / HT switchgears, distribution panels, step

    down transformers, step up transformer, outdoor switchyard equipment,

    data acquisition system etc. for efficient & trouble free operation of co gen

    facility.

    5. Project Finance & Implementation:

  • UCL

    8

    5.1 The total estimated capital cost of the sugar plant expansion is around

    16626 lakhs. This includes land development, civil works, main plant

    equipment, auxiliary plants, miscellaneous works, preliminary &

    preoperative expenses, contingencies, interest during construction,

    financing & other soft costs.

    5.2 Project Cost Rs.16626 lakhs

    Means of finance

    Equity 25% : 4156.5

    DEBT 75% : 12469.5

    Total = : 16626

    5.3 The financial analysis is based on the sugar plant operation. Other

    benefits during crushing season as well as Bagasse saving.

    6. Synchronization & Interfacing Scheme: 6.1 Synchronization & interfacing equipments will be added in the existing

    system suitable for the expanded capacity..

  • UCL

    9

    HIGHLIGHTS OF THE PROJECT

    Name of the company : The Ugar Sugar Works Ltd.,

    Registered office : Mahaveer Nagar, Wakhar Bhag, Sangli Pin Code:416 416

    Manufacturing unit : At: Ugar Khurd village, Tal: Athani, Dist: Belgaum.

    Constitution : A Public Limited Company.

    Contact person : Shri ‘R.V.Shirgaokar’, (C & M) Shri P. V. Shirgaokar (Ex Vice Ch)

    Shri S. S. Shirgaokar (MD)

    Shri N.S. Shirgaokar (JMD)

    Shri C.S. Shirgaokar (JMD)

    Products : Sugar, Bagasse & Power, Spirit

    Expanded Capacity : Sugar 20000 TCD Cogen 76 MW during season Distillery : 200 KLPD

    Power Export capacity : 47.43 MW during normal operation

    Total project cost : Rs. 16626 Lacs

  • UCL

    10

    CHAPTER 1

    INTRODUCTION

    A. INTRODUCTION ABOUT THE UGAR SUGAR WORKS 1. Background 1.1 The Ugar Sugar Works Ltd. is one of the pioneers in sugar production in the

    state of Karnataka; the Company was incorporated on 11th September 1939,

    under the able guidance and kind patronage of his late highness The

    Rajasahab of Sangli with a crushing capacity of 500 tons per day.

    1.2 Vaidya and Company was the first Managing Agents. In the year 1940, M/s. Shirgaokar Brothers were called to manage the affairs of the Company and

    they were the Managing Agents till 31st December 1969. M/s. Shirgaokar

    Brothers who had by then made the Kolhapur Sugar Mills outstanding and

    notable success proved to be successful in bringing up the Ugar Sugar

    Works Ltd., also.

    1.3 Under the overall supervision and control of M/s. Shirgaokar Brothers the crushing capacity of the factory has been increased from time to time as

    detailed in Table No. 1.1. At present the cane crushing capacity 12,000 TCD.

    Table 1.1 growth in crushing capacity of the plant

    Sr. No.

    CRUSHING CAPACITY IN

    TCD

    PERIOD

    1 800 1955-56

    2 1200 1960-61

    3 2000 1969-70

    4 5000 1988-89

    5 6500 1994-95

    6 7500 1997-98

    7 10000 2002-03

    1.4 The company has introduced number of irrigation schemes for the

  • UCL

    11

    development of sugarcane in the area. 1.5 The company has started its own distillery during the year 1962-63 and liquor

    section in the year 1967-68. New distillery plant unit with production capacity

    of 45000 liters of rectified spirit has been commissioned in March 1995.

    2. Cane availability 2.1 In Belgaum District where the plant is located, sugar cane is available from

    the month of October to April even many times the season has to extend up

    to the end of May. Typically, sugar cane availability is for a period of 7 to 8

    months in a year. The registered area under sugar cane cultivation allocated

    to Ugar Sugar Company is 60,000 acres. The important factor with regard to

    the operation of USWL is that the cane arrival is fairly uniform and the plant

    reaches the maximum crushing rate within a month of season

    commencement. The total cane availability during a season is approximately

    40 Lakh tones and most of it reaches the plant during the crushing season.

    But now, due to new sugar plants installed in the nearby area, crushing

    season days have reduced from 8 months to 5 to 6 months.

    3. Steam Generation System 3.1 The main source of energy for the plant is bagasse and on an average the

    bagasse generated is about 29% of the cane crushed. About 1 % of the

    bagasse generated is utilized for juice filtration and the balance is available

    for steam generation. While operating on a steady load the savings achieved

    by the plant is about 2 to 3% on cane.

    3.2 At present, the sugar plant supplies the entire steam requirement of the distillery, which is around 10 to 15 tons per hour.

    3.3 The existing steam generation system consists of 4 high pressure & 1 low pressure water tube boilers and the details of these boilers are as given in

    Table 1.2.

    3.4 About 90% of the sugar plant's process steam requirement, which is at 2.5 kg

  • UCL

    12

    per cm2 abs., is met through exhaust of the backpressure turbines and the

    balance requirement, which is at 9 kg per cm2, is met through extraction from

    turbine.

    Table 1.2 Details of existing Boilers at USWL I Steam Generators Make Year Capacity

    T/Hr. Pressure kg/cm2 (g)

    Temp. °C

    Babcock & Wilcox * 1998 75 62 490 Babcock & Wilcox * 1998 75 62 490 Krupp I 2000 80 62 490 Krupp II 2002 80 62 490 Walchandnagar Industries** 1989 55 32 490 * Purchased old which are manufactured in 1959

    ** modification proposed to increase capacity by 5 TPH & temp from 380 to 490 deg C

    4. Power Generation System 4.1 From the above steam, total power is generated through three turbines,

    which meets the in-house requirement as well as exportable power to

    KPTCL grid. The rating of which are as given in Table 1.3 and 4th Turbine

    will be idle during season as it is condensing turbine.

    Table 1.3 Details of power gen. system

    Turbine make

    Year Capacity Pressure Temp.

    Siemens* 1998 18 MW 60 kg/cm2 485 °C

    Shin Nippon 1 1998 22.8 MW 60 kg/cm2 485 °C

    Shin Nippon 2 2003 22.8 MW 60 kg/cm2 485 °C

    * Siemens Turbine is old and fully condensing type which is modified to take extraction from HP to LP loop, hence it needs minimum 30 TPH steam in condensing.

    4.2 During the crushing season for the present capacity all the 3 turbines and 4 Boilers are in operation.

    4.3 The average own power generation is about 120.00 million units per year.

    The major electrical load of the plant comprises boiler fans, feed pumps,

  • UCL

    13

    DC drives, cane cutter motors, centrifugals, injection water pumps and

    cooling water pumps.

    4.4 In addition to steam turbine generators, there are four diesel generators available with USWL and the total capacity of the DG sets is 4600 KVA.

    These DG sets are utilized as standby source of power during emergency

    requirement and during start up operation as well as off-season operation.

    5. Water and Condensate System

    5.1 Only Exhaust steam condensate is recovered from the major process equipment like Kestners and evaporators. The water from the above

    recovery is utilized as feed water for the boilers. In addition, DM water is

    available for feed water make up requirement.

    6. Major Process Equipments

    6.1 The plant follows standard three and half-massecute system for sugar production.

    6.2 The unit has got 2 milling tandems. The WIL mill having a size of 33" x 66" is capable of crushing 4500 TCD and a second mill namely Shantaram

    Machineries Pvt Ltd. having a size of 42" x 84" is capable of crushing 6500

    TCD. The milling tandem along with the fibrizer is driven by DC drives.

    6.3 The juice evaporation system comprises a quadruple effect evaporation system. Earlier there was double effect semikesteners followed by

    quadruple effect. In all, there were three numbers of SK1 bodies and two

    numbers of SK2 bodies + 1 No. Robert’s Body in the pre-evaporators. The

    quadruple effect evaporation system has three trains namely A, B & C and

    two trains will be always on line. During last modification the above system

    has been converted and made straight quad system.

    6.4 The quadruple effect evaporation system has three trains namely A, B & C

    and two trains will be always on line. The disposition of the heat transfer

    surfaces for the streams is as given in Table 1.4

  • UCL

    14

    1.4 details of existing evaporation system Existing set up Quadruple

    I II III IV

    5000 M2 6400 M2 3500 M2 1500 M2 (9000 M2) (10134) (5384) (2300) SK 4000 + R 3200 (DE) SK 1200 + R 1440 (DE) SK 1000 + R 1200 (DE) SK 1200 + SK 1200 (DE) SK 800 SK 800

    R 1027 R 1027 + R730 R 730 R 1027 R 1027 + R730 R 730

    R 1040 R 1040 + R830 R 830

    6.5 The raw juice heating is done in two stages. In the first stage heating up to 50° C is carried out through Vapour Line Juice heater and the heating from

    50° C to 75° C is achieved by Dynamic juice heater between 3rd & 4th Body.. 6.6 The second effect of evaporator supplies vapors to part of A and B pans and

    1st effect vapor is utilized for the C pan. 3rd effect vapors to A continuous pan.

    The temperature raise in different stages are as given in Table 1.5

    Raw Juice Heated by Rise in temperature

    Stage I III body vapors 30 to 50 C

    Stage II I body vapors 50 to 75 C

    Sulphited

    Juice

    Stage I I body vapors 75 to 90 C

    Stage II SKI vapors 90 to 100 C

    6.7 The centrifugal section encompasses 8 numbers of A centrifugal machines,

    6 numbers of B centrifugal machines and 5 numbers of CFW & 2 Nos. CAW

    centrifugal machines. The total 27 number of Crystallizers installed in the

    plant, and that are 9 numbers A Crystallizers, 11 numbers B Crystallizers

    and 7 numbers C Crystallizers.

  • UCL

    15

    6.8 There are eight cell induced draught cooling towers for removing the heat

    absorbed by the re-circulating water from the process.

    7. Water supply system 7.1 The complete raw water requirement of the plant is drawn from river

    Krishna, which is very near from the plant. The pumping station has got six

    pumps out of which two pumps are utilized for sugar plant operation and the

    pump ratings are as under:

    Pump 1: Capacity: 390 M3/Hour. Head: 36.6 meters. Pump 2: Capacity: 170 M3/Hour Head: 36.6 meters. 7.2 The raw water, from the river is brought to the plant by a 600-mm

    underground RCC pipe and finally discharged into a constant level water

    pond.

    8. Boiler Feed Water System. 8.

    1

    The raw water is passed through the pre-water treatment plant comprises

    solid contact clarifier and chemical dosing system. This clarified water is

    passed through DM plants having the capacities of 30m3/hr, 60 and 72

    m3/hr. (3 bed de-ionization plants). Exhaust condensate received from the

    process and turbine condenser is used directly as Boiler feed water.

    Softener water is being used as makeup water for power plant cooling tower

    and drainage of this water is used as makeup water for sugar plant cooling

    tower.

    9. DISTILLERY 9.1 There are two distilleries available with the USWL. One is of very old with

    the capacity of 30 KLPD and another one is of 45 KLPD. Total existing

    capacity is 75 KLPD. Usw is having IML section also wherein bottling with

    their own brand are being manufactured. There is a separate effluent

    treatment plant ie evaporation and drying effluent to form a powder is

    available with USW.

    10 Fire Fighting System. 10.

    1

    Sprinkler system is provided all through bagasse carriers. Hydrants and

    portable fire extinguishers are available at other places.

  • UCL

    16

    11 Compressed Air System. Three Horizontal Chicago pneumatic air compressors and Two vertical air

    compressors having a total discharge of 2160 CFM are available for

    instrument and service air supply.

  • UCL

    17

    CHAPTER 2

    NEED FOR THE PROJECT 1.0

    1.1 All the nearby plants are going for the expansion and the forecast is total

    crushing days will be reduced. Previously it was only one sugar factory in

    Athani taluka, now there are 6 – 7 sugar factories in the radius of 20 to 30

    KM. 1.2 Athani Farmers is going for expansion to 5000 TCD

    Krishna SSK is going for expansion to 5000 TCD

    Renuka Sugar – Kokatnur is going for expansion to 15000 TCD

    Renuka Sugar Raibag SSK is going for expansion to 5000 TCD

    Mohanrao Shinde Arag is 2500 TCD.

    New plant Shirguppi sugar is coming up with capacity – 5000 TCD

    New plant Shivshakti sugar is coming up with capacity 2500 TCD. 1.3 To achieve maximum crushing in minimum crop days with maximum sugar

    recovery it is essential to go for expansion. Present overheads at Ugar are

    already high, which leads to face difficulties in arriving at competitive cane

    price. Hence Ugar Sugar management is proposing to expand the sugar

    plant capacity to 20000 TCD.

    2 Ugar Sugar has already taken steps to overcome the bottlenecks faced to

    crush 416.66 TCH (10000 TCD in 24 hrs) and during last season USWL

    has crushed almost 416.66 TCH. One of the bottlenecks is still exists i.e.at

    cane unloading station of 42 x 84 mill. Due to space constraint and lower

    capacity cane un-loaders they are unable to maintain uniform cane feeding.

    Bagasse moisture will be on higher side, which leads to fluctuations in boiler

    steam working parameters and in turn affects the crushing. Along with cane

    unloading station the other parameters, i.e. reduction in crop days in future,

    higher overheads per ton of cane and competitive cane price, sugar plant

    expansion seems to be essential. Hence USWL proposing to expand the

    crushing capacity.

  • UCL

    18

    2.1 Alongwith the expansion of the sugar plant capacity to 20000 TCD it is also

    proposed to expand cogen power plant capacity to 76 MW with distillery of

    200 KLPD capacity.

    2.2 The main areas covered under the sugar plant expansion is mill and Boiling

    house..

    2.3 Mill Expansion: it is proposed to reshuffle the cane unloading system and

    enhancing the unloader capacity from 7.5 MT to 12.5 MT to overcome the

    existing cane feeding bottle necks and addition of Zero Mill of size 50” X

    100” and last mill of 50 X 100 with GRPF for existing 42 X 84 mill to crush

    at the required capacity.

    2.4 Boiling House capacity to be increased to 20000 TCD, for new additions

    capacity shall be suitable for 909 TCH. One parallel boiling house set has

    been proposed for the expansion. 2.5 The viability of the sugar factory is improved due to cogeneration, which is

    also a need of the State to have more power to meet the growing power

    demand in the State. 2.6 Alcohol plays one of the important role in the countries economy. Alcohol is

    by product of sugar industry, which is linked to agriculture. There alcohol

    produced from molasses deserves the preferential place as a substitute

    feed stock for chemical industry and to bridge a gap in our every need. The

    gap between the availability of alcohol and requirement by the industry has

    been avoiding.

  • UCL

    19

    CHAPTER 3

    PRODUCT SALE POLICY 1.0 Sugar Sale Policy

    A) Sugar sales are governed by sugar control order of Central Government

    & the releases are given to the Sugar Factory in proportion to their

    production / stock of season with the factory. Factory will follow these

    rules for sugar sale & abide by the rules. Sugar is sold to Government

    nominees & or wholesale dealers registered with the Government.

    2.0 Molasses Sale Policy A) Molasses sales are governed by State Excise. Factory will possess M1

    license issued by the Commissioner of State Excise, which will permit to

    produce the molasses, hold in stock & sell molasses to authorized

    parties. Factory will find the parties i.e. Distilleries, Cattle Feed producer

    or otherwise exporter of molasses who can purchase the molasses at

    remunerative price. This will be followed till such time as own distillery

    is established.

    3.0 Filter Cake Sale Policy (Press Mud) A) Filter cake is produced as a by-product at the rotary vacuum filter where

    the muddy juice is filtered. This filter cake is rich in minerals, potash as

    also the phosphate, sulphites & organic matter which means rich

    manure. Hence, this is most suitable for soils. The factory will adopt the

    policy to return the rich manure to soil by selling the filter cake

    particularly to cane growers who have supplied the cane to factory. It is

    general experience that cane growers are very much interested to

    purchase filter cake at a nominal price fixed by the factory.

  • UCL

    20

    4.0 KERC guide lines A The Karnataka Electricity Regulatory Commission approves the draft

    standard PPAs for each category of the NCE projects on dated 18th

    August 2005 duly incorporating the changes as approved in the Order

    dated 18th august 2005. The main points are

    1 Power purchase is at the rate of Rs. 3.59 per kilowatt-hour (“the base tariff”) for energy delivered to the Corporation at the Metering

    Point with an escalation at a rate of 2% per annum over” the base

    tariff” every year. This shall mean that the annual escalation will be

    at the rate of Rs.0.056 per Kwhr.

    2 Power purchase agreement period would be 10 years from the date

    of commissioning of cogen project.

    3 The Company shall undertake at its own cost construction/up

    gradation of (a) the Interconnection Facilities and (b) the transmission lines as per the specifications

    4 The Company shall achieve Scheduled Date of Completion within

    one and half years from the date of Financial Closure.

    5 The benefits accruing on account of carbon credit shall be shared between the Company and the Corporation in the ratio of 50:50, after deducting all expenses incurred by the company in this regard

    6 The Developer shall pay to the KPTCL, at the rate of Rs. 37,000/- [Rupees Thirty Seven Thousand only] per MW of Installed Capacity

    and for fractions thereof on a pro rata basis as a one time lump sum

    payment for the sole purpose of providing the required MVAR

    capacity at the sub-station of the KPTCL to which the Project is

    interconnected to supply the requisite reactive power to the Grid

    system.

    7 Payment 15 days from the date of bill.

    8 KPTCL to provide start up power required for the plant.

  • UCL

    21

    9 The metering equipment shall be electronic trivector meters of accuracy class 0.2% required for the Project (both main and check

    meters).

    10

    Presently tariff has been revised by KPTCL to Rs 5.5 for two months

    period. Up to May end 2010

    5.0 Government of India policy a) To cater to the ever increasing demand of energy, Government of India

    (GOI) had declared a policy in 1995 to promote generation of energy

    from non-conventional sources to supplement the power generation.

    MNRE issued guidelines for obtaining interest subsidy / capital subsidy

    for biomass / Bagasse based cogeneration projects. GOI has

    announced following fiscal incentives.

    i) Where renewable energy components (including raw materials,

    components & assemblies) are used, Central Excise Duty is

    exempted.

    ii) Customs Duty livable for non-conventional renewable sources of

    energy (NRSE) power projects of less than 50 MW capacity is

    20% if it falls under project import category.

    iii) 100% depreciation is allowed in the 1st year itself.

    iv) Income tax holiday for first 10 years followed by reduced tax

    liability (30%) for next five years.

    v) Central Sales Tax is exempted for renewable energy devices

    including raw materials, components & assemblies.

  • UCL

    22

    CHAPTER 4

    TECHNO COMMERCIAL ASPECTS

    1 Description of operating Scheme: a) The plant operating scheme envisages both mill tandems of Dia 33” X

    66” and 42” X 84” will operate at 6000 & 14000 TCD respectively to

    the total capacity of 20000 TCD. Boiling house is also being expanded

    to take additional load of expanded capacity.

    b) 33’’X 66’’ mill with minor modifications will crush 6000 TCD as per the existing past data. It is proposed to modify and enhance the capacity

    of 42 X 84 Mill to 14000 TCD by adding zero mill of 50’’ X 100’’ and

    last mill also 50” X 100” along-with the modifications in the cane

    unloaders, cane preparatory devices and existing mills.

    c) Juice heaters will be added to balance the mass and temperature i.e. wide gap plate type heat exchanger is proposed to operate on vapour

    condensate. Existing juice heaters will be modified to suit the

    expanded capacity.

    d) Juice sulphiter and syrup sulphiter are proposed to be added suitably to handle the total juice flow for the expanded capacity

    e) It is proposed to add juice clarifier to maintain the required retention time for juice clarification.

    f) Plate type juice heaters are also proposed in addition to the existing to operate on 1st body vapours

    g) It is proposed to add evaporator body for 1st and 2nd effect in the existing set up, for Heat & mass balance. There will be total 3 streams,

    two operating and one set will be cleaning so that every 10 to 15 days

    clean set will be online.

    h) In addition to the existing Batch type A pans and continuous pan it is proposed to add one more continuous pan for A massecuite boiling. It

    is proposed to add continuous horizontal pans for B and C massecuite

    handling.

  • UCL

    23

    2 nos batch type A centrifugal machines are prposed for the expanded capacity

    Four numbers of continuous centrifugal machines are proposed for B and C massecuite for the expanded capacity

    Modification is proposed in the sugar drying and sugar hoppers. There is no change in sugar silo system

    One additional sugar bagging and conveying system up to sugar go-down is proposed

    One additional cooling tower is proposed to take additional heat load generated by condensers

    For cogeneration 1 new Boiler of 100 TPH with working parameters of 110 ata and 540 deg C temperature. Alongwith new Boiler one old

    Boiler of 32 bar 380 deg temp is proposed modify to get outlet

    temperature 490 deg C.

    For above Boiler Two TG sets have been proposed, 1 no 12 MW back pressure TG set suitable for 32 bar steam and one 20 MW double

    extraction cum condensing TG set suitable for new Boiler steam.

    Switch yard with transmission line is also to be expanded suitably. Existing Distillery capacity is 75 KLPD, additional 125 KLPD distillery

    to be added.

    b) Bagasse saving for 135 days operation with 909 TCH increased

    crushing & 90 PLF nearly 137696 MT of bagasse can be saved. Total

    Bagasse saving in a season for 909 TCH will be about 137696 MT

    c) During season as well as off season USW needs steam to distillery 25

    TPH and for evaporator drier of ETP about 25 TPH. This requirement

    will be fulfilled by operating cogeneration during season & off season.

    d) When cogeneration is in operation distillery steam requirement can be

    met through the turbine extraction. Hence it is essential to operate

    cogeneration during off season with saved bagasse.

    e) Accordingly during off season one of the Boilers will be operated on

    saved bagasse for maximum possible days.

  • UCL

    24

    2 Operation of the Plant During Crushing Season: a) 310 TPH Steam will be generated from 4 nos Boiler at 62 bar and 55

    TPH from modified Boiler at 32 bar, 490 deg C temperature, 100 TPH

    steam will be generated from new Boiler of 100 TPH capacity.

    The entire steam generated in the boiler is fed to four turbines. 260

    TPH for SNM Turbine, 92.50 TPH for DEC Turbine and 80 TPH to

    new Back pressure Turbine. The uncontrolled extraction from the

    turbine at 9 ata gives 37.5 TPH of steam approximately at a

    temperature of 270 Deg. C. The controlled extraction from the turbine

    at 2.5 ata provides 380.06 TPH of steam approximately at 140 Deg. C.

    b) A quantity of 30 TPH of steam, being the difference between the

    generation and input to SNM Turbines at 62 bar will be mixed with 32

    bar 50 TPH steam from modified Boiler through PRV to get 80 TPH.

    c) With the above given steam input & extractions from the turbine, the

    co gen TG generates 72890 KW, at the generator terminals. Part of

    the generated power is used for meeting power requirement of the

    auxiliaries of the co gen plant & the power requirement of the sugar

    factory.

    d) Only the exhaust steam condensate from the sugar factory process &

    the condensate from turbine surface condenser are being used as the

    feed water for the boilers. The cycle make up water for the operation

    of co gen plant will be DM water.

  • UCL

    25

    TECHNO-COMMERCIAL ANALYSIS

    Sr No

    Description Unit Total Qty

    PROCESS STEAM REQUIREMENT 1 CRUSHING CAPACITY TCD 20000.00

    2 WORKING HOURS HOURS 22.00

    3 CRUSHING CAPACITY / HOUR TCH 909.094 BAGASSE PERCENT CANE % 29.005 BAGASSE PRODUCTION AFTER DEDUC OF 1% TPH 254.556 PROCESS STEAM REQUIREMENT AT 2.5 ATA % 40.00

    QUANTITY OF STEAM AT 2.5 ATA TPH 363.647 PROCESS STEAM REQUIREMENT AT 8 ATA % 1.50

    QUNANTITY OF STEAM AT 8 ATA TPH 13.648 SEASON WORKING DAYS DAYS 135.008 STEAM REQUIRED FOR PROCESS 377.27

    8 TOTAL STEAM REQUIRED FOR SUGAR PROCESS TPH 377.27

    8.1 FEED WATER REQUIREMENT TPH 467.168.2 FEED WATER TEMPERATURE Deg c 77.328.3 STEAM REQUIRED FOR DEAERATOR TPH 22.578.5 STEAM REQUIRED FOR DISTILLERY TPH 25.008.6 STEAM REQUIRED FOR SSP TPH 25.008.6 STEAM REQUIRED FOR CONDENSER TPH 15.008.4 SPRAY WATER REQUIRED FOR DESUP (8 ATA) TPH 1.198.5 SPRAY WATER REQUIRED FOR DESUP (2.5 ATA) TPH 6.158.6 STEAM REQUIRED AT TURBINE OUTLET 8 ATA TPH 37.458.7 STEAM REQUIRED AT TURBINE OUTLET 2.5 ATA TPH 380.068.8 STEAM REQUIRED FOR EJECTOR & GSC TPH 0.50

    9 TOTAL STEAM TO BE GENERATED TPH 458.00

    10 CONDENSATE RECOVERY

    a FROM SUGAR PROCESS (2.5 ATA) % 90.00 QUANTITY TPH 327.27 b FROM SUGAR PROCESS (8 ATA) % 0.00 QUANTITY TPH 0.00 c CONDENSER % 95.00 QUANTITY TPH 14.25 d DEAERATOR TPH 22.57 f TOTAL CONDENSATE RECOVERY TPH 364.09 g BOILER STEAM GENERATION TPH 458.00 h BLOWDOWN WATER & STEAM LOSSES % 2.00

  • UCL

    26

    QUANTITY TPH 9.16 I TOTAL FEED WATER REQUIREMENT TPH 467.16 j MAKEUP WATER REQUIREMENT TPH 103.07 TEMPERATURE OF FEED WATER AT FT 77.32

    11 BOILER CAPACITY REQUIRED TPH 458.00 EXISTING BOILER CAPACITY @ 62 bar steam TPH 310.00 EXISTING BOILER CAPACITY @ 32 bar steam TPH 55.00 TOTAL BOILER CAPACITY AVAILABLE 365.00 NEW BLR TO BE ADDED (CAPACITY) TPH 93.00

    12 STEAM DISTRIBUTION TO TG SETS 62 BAR 1 SNM 1 & SNM 2 TPH 260.00 2 8 ATA EXTRN TPH 30.00 3 2.5 ATA EXTRN TPH 230.00 4 LP TG SET THROUGH PRDS 25.00 1 NEW DEC TG SET TPH 92.50 2 8 ATA EXTRN TPH 7.45 3 2.5 ATA EXTRN TPH 70.06 4 CONDENSER TPH 15.00 1 NEW 32 BAR TG SET TPH 55.00 2 STEAM TO 32 BAR TG SET 80.00

    13 POWER BALANCE 1 POWER GENERATION 2 - SNM MW 43.33 2 POWER GENERATION DEC MW 17.55 3 POWER GENERATION FROM LP STEAM MW 12.00 4 TOTAL POWER GENERATION MW 72.89 5 TOTAL CAPTIVE POWER MW 25.45 6 EXPORTABLE POWER MW 47.43

    14 BAGASSE BALANCE IN SEASON 1 BAGASSE PRODUCTION TPH 254.55 2 BAGASSE REQUIRED FOR BOILER TPH 208.18 3 BAGASSE SAVING TPH 46.36 4 BAGASSE SAVING IN A SEASON MT 137696

    15 OFF SEASON OPERATION ON SAVED BAGASSE 1 STEAM GENERATION TPH 86.00 2 STEAM TO TG SET TPH 85.50 3 8 ATA EXTRN TPH 50.00

  • UCL

    27

    4 2.5 ATA EXTRN TPH 10.35 5 CONDENSING TPH 15.15 6 BAGASSE REQUIRED TPH 41.95 7 NO OF DAYS ON SAVED BAGASSE 136.76 8 POWER GENERATION MW 11.94 9 CAPTIVE POWER MW 1.67 10 SUGAR PLANT & COLONY LIGHTING MW 0.25 11 EXPORTABLE POWER MW 10.02 1 TOTAL POWER EXPORT SEASON 1383.10 2 TOTAL POWER EXPORT OFF SEASON 295.92 3 TOTAL POWER EXPORT 1679.02 1 SUGAR CANE CRUSHING MT 27,00,000 2 SUGAR PRODUCTION @ 11.5% RECOVERY QTL 31,05,000 3 PRESS MUD PRODUCTION @ 4% MT 1,08,000 4 MOLASSES PRODUCTION @ 4% MT 1,08,000 5 SPIRIT PRODUCTION FOR 300 DAYS KL 60,000

    Detailed profitability statement is given separately

  • UCL

    28

    CHAPTER 5

    TECHNICAL SPECIFICATIONS OF EQUIPMENTS

    The expansion proposal covers 4 main areas, 1 Mill section, 2. Boiling house,

    3.Cogeneration and 4. Distillery. It is proposed to expand the crushing capacity from

    10000 to 20000 TCD Co-gen capacity from 44 MW to 76 MW and distillery from 75

    KLPD to 200 KLPD

    A) MILL EXPANSION 1) All existing 9nos (5 nos for 42 X 84 mill and 4 nos for 33 x 66 mill) cane

    unloaders with all its accessories to be replaced by 12.5 MT capacity unloaders.2) One additional new complete cane unloader of 12.5 MT capacity with gantry,

    support structure, feeder table with all accessories to be added to 42 X 84 Mill. Minimum gantry height should be 12 mtrs.

    3) All existing Gantry height to be increased to minimum 12 mtrs height with necessary strengthening of gantry and columns.

    4) Increase in CC No. 1 depth by 300 mm & Width to 2750 mm suitable for 682 TCH crush rate. (Size after increase will be 1400 mm straight & 2750 mm width)

    5) One additional strand Chain, replacement of Slats, replacement of tail end shaft and modification in drive shaft of CC 1. If modification is not possible it is to be replaced by new one. Suitable motor gear box etc to be added.

    6) Chopper to be installed at existing Kicker location with necessary modification and increasing the RPM.

    7) Kicker to be installed at existing chopper location with necessary Modification. 8) Leveler – new shaft with additional knives to be installed. 9) Fibrizor has to be designed to achieve 89 to 90 PI. Complete new assembly to

    be installed, swing diameter to be considered as minimum 2130 mm. 10) New 2500Kw 750RPM HT motors – 2 Nos. to be added with starter and control

    panel to Fibrizer. 11) New Cane Carrier No.2 suitable to 50”x100” Mill for 682 TCH capacity to be

    added. 12 Rotary Strainer identical to existing to be added. 13 Inter Rake Carrier – Depth of carrier truff to be increased 14 Bagasse Elevator – Minor modification (depth of trough and height of rakes to

    be increased.) 15 Zero mill and last mill of 50”x100” (2 Nos.) with TRPF & TUFR to be added. Mill

    RPM shall be 4 rpm for ultimate capacity i.e. for 682 TCH crush rate. 1250 KW DC motor removed from Fibrizer to be installed for zero mill. Planetary Gear system with rope coupling suitable for 1250 KW power transmission.

  • UCL

    29

    17 TRPF to be added for 2nd Mill of 42 X 84. 18 Required modifications will be carried out for existing 4 mills to crush the

    proposed capacity. 19 Modification in Mill EOT crane (from 40 to 50 MT). 20 Imbibition pump and mass flow meters 2 Nos. 21 Miscellaneous equipments

    Detailed specification of new equipments

    1. Cane Unloader – 10 Nos.

    Bridge with trolley of 12.5 T for trucks having sling bar system – Two motion type.

    The crane shall be 2 motions, of 12.5 tons, electrically operated overhead unloading crane conforming to Class IV IS specifications and capable of 20 lifts per hour. In each lift, sling shall lift at least 12.5 tons of cane.

    The height of the lift shall be 12 meters.

    The width of the gantry shall be suitable to accommodate the trolley and shall also have gangway on side with statutory safety provisions such as hand rails, toe plate, grating etc.

    The crane shall be complete with its accessories, attendant platform along the length of the gantry on both the sides, cat ladder 2 nos., etc.

    It shall be heavy duty type and suitable for continuous outdoor working.

    All operations shall be electrically controlled from the “Operator'’ platform at level above feeder table.

    The crane span shall be 30 meters.

    Design Code - IS: 3177 & 807.

    All electric motors shall be of crane duty T.E.F.C. enclosures suitable for 300 operations per hour with following specifications :

    Particulars duty Type of Motor H.P. Rating

    Hoisting drum drive Squirrel cage 30 1 hour S4

    Holding drum drive Squirrel cage 30 1 hour S4

    Cross travel drive Slip ring 7.5 ½ hour S4

    For operation of these motors, push button type panel shall be provided and its location shall be in the cabin attached to the trolley.

  • UCL

    30

    The following speeds shall be provided for various motions :

    Hoisting 12 meters / minute Holding 12 meters / minute

    Cross travel 20 meters / minute All gear boxes shall be totally enclosed, dust proof, helical type gear and

    shall be designed with crane duty service. All couplings shall be flexible gear type.

    All brakes shall be of electro-hydraulic thruster operator type.

    Suitable shed to be provided on trolleys.

    The bridge shall be of box type construction made of IS-2062.

    The cranes shall be operated from a common centralized operators cabinfor cranes & feeder table.

    2. Feeder Table -1 No. ne addition

    One No. below the bridge.

    The feeder table shall be of inclined top rising towards cane carrier and installed perpendicular to the cane carrier located below the 12.5 T bridge.

    Cane feeder table of minimum 7 meters width and 8 meters in length to be installed at right angle to the cane carrier.

    The feeder table shall be of all steel construction fitted with 8 strands of 150 mm pitch heavy duty steel drag type chains having breaking strength of minimum 60,000 kgs.

    The feeder table shall be complete with cast steel machine cut sprocket wheel, shafts, bearings etc.

    The feeder table shall be driven by a 15 BHP, T.E.F.C., squirrel cage motor and coupled to a variable speed drive and a planetary reduction gear box so as to provide speed regulation from 1 to 3 mtrs / min.

    The feeder table shall be suitably supported on steel structure designed to withstand heavy shocks. It shall be installed in a manner so that it is horizontal.

    Common operator’s cabin on a suitable height shall be provided to have a clear view of the loading of the cane carrier. A suitable ladder shall be provided to this cabin.

    3. Mill – 2 Nos.

    two nos. of Ø 1270 X 2540 mm nominal roller size five roller Integrated

  • UCL

    31

    type mills with Toothed roller pressure feeder to be installed. The mills

    shall have toothed roller pressure feeder driven by top and feed roller

    through chain sprocket to give surface speed of about 30% higher than

    mill roller surface speed.

    All the mill rollers will have bearing journal of minimum 620 mm dia. and 770 mm length and central shaft dia 670 mm and running in gun metal

    liner fitted in cast steel housing. The rollers will have circumferential 'v'

    grooves. The headstock to headstock centre distance shall be @ 3850

    mm.

    The roller will be of coarse grain cast iron having hardness 180-210 BHN. The composition of the shell material will conform to IS 11201:1985 and

    will be-

    Total Carbon - 3.2 to 3.6 % Manganese - 2.2 to 3.2 %

    Silicon - 1.2 to 2.2 %

    Phosphorus - 0.5 % max.

    Sulphur - 0.15 % max.

    The cast iron shell will be hot shrunk fitted on forged steel shaft of 45C8 quality conforming to IS:1570-1979 or equivalent having a minimum

    tensile strength of 58 Kg/mm2. All the shafts will have square ends not

    less than 500 x 500 mm. Top roller will have stationery collars duly hard

    faced and fixed with head stock. The bottom roller will be provided with

    juice rings and removable guards to prevent entry of juice into the

    bearings. The cast steel crown pinions will have minimum, 750 mm face

    width and conform to IS: 2708 Grade III with well dressed well ground and

    matched and good profiled cast teeth and will use tangential key's on

    roller shaft for pinion fitting and suitable mild steel guards and troughs will

    be provided. The apex angle of mill will be limited to 750 max. approx.

    The headstocks will be of cast steel as per IS: 1030 - 1974 grade 260/520 W. The head stock supplied shall be suitable to integral type Five Roller

    Mill of our patented design.

  • UCL

    32

    These will be of pin type head stock. Removable gun metal wear plates on feed side as well as at discharge side of top roller bearing with

    lubricating arrangement between bearings and wearing plates will be

    provided. The top and side caps will be of cast steel as per IS: 1030-1974

    grade 260/520 W and will be securely locked in position for quick

    assembly. Stainless steel strip of 8 mm thick will be provided on the side

    roller bearing face of the headstock. The eccentricity between top roller

    bearing center and hydraulic top cap center will be minimum 45 mm

    towards the feed side of the head stock.

    All rollers will be coated with surface roughening electrode material and its bearing will be of cast steel housing with renewable gun metal liner

    with water cooling arrangement. The top and side roller bearing will be of

    cast steel housing with renewable gun metal liner as IS: 318-1981. The

    housing will have water cooling arrangement. All top roller bearings will

    be interchangeable. Similarly all feed side and discharge side roller

    bearings will be interchangeable by their respective bearings.

    Mill to be provided with cast steel trash beam as per IS 1030 grade 260/520 W and supported on heavy steel brackets with pivoted journals

    fitted in the headstocks and adjustable by means of tie rods and fitted with

    renewable CS trash plate as per IS: 1030 grade 22/45, bolted by high

    tensile bolts and nuts. Meschaert groove scrapers will be of spring steel

    secured on square shaft and supported on cast steel blocks and provided

    with lever or other suitable adjusting device. Scrappers for top and

    discharge roller shall have renewable tips.

    Mill will be provided with hydraulic loading system, consisting of hydro-pneumatic accumulator, one for each of the journal for the top roller, one

    extra as a spare and accessories such as pumping set, receiver tank,

    gauges, remote control panel and roller movement indicator either

    electronic type or liquid magnification type. The dia. of the hydraulic ram

    for top cap will be minimum 465 mm. The hydraulic system will be

    designed for a pressure 350 Kg/Cm2g.

  • UCL

    33

    Centralized lubrication system should be provided with one spare pump.

    Juice trough under the mill will be made of 6 mm thick S. S. 409M plates. The trough will be welded to the headstocks. Joints will be suitably sealed

    to prevent any juice leakage. The trough will have 900 included angle. Mill

    will be high set, so that no part of the juice tank and pumps are situated

    below floor level. All the mills will have common gangway on both sides

    having width not less than 1000 mm with gratings and minimum 3 Nos of

    stair cases, two for crusher side, and one from mill drive platform along

    with the cross connection between each mill. Access from mill platform to

    cane carrier drive platform, and rake elevator drive platform with suitable

    cat ladders shall be provided. All gangways and staircases will have hand

    railings.

    4. Mill Drive – 2 Nos.

    Existing 1250 HP DC drive (panel and motor) will be used.

    6. Planetary Gear Box with fls (lubrication system) for Mill drive

    The planetary gear box shall be of foot mounted design, ratio 1000: 4.0, suitable for 900 KW continuous rating with 2.0 minimum service factor.

    The shafts of the planetary gear box shall run in antifriction bearings. The

    gear box shall be complete with forced oil lubrication system, geared type

    input coupling and rope type output coupling, base plate etc.

    7. Toothed Roller Pressure Feeder -

    A pair of Toothed Rollers of minimum 1350 mm swing dia. will be mounted on forged steel shaft with journals of minimum 350 mm dia. and

    minimum 400 mm length. These rollers will be rotating in gun metal

    bearings in cast steel/ fabricated bearing housing. The bearing housings

    will be mounted in integral heavy headstocks. The bearings will be

    provided with lubrication arrangement. The roller shell will be hardened by

  • UCL

    34

    welding the roller shell all over by hard facing electrodes. TRPF top roller

    is driven by mill top roller by 3” pitch duplex chain and sprocket similarly

    bottom roller is driven by mill feed roller by 3” pitch duplex chain and

    sprocket.

    8. Closed Feed Hopper (Donnelly Chute) - 1 No.

    Closed feed hopper fabricated out of 6 mm thick SS409 M plate duly M.S. reinforced to be provided for each mill. It will have arrangements to adjust

    the blanket thickness from adjustable front plate. The feeding height in

    each hopper will not be less than 2.5 meters and its inclination will be 900

    with the horizontal. The closed feed hopper will have electronic/electro-

    mechanical suitable level sensing device to control the cane feeding.

    Suitable indicators may be provided to indicate level of bagasse in

    donnelley chute.

    9. Rake Type Intermediate Carrier - 1 No.

    Generally constructed and fabricated as per cane rake carrier and installed between the mill and rake carrier will have suitable length

    between the drive and driven sprocket centers.

    The centre to centre distance between mill will be @ 10 m. The rake elevator will have minimum feed height of 2.5 mtrs. Above top roller

    centre to feed the Donnelly chute to the mill. The mill have bagasse

    discharge chute for entire length of roller and discharging bagasse into

    rake/ bagasse elevator. The Rake intermediate carrier will have 60 kw

    TEFC foot mounted motor having 'F' class insulation coupled to planetary

    gear box having services factor 2.0 to get 25 m/min apron speed. The

    Rake carrier trough will be fabricated from 8 thick MS plate with SS lining

    3.15 mm. Rake type intermediate carrier will have suitable width trough to

    accommodate 2540 mm effective rake width inside the sprockets. The

    maximum inclination of rake carriers will be limited to 450 with the

  • UCL

    35

    horizontal. The head shaft will be on 45C8 quality, dia 200 at centre and

    dia 175 at journal running in G.M. bearing. The tail shaft will be of forged

    steel having MS drum running in dia 150 mm G.M. liner. The size of

    chain 229 mm pitch block forges type with 80 ton breaking load.

    10. Juice Imbibition Tanks and Pump - 1 Set :

    Mill shall be provided with conical bottom cylindrical whirler tank having 1250 mm dia. made of 5 mm thick SS 409M material connected to mill

    juice trough through 3.2 mm thik SS gutters.

    The juice pumps all running at 1000 RPM shall be following capacities and heads shall be supplied along with all its suction, delivery piping

    valves, along with TEFC motors etc.

    i)Unstrained juice for mill - 600 m3/hr. Plus 20% solids 20 mtr. Min. head

    at 1000 rpm, 2 Nos.

    All pumps in mill house shall be of choke-less type with stainless steel body and stainless steel impeller with full bore discharge and capable of

    pumping mill juice with min 20% solids, at head specified above. The juice

    from 1st mill shall be separately pumped through choke-less pump with

    SS metal body and impeller with full bore discharge and capable of

    pumping 600 m3/hr net juice plus min. 20% solids and 20 M head through

    piping to rotary juice screen. The speed of the motors driving these

    pumps shall not be more than 1000 RPM.

    11. BOILING HOUSE:

    RJ1 heating – it is proposed use Existing VLJH with modification – (Number of passes to be reduced) – 300 to 400C.

    RJ 2 heating by excess condensate – from 400 to 500C. – addition of New Liquid to Liquid (PHE)

  • UCL

    36

    RJ 3 heating – it is proposed to use existing Dynamic heater with modification – (Number of passes to be reduced.) 3rd vapour – 500 to

    640C.

    New clarifier to be added with flash tank 42’x25’ (555) - 1020C.

    New pumps for Clear juice

    PHE for 2nd stage heating of clear juice

    Addition / Modification of syrup sulphiter

    New Evaporator 4000 m2, 3200 m2 & 2000 m2

    New A pan Continuous type 65 TPH capacity to be added

    New B Pan Continuous 40TPH capacity 2 Nos to be added – 2nd Vapour

    New C Pan Continuous 25TPH capacity 2 nos to be added – 2nd Vapour

    New B Crystallizer

    New C Crystallizer

    Centrifugal machines

    Sugar hopper, Sugar bagging & conveying system

    Vibro screens

    Cooling Tower

    Condenser Automation

    Pipe & fittings modifications etc

    Structural supports

    Miscellaneous equipments

  • UCL

    37

    During production of sugar, valuable by- products like Molasses, Bagasse and press mud are produced. At present all molasses produced is sold to the parties getting allotments of molasses from this factory. The commissioner of excise controlling authority for molasses distribution. The molasses production of this factory is round 60000 Tons per annum, because increased availability of sugar cane and the capacity of the factory to crush all the available molasses. The factory approached Government of Karnataka for grant of license to establish a Distillery suitable capacity. Now the Government of Karnataka has granted for state excise 200 KLPD capacity Distillery. In order to run the distillery through the year, the factory shall get an allotment of about 96000 to 1,20,000 Tones of Molasses is available from their own sugar plant. Balance requirement of about 100000 MT of molasses has to be procured from the market. If therefore the Distillery shall have a daily capacity 200000 liters of Rectified spirit by adopting proven technology of continuous fermentation the factory can have higher productivity. In order to operate the distillery throughout the year say about 300 days/ annum, it is proposed that the Distillery shall have separate boiler in off season of suitable capacity with T.G. set. They shall have its own arrangement for steam & electricity. The Power generated will full for operating the distillery as well as for lightening the roads & buildings. Distillery will discharge spent wash effluent at the rate of 10 to 12 liters per liter of Alcohol produced. Daily production of spent wash shall be 2000 m3 to 2400 m3. The spent wash has high B.O.D. to the extent of 80,000 to 90,000 mg/l. As per the standard laid down by the Government the BOD should be brought down to 100 to 30 mg /l. Before it is charged over land or water respectively. There is no suitable and economical method to achieve these standards. The method of concentration and drying of spent wash besides being very costly, pose number of problems, as regards it maintenance and repairs due to high temperature and corrosive nature of spent wash. The alcohol produced in the distillery shall be sold as per the Government’s directives to the parties getting allotment. The distillery shall make good profits, besides getting better price for its molasses. It provides good opportunity for the further diversification. The distillery project is very attractive as the demand for alcohol will be increasing for manufacturing chemicals. During distillation of Rectified Spirit by product known as fusel oil is produced to the extent of 0.2 to 0.3 per cent of the total alcohol produced. Fusel oil is a mixture of higher alcohol such as propyl alcohol, butyl alcohol and amyl alcohol. Amyl alcohol content ranges from 50 to 60 per cent in fusel oil. Spent wash discharged from distillation column is a valuable by-product if it is used properly. If neglected, it becomes hazardous causing pollution of environment. It is rich in nutrients, for use in fertilizers. It is also capable of generating energy. In anaerobic digestion of spent wash, methane gas is

  • UCL

    38

    produced which can be used as a fuel in boiler. The quantity of gas produced is almost sufficient to generate the steam required for generation. It requires secondary treatment for the Distilleries are as under:

    1. Rectified Spirit Grade 1 2. Impure Spirit Grade 2 3. Fusel Oil 4. Methane Gas 5. CO2 6. Yeast sludge 7. Ethanol 98.6 8. E.N.A.( Extra neutral alcohol)

  • UCL

    39

    Specification of Boiling house equipments 1. JUICE CLARIFIER 42’ – 555

    One no. 36’ dia with 5 Nos. compartments of 1525 mm height. Clarifier shall have separate juice & mud outlet from each compartment. The flocculating compartment complete with skimmer & feed well shall be installed separately. The clarifier shall be made of mild steel plates having following minimum thickness: Particulars

    Type : 555

    Quantity : 1 No Capacity : 36 Feet Dia Accessories : Flash tank PLATE THICKNESS : Carbon Steel as per IS 2062

    1. Bottom : 12 mm

    2. Shell : 10 mm with stiffeners

    3. Tray (intermediate) : 12 mm

    4. Tray (top) : 10 mm

    5. Top cover : 10 mm

    6. Flocculating compartment : 10 mm

    Mud Liquidation Pump

    Quantity : 1 No

    Capacity : 50 m3/hr & 20 m head

    Drive : Suitable

    Flocculating dosing system

    Tank : Adequate Capacity

    Dosing pump with drive : One set

    Juice liquidation pump

    Quantity : 1 No

    Capacity : 50 m3/hr & 20 m head

    Drive : Suitable

  • UCL

    40

    The continuous clarifier shall be complete with mild steel flash tank & withdrawal boxes 2 Nos. for clear juice & 1 No. for mud with sleeves, telescope pipes & O rings, hinge type squeezers, driving mechanism with variable speed drive head with motor consisting of sprocket, chain & drive guards, all inside & outside clear juice piping & mud piping, all valves & pipe fittings etc. & complete with peripheral walkway, angle iron bracket supporting angles, piping for railing, rail support etc. 5 manholes one for each compartment, each manhole to have platform, railing & access ladder. Each pump with receiving tank & support. Insulation material of mineral wool 50 mm thick with PP etc to be included in the scope of vendor. Mud liquidating and juice liquidating pump of CI construction with bronze fittings. Mud boot sealing arrangement to be done from topside of mud boot bottom plate.

    1) EVAPORATOR BODY 4000 M2 SK

    The bodies shall have a vapour space height (between the top tube plate and the bottom of the catch all or cylindrical portion of the vapour space) shall not be less than 1.5 times the calendria height. Suitable arrangement for light and heavy noxious gas removal shall be provided. Boxes shall be provided for easy removal of condensate from calendria. Manhole shall be provided in bottom saucer and vapour space & catch all. Suitable connection for soda washing and draining for juice shall be provided. Suitable relief valve spring loaded or dead weight lever type shall be provided on calendria and in the vapour space of evaporator to ensure the pressure in the body does not exceed working pressure. Condensate outlet pipe shall have sight glasses at eye level in addition to sight glasses in extraction columns. The cock shall be provided at all units individually for testing condensate for sugar traces and suitable drain connection shall be provided to drain the condensate. Evaporators shall be complete in all respect with fittings for satisfactory operation.

    1 Heating Surface 4000 m2 2 Tube Size 45mm OD x1.6 mm thick x 4000 mm SS 304 3 No. of tubes As per the requirement Evaporator body is required in M.S. Welded construction. It should consist of the following. Catchall -Body Shell - Calendria - Bottom cone - Vapour Deflector CATCHALL

  • UCL

    41

    SS-304 Poly baffle type suitable to pass all the vapours generated and 100% guaranteed design against entrainment, Following connections to be provided on Catchall of minimum 18 mm thk. 1 100 NB for water washing nipple with coil 1 No 3 Vapour outlet suitable for 120 T/hr. Vapour at 25 mtrs/sec.

    velocity. 1 No

    5 400 mm manhole hinge type 1 No 6 Other balance connections required. BODY SHELL Cylindrical vapour space 600 mm dia more than the Calendria dia with minimum height 1.5 times more than tube length, shell thickness 18 mm thick. The cylindrical portion should be with required stiffeners rings. 1 200 mm dia sight glass first assembly and first glass at 200

    mm from top tube plate. 2 Nos

    An inverted umbrella type vapour deflector placed at 2 m. height from top tube plate of 16mm thick. 2 200 mm dia light glass assembly 1 No 3 500 mm dia manholes 2 Nos 4 100 mm connections for soda connection 1 No 5 150 N.B water connection 1 No 6 150 NB Temperature gauge connections 1 No 7 Pressure gauge connection 1 No CALENDRIA 1 Shell plate 18 mm thick 2 Tube Plate 32 mm thick 3 Ligament 15 mm (min) 4 Pitch 60 mm Peripheral down take with 2 Nos. Juice outlets 4 Nos. stools Bolted/welded connection with bottom cone. 4 Steam entry 1200mm dia with flange & nipple. 1 No 5 150 N B water connection with flange & nipple 1 No 6 150 N B Condensate connections with flange & nipple 4 Nos 80 N B Noxious gas connections each for light & heavy gas complete with interconnecting piping of SS 304. Moreover removal of noxious gases from centre of Calendria of 80 N B 6 Nos minimum. OR as per your design so that 100% noxious gases shall be removed to get the required evaporation rate. 7 Pressure gauge connection 1 No 8 Temperature gauge connection 1 No

  • UCL

    42

    BOTTOM CONE Bottom /Welded connections with Calendria shell cone thickness 25 mm thick consisting of Juice coil and Juice deflector etc. 1 250 N B Juice inlet connections 1 No 2 250 N B Juice outlet connections 2 Nos3 150 N B drain connections 1 No 4 500 mm hinged manholes 2 Nos5 150 NB wash out connections 1 No Standard fittings as per requirement Condensate receiver and pumps with motor including all valve and fittings. Supply & application of 50 mm thick LRB mineral wool with PP Right angle valve for the steam inlet

    4. EVAPORATOR BODY 3200 M2 RB

    1 Heating Surface 3200 m2 2 Tube Size 45 x1.2 mm thick 2450 mm long. SS 304 Tube. 3 No.of tubes As per the requirement Evaporator body is required in M.S. Welded construction. It should consist of the following. Catchall -Body Shell - Calendria - Bottom cone CATCHALL Outwards flow Centrifugal vane type effective one having shell of 18 mm and internals of 12mm thick, top cover of 16mm thick and well stiffened. Following connections to be provided on Catchall. 1 150 NB for water washing with coil 1 No 2 250 NB Vent at Top 1 No 3 I.D. Vapour outlet 1 No 4 100 NB Juice drain 4 Nos 5 450 ID manhole with hinge cover with 3 to 4 bolts 1 No

  • UCL

    43

    BODY SHELL Cylindrical one with suitable stiffener rings cylindrical portion 18 mm thick, minimum height 2 times the height of the tubes. 1 200mm dia sight glass first one at 200mm from top tube plate. 3 Nos 2 200mm dia light glass assembly 1 No 3 500mm dia manhole(to be fixed as per the site requirement) with

    hinge type cover having 3 to 4 bolts 4 Nos

    4 150mm soda connection 1 No 5 150mm water connection 1 No 6 150 NB relief valve connections 2 Nos 7 Pressure gauge connection 1 No 8 200 N B peripheral juice outlets 4 Nos CALENDRIA 1 Shell plate 18mm thick 2 Tube Plate 32mm thick 3 Ligament 15 mm (min) Central sealed down take 12 mm thick 4 Nos. stools Bolted/welded connection with bottom cone. 4 Vapour entry to Calendria 2 Nos 5 150 N B water connection 1 No 6 150 N B Condensate connections 4 Nos 7 80 N B Noxious gas SS 304 12 nos Connection each for light & heavy gas complete interconnecting piping and 2 Nos. 100 N B outlet with valves. of SS 304. 7 Pressure gauge connection 1 No 8 Temperature gauge connection 1 No BOTTOM CONE Bottom /Welded connections with Calendria shell cone thickness 25 mm thick consisting of Juice distribution coil. 1 250 N B Juice inlet connections 1 No 2 250 N B Juice outlet connections 1 No 3 200 N B drain connections 1 No 4 500 mm hinged manholes 2 Nos 5 150 NB wash out connection 1 No STANDARD FITTINGS

  • UCL

    44

    1 Spring loaded safety valve 150 N B 2 Nos 2 Juice inlet valve 250 N B 1 No 3 Juice outlet valve 250 N B 1 No 4 Cold water valve 150 N B 3 Nos 5 Top vent valve 250 N B 1 No 6 Wash out valve 110 N B 1 No 7 Noxious gas valves 100 N B 2 Nos 8 Sight & light glass with rubber rings 4 Nos 9 Temperature gauge 6'' dial 2 Nos 10 Pressure gauge 6'' dial 2 Nos 11 Drain valve 150 NB 1 No Condensate receiver and pumps with motor including all valve and fittings (Suction, discharge valve & NRV) Booster juice pump having capacity 200 M3/hr. 15 Mtrs head including all valve and fittings. Supply & application of 50 mm thick LRB mineral wool with PP

    6) CONTINUOUS VACUUM PAN FOR B MASS – 40 TPH

    1 Type Horizontal Pan with mechanical stirrer in last

    compartment

    2 Capacity 40 T/hr ‘B’ massecuite

    3 Tubes Material S.S. 304

    4 Tube Size As per the requirement

    5 No. of Compartments As per the requirement

    6 Working height of Mass

    above tube plate

    In tightening zones and boiling zones not

    more than 350 mm

    7 Overall Approx. sizes of Pan As per the requirement

    8 Vapour Temp./ Pressure 95 to 102 deg C (2nd body of Quad)

    9 S/V Ratio

    heating surface Area

    Above 10

    minimum 900 m2

  • UCL

    45

    Retention time min 3 hrs

    10 Body thickness 18 mm

    11 Tube Plate Thickness 32 mm

    12 Calendria thickness 18 mm

    13 Bottom part thickness 20 mm

    14 Catchall Internals 12 mm

    15 End plate thickness 20 mm with stiffeners

    16 Side partition plate 12 mm

    17 Central partition plate 12 mm

    18 Vapour outlet Size As per the requirement

    19 Steam Valve As per the requirement

    20 No. of manholes 5 Nos. minimum of 500 mm dia hinge type

    with 3 bolt design

    21 Sight and light glasses 2 Nos. minimum to each compartment

    22 Discharge connection size As per the requirement

    23 Sample proof keys with SS

    wash Basin

    For Each compartment

    24 Cutover valve size 250 mm dia

    25 AH and BH Molasses Conn 100 mm NB to each compartment

    26 Hot Water heater Conn. 65 mm NB x 1 No

    27 Body washing Conn 150 mm NB x 1 No each

    28 Vacuum Break Conn. 150 mm NB x 1 No each

    29 Compartment drains 150 mm NB

    30 Compartment drain header

    and

    Cutover line

    300 mm NB x 2 Nos

  • UCL

    46

    31 Body and Calandria water 100 mm NB x 2 Nos

    32 Compartment feed

    Manifold Conn.

    65 mm NB x 4 Nos

    50 mm NB x 4 Nos

    33 Hot water and steam to

    Manifold Conn.

    25 mm NB

    34 Steam Conn. To

    compartment. Drains

    25 mm NB

    35 Sight glass washing Conn.

    & Header

    25 mm NB x 1 No / 50 NB with valve

    36 Compound gauge, 200 mm

    dial dia, Range: 0-2.5

    Kgs/cm2g and 0-760 mmHg

    2 Nos

    37 Vacuum gauge, 200mm dial

    dia, Range:0-760 mmHg

    2 Nos

    38 Temp.gauge,200mm dial

    dia, Range: 0-2.5 Kgs/cm2g

    2 Nos

    39 Pump for seed drive and

    gearbox capacity 15 T/Hr @

    40 m head-1x

    PSP pump with VFD drive

    40 Footing/Seed As per the requirement

    41 Final Cryst. Size in

    massecuite

    300 micron (minimum)

    42 Final Brix 95 to 96 deg Bx approx.

    43 Purity Drop 20 – 22 units average under normal feeding

    conditions

    44

    45

    Feedings

    NCG Gas Line Isolation

    As per the requirement

  • UCL

    47

    Valve

    46 Specific steam

    consumption: vapour/ton of

    massecuite with Automation

    As per the requirement

    47 S.S. Single entry condenser

    of suitable capacity with SS

    304 tail pipe with all its

    accessories

    48 Steam valves butter ply type As per the requirement

    49 W shape bottom cone shall be provided with 6 mm thick plate jacket to

    heat the internal material by second body vapors in case of stoppage

    50 Supply & application of 50 mm thick LRB mineral wool with PP

    7) CONTINUOUS VACUUM PAN FOR C MAS – 25 TPH 1 Type Horizontal Pan with mechanical

    stirrer in last compartment

    2 Capacity 25 T/hr ‘C’ massecuite

    3 Tubes Material S.S. 304

    4 Tube Size As per the requirement

    5 No. of Compartments As per the requirement

    6 Working height of Mass above tube

    plate

    In tightening zones and boiling

    zones not more than 350 mm

    7 Overall Approx. sizes of Pan As per the requirement

    8 Vapour Temp./ Pressure 105 to 115 deg. C.(1st quad)

    9 S/V Ratio

    H.S.A

    Retention Time

    As per requirement

    900 m2 minimum

    Min 4.5 hrs

  • UCL

    48

    10 Body thickness 18 mm

    11 Tube Plate Thickness 32 mm

    12 Calendria thickness 18 mm

    13 Bottom part thickness 20 mm

    14 Catchall Internals 12 mm

    15 End plate thickness 20 mm with stiffeners

    16 Side partition plate 12 mm

    17 Central partition plate 12 mm

    18 Vapour outlet Size As per the requirement

    19 Steam Valve As per the requirement

    20 No. of manholes 5 Nos. minimum of 500 mm dia

    hinge type 3 bolt design.

    21 Sight and light glasses 2 Nos. minimum to each

    compartment

    22 Discharge connection size As per the requirement

    23 Sample proof keys with SS wash

    Basin

    For Each compartment

    24 Cutover valve size 250 mm dia

    25 BH and CL Molasses Header Conn 100 mm NB each compartment

    26 Hot Water heater Conn. 65 mm NB x 1 No

    27 Body washing Conn 150 mm NB x 1 No each

    28 Vacuum Break Conn. 150 mm NB x 1 No each

    29 Compartment drains 150 mm NB

    30 Compartment drain header and

    Cutover line

    300 mm NB x 2 Nos

  • UCL

    49

    31 Body and Calandria water 100 mm NB x 2 Nos

    32 Compartment feed

    Manifold Conn.

    65 NB X required nos

    50 mm NB X required nos

    33 Hot water and steam to Manifold

    Conn.

    25 mm NB

    34 Steam Conn. To compartment.

    Drains

    25 mm NB

    35 Sight glass washing Conn. &

    Header

    25 mm NB x 1 No / 50 NB

    36 Compound gauge, 200 mm dial dia,

    Range: 0-2.5 Kgs/cm2g and 0-760

    mmHg

    2 Nos

    37 Vacuum gauge, 200mm dial dia,

    Range:0-760 mmHg

    2 Nos

    38 Temp.gauge,200mm dial dia,

    Range: 0-2.5 Kgs/cm2g

    2 Nos

    39 Pump for Grain 6 “ PSP pump with suitable VFD

    drive-1 No

    40 Footing/Seed As per the requirement

    41 Final Cryst. Size in massecuite 150 micron (minimum)

    42 Final Brix 100 deg Bx minimum

    43 Purity Drop 22 – 24 units average under normal

    feeding conditions

    44

    Feedings

    Feed liquor : Molasses 75 deg C &

    75 Brix (min)

    As per the requirement

    45 NCG Gas Line Isolation Valve 80 mm – 2 Nos

  • UCL

    50

    46 Specific steam consumption:

    vapour/ton of massecuite with

    Automation

    As per the requirement

    47 Condensate water outlet 100 mm

    48 S.S. single entry condenser of

    suitable capacity with tail pipe of

    SS 304 and all its accessories

    48 Steam valves butter ply type As per the requirement

    49 W shape bottom cone shall be provided with 6 mm thick plate jacket to

    heat the internal material by second body vapors in case of stoppage

    50 Supply & application of 50 mm thick LRB mineral wool with PP

    INSTRUMENTATION & CONTROL FOR ‘B’ & ‘C’ PAN Functional Requirements - The system as a minimum, shall meet the following requirements without the supervisory computer: 1) Control 2) Data acquisition & monitoring 3) Alarming 4) Logging & report generation 5) Historical data storage 6) Trending 7) System shall have free memory space available for the user and CPU shall have the additional capability to perform advance control functions, process optimization programs or generate management reports. The availability of process control language shall be preferred.

  • UCL

    51

    Control System – Control system for PAN automation shall be PLC based with latest technology available. The system shall be designed with redundant controller. Controller make & model to be informed before finalizing. No. of IO shall be as per the requirement of the PAN control. Additional 20% IO’s to be considered in the system for future use. The communication between PLC controller & Operator station shall be Ethernet only. PLC Make : Honeywell HC-900, GE Software – Software required for control system/PLC should be licensed including operating system. Vendor has to be considered latest operating system available. SCADA - SCADA software shall be suitable to work with latest operating system available (Windows XP/Windows 7) with upgradation possibilities. SCADA software shall be of unlimited Tags. SCADA shall be supplied with development & runtime for all the operator stations. Operator Station – Operator station hardware shall be the latest available at the time of delivery with adequate memory space and shall be suitable for real time applications. The operator station screen shall be of 22 inches min. Make : DELL - Optiplex series Operator Station Quantity : 2 Nos. for each PAN Printer – One no. of LaserJet printer shall be supplied with system for report & trend printings. Control Valves – All required control valves for feed control (masscuite & water) should be of Butterfly type only with double acting rotary actuator. The actuator should have smart positioner with position feedback output. All other valve required for steam/vapour shall be of globe type with pneumatic actuator & smart positioner. All required air filter regulators to be considered in scope of supply. Feed Valve Mark : El-O-Matic Valve Positioner: YTC Air Filter Regulator: Janatics

  • UCL

    52

    Transmitters – All Filed Instruments like Conductivity Transmitter/Analysers, Pressure Transmitters, Differential Transmitters, Vacuum Transmitter, Level Transmitters, Temperature Sensors, Flow Sensors etc. along with required fitting required for erection/installation. Transmitters should be of 2 wire SMART type & HART Protocol with local display of PV. Input Supply 24 VDC loop Powered. Transmitter should supply with all required standard mounting accessories. Protection Class IP67/IP65. Accuracy: ±0.1% Output: 4 to 20 mA. Make – Emerson, E+H, Yokogawa, ABB, Honeywell Conductivity Sensors – Conductivity sensor shall be of auto retractable type, with self cleaning mechanism. Conductivity sensor shall be designed with 100% leak proof. Conductivity sensor shall be with inbuilt Temp. Sensor for compensation. Suppliers shall include 1 no. of spare conductivity sensor. Conductivity Transmitter / Analyzer – Conductivity Transmitter/Analyzer shall be programmable with inbuilt temp. Compensation. Conductivity Transmitter/Analyzer shall be of 2 wire SMART type & with HART Protocol with local display of PV. Input Supply 24 VDC loop Powered. Transmitter should supply with all required standard mounting accessories. Protection Class IP67/IP65. Accuracy: ±0.1% Output: 4 to 20 mA. . Suppliers shall include 1 no. of spare conductivity Transmitter/Analyzer. Make – Emerson, E+H, Honeywell, Yokogawa, ABB, Flow Meters – All required flow meters should supply with required accessories along with meeting Flanges. Remote type Flow Transmitter with display and programmable to be supplied with min. 10 mtr. cable from flow tube. Electromagnetic Flow meter sizing calculation should inform to us before finalizing. Make: Krohne, Emerson, Yokogawa Temperature Sensors – All required temperature sensors should be with head mounted transmitter. The probe length has to be considered according to the line sizes. Temperature sensor has to be supply along with the thermo well. Make: General Instruments, Eureka

  • UCL

    53

    SYSTEM FURNITURE - Two numbers Operator Control Desk shall be supplied suitable for accommodating 2 numbers OS stations for each PAN. Control Desk MOC should be Metal with Powder coated and in arc shaped. Necessary power supply distribution / network components arrangement within the console shall be part of the supply. However, GA drawing approval shall be taken from the purchaser during detail engineering. The control desk shall be provided with Fans. 2 Nos. good quality high back, cushion wheel chairs shall be supplied as a part of scope. Printer tables shall be included. Necessary mounting arrangement shall be done for Ethernet Switches. UNINTRUPPTED POWER SUPPLY SYSTEM (UPS) - Online UPS system with required capacity with minimum 2 Hrs. battery backup to be considered in the scope of supply. The batteries to be shall be Tubular type and industrial grade only with min. 5 years warranty. The input cable for UPS system shall be in supplier’s scope. Minimum 10 mtr.cable to be considered for input supply of UPS system. The cable between batteries & UPS shall be also in supplier’s scope. Minimum 5 mtr. Cable to be considered from UPS to battery bank. The system shall normally operate on uninterrupted power supply. However the system shall be capable of operating at the following power supply specifications: Voltage: 230V + 10% Frequency: 50 Hz + 2 Hz Harmonic contents: Less than 5% Static transfer time: Max. 5 millisecond UPS make: Emerson, APC Battery make: EXIDE EL+ 8) WATER COOLED HORIZONATL CRYSTALLIZER 100 T x 2 NOS Horizontal type water cooled crystallizer 2 nos for B massecuite shall be driven by planetary drive, suitable for continuous working, complete with suitable reduction gear unit, suitable design to give a stirrer speed of not more than 60 RPH, The cooling surface (m2) to volume (m3) ratios shall be minimum 2. The shell of the horizontal crystallizer shall be made of minimum 12 mm and end plates 18mm thick MS plate.

  • UCL

    54

    2 Nos pumps 50 TPH (1 + 1) with suction valve and delivery bypass arrangement with valve for pumping B massecuite from receiver crystallizer to Centrifugal machines for each cryst. Suitable pulp type valve for outlet of crystallizer. Complete crystallizer with mounting valves, fittings and planetary drive. 9) TWIN TYPE VERTICAL CRYSTALLIZER FOR C MASS 250 T EACH.

    1 Duty ‘C’ Massecuite

    2 Type Twin type vertical Crystallizer. Riser type