INTRODUCTION

SMS Paryavaran has vast experience in the field of public health works such as Water transmission, treatment, storage & distribution; Sewerage system, treatment, recycle & disposal and Industrial effluent collection, treatment & disposal. We are proud of establishing the eco-friendly facilities on a turnkey project basis, executing the projects to its final stage of commissioning.

With the expertise and exposure in the field of environmental technologies in India & abroad, incorporation of SMS Paryavaran provided new dimensions & horizon to the creative concepts and innovative professional approaches to our founders, helping us to associate & work with various reckoned firms of private & public sectors which has placed SMS in the selected top group of professionals within a short span of time.

Today at SMS, we design, manufacture undertake consultancy and offer complete turnkey projetcs from concept to commissioning with expertise.

Vision

To achieved customer delight by focussing on value adding activities throughout our

value chain.

Improve the quality of life by offering solutions that meet the essential needs of people.

Become a proactive, integral and responsible member of our environment and

communitiesroviding integrated financial care driven by the relationship of trust and

confidence.

1

Mission

It seeks to be a dynamic and proactive company that creates and develops opportunities

in its core business sectors.

To formulating compelling value propositions for our clients within the shortest time

schedules.

Emphasise on the beneficial reuse of the materials we handle, to the environment and

future generations..

2

1.1 ABOUT COMPANY

WATER SYSTEM

Water treatment plant and system operators treat water so that it is safe to drink.

Liquid waste treatment plant remove harmful pollutants from domestic and industrial

liquid waste so that it is safe to return to the environment. It includes:

1. Water intake and transmission systems

2. Water Treatment Plants

3. Water supply and distribution systems

4. DM/RO/Ion Exchange systems

5. Swimming pools

3

WASTEWATER SYSTEMS

Wastewater systems are designed, managed, and maintained with the health of the

public in mind. This system provides a proper environment that convert the incoming

sewage into clear, odorless water. It includes:

1. Sewage Treatment Plants

2. Sullage Treatment Plants

3. Package Treatment Plants

4. Industrial Effluent Treatment Plants covering :-

- Refinery, Petrochemicals, Fertiliser, Chemicals,

- Distillery, Sugar, Brewery,

- Pulp & Paper, Textile, Dying & Printing,

- Dairy, Food processing, Soft Drink, Edible Oil,

- Meat processing, Tannery,

- Heavy metals, Electroplating, Iron & steel,

- Ceramics, Miscellaneous

Recovery, Reuse and effluent recycling systems

4

-

WASTE MANAGEMENT

We design and construct plants and process stages for effective treatment of semi

solid/ solid waste. The spectrum ranges from Sludge Treatment Plants to Energy

Recovery Plants. It includes:

1. Sludge Treatment Plants

2. Energy Recovery Plants from Sludge/Organic waste

ENVIRONMENTAL MANAGEMENT

We specialise in environmental consenting and analysis - providing services in

environment management and planning, impact assessments, impact statements

etc. It includes:

1. Environment Impact Assessments

2. Environment Impact Statements

3. Environment Management Plan

5

SERVICES

We offer following services:

Engineering covering Process, Mechanical, Piping, Electrical, Instrumentation, Control &

Automation and Civil/ structural, equipped with number of computers, printers, Drawing

Machine, Ammonia Printing, Photo copier etc. and having all latest software for design &

drawings for process & Civil design/ drawings.

Execution comprising of Project Management, Procurement/ vending of bought outs,

Supply of electrical/mechanical/ process equipment & instrumentation on turnkey basis,

Erection of all E&M items including piping, Testing & commissioning, and Complete

turnkey projects, fully equipped with plant & machinery for this purpose.

Operation & Maintenance undertaking monthly/annual operation & maintenance of the

treatment plants.

6

Consultancy offering our services right from picking up the project from basic

parameters, designing the same, preparing the tender papers with technical specifications,

Bill of Quantities, preparing the budgetary cost for the project and if required assistance

in evaluating the bids, complete basic & detail engineering along with supervisory

services for any treatment plant project.

OUR ACHIEVEMENTS

Our proclamation is substantiated by our achievements which may be categorized in

terms of :

- Works executed/ in hand and qualified for

- Creating employment ( list of staff personnel)

- Building up infrastructure plant & machinery

- Developing a sound financial status (solvency & balance sheet) for best move

- Social contribution ( Income & sales tax clearance).

7

PROJECTS EXECUTED/IN HAND

Turnkey Projects (Rs 50 lacs and above)

- Water Treatment Plants-WTP & Water Supply System-WSS

- STP/ETP & Sewerage system

Water Treatment Plants and Water Supply System

S.N. Description of work Client Contract value(Rs lacs)

Remarks

1. 80 MLD WTP at Solapur Town

MJP, Solapur 333 Work Completed

2. 22.8 MLD WTP & 2500m3 ESR & distribution system at Buldana town

MJP, Buldana 1002 Work Completed

3. Intake, pumping, piping, 4.7 MLD WTP, ESRs & d/s system at

MJP, Wardha 324 Work Completed

8

Nachangaon

4. Intake, pumping, 6.81 MLD WTP, piping , ESRs at KR Nagar

KUWS & DB, Banglore, Karnataka

301 Work Completed

5. 144 MLD (54new & 90 MLD renewal) WTP & Pumping at Kalyan

KDMC, Kalyan (MS)

379 Work Completed

6. 16 MLD WTP at Dehu Road, Pune

Cantonment Board, Dehu Road, Pune

170 Work Completed

7. 1150m3/hr WTP at Sriganganagar

PHED, Bikaner, Rajasthan

188 Work Completed

8. Intake, pumping,piping, 0.9 MLD WTP, GSR & d/s system at Karanja

MJP, Wardha 134 Work Completed

9. 8.5 MLD WTP , ESRsat Karjat

MJP Panvel 262 Work Completed

10. 10.2 MLD WTP and distribution system at Hazaribag town

P.H.E.D, Jharkahnd,Ranchi

896 Work Completed

11. Intake, pumping, piping 4.5+1.75 MLD WTPs, ESRs & d/s at Khambi

MJP, Gondia 677 Work completed

12. 11.5 MLD WTP at PHED, Kota, 89 Work

9

Eklingpura Rajasthan Completed

13. 7.2 MLD WTP at Akkalkot town

MJP, Solapur 65 Work Completed

14. 7.7 MLD WTP , Udgir

MJP, Latur 81 Work Completed

15. 10.25 MLD WTP at Chikhali town

MJP Buldana 82 Work Completed

16. 2.15 MLD WTP at Manali, HP

IPHD, Kullu Manali HP

61 Work Completed

17. 16.8 MLD WTP, at Sirsi, Dandeli Karnatka

KUIDFC/ KUDCEMP

180 Work completed

18. Water Supply scheme, piping,1.2 MLD WTP, GSR, pumping etc. at Kodakkparamb, Kerala

SLEC, Jalanidhi, DPMU, West Manalaya, Kerala

167 Work completed

19. 45 MLD WTP at Changlapalam, Mevelloor, Kerala

Kerala Water Authority

349 Work Completed commissioning held for no water

20. Water Supply scheme, piping,1.2 MLD WTP, GSR, pumping etc. at West Manalaya, Kerala

SLEC, Jalanidhi, DPMU, West Manalaya, Kerala

218 Work completed

10

21. 2.75 MLD WTP, ESR s, pumping, piping at Morkhed

MJP, Khamgaon, Buldana

437 Work in Progress

22. Intake, pumping, piping 5.3 MLD WTP, ESRs & d/s system at Arjuni More

MJP, Gondia 790 Work completed

23. Intake, pumping, piping & d/s at Kakkanchery, Kerala

IVRCL/ KINFRA, Kerala

708 Work in Progress

24. 12.5 MLD WTP at Valiyakunnu, Attingal

Kerala Water Authority, Kerala

169 Work in Progress

25. 100 MLD WTP at Cantt. W. Works Pune

PMC, Pune 975 Substantially completed

26. Intake, 19 MLD WTP, ESRs & d/s system at Birsa nagar

DW & SD, Ranchi, Jharkhand

1750 Substantially completed

27. Intake, 12 MLD WTP & d/s system at Gumla, Jharkhand

DW & SD, Ranchi, Jharkhand

1060 Work completed

28. 15 MLD WTP & GSR at Chennithala, Kottayam

Kerala Water Authority, Kerala

198 Work in Progress

29. 45.6 MLD WTP & 3400m3 CWR at Umedsagar, Jodhpur

PHED, Jodhpur, Rajasthan

492 Work in Progress

11

30. 23.6 MLD WTP at Jodhpur MES

MES, Jaipur/ CE Bhopal zone

199 Work completed

31. WSS & 10 MLD WTP at Dabose, Valpoi, Goa

PHE, P.W.D., Alto Porvorim, Goa.

1178 Substantially completed

32. 10 MLD WTP at Canacona, Margao Goa

PHE, P.W.D., Fatorda, Margao, Goa

441 Substantially completed

33. 6 MLD WTP at Kunnekkattumala, Kerala

Kerala, KWA 98 Work in Progress

34. 7.5 MLD WTP at Koovappady, Kerala

Kerala, KWA 125 Work in Progress

35. 87000m3 RWR & water supply scheme for Sojat, Shivpura

PHED, Pali, Jodhpur Rajasthan

158 Work completed

36. 608000m3 RWR & W/S head work for Devania- Shergarh

PHED, RGLC, Jodhpur Rajasthan

687 Work in Progress

37. 568900m3 RWR & W/S head work for Manaklao- Indroka

PHED, RGLC, Jodhpur Rajasthan

562 Substantially completed

38. 48.5 MLD WTP at Shivajinagar, Nasik

Nasik Municipal Corporation, Nasik

581 Work in Progress

12

39. 26 MLD WTP at Gandhinagar, Nasik

Nasik Municipal Corporation, Nasik

324 Work in Progress

40. WSS scheme-piping nishat-zindshah masjid

ERA, J & K, Srinagar

2343 Work in Progress

41. Intake works, OHT & GSR -works at Boria, Jammu

PIU, ERA, J & K, Jammu

715 & 55 Work in Progress

42. Distribution network (ph-II) Improvement - works at Boria

PIU, ERA, J & K, Jammu

3242 Work in Progress

43. Water Distribution System ESR & PS, at Jaisalmer

RUSDIP, IPIU (Ph-II), Jaisalmer

1360 Work in Progress

44. Water storage, treatment & transmission, at Chandu Bhu., 22 MGD, Gurgaon

Haryana Urban Development Authority (HUDA)

13000 (as JV)

Lowest

Sewage /EffluentTreatment Plants & Sewerage system

S.N. Description of work Client Contract value(Rs lacs)

Remarks

13

1. 10 MLD STP at Vasantkunj Delhi

BAPL/ DWS & SDU ( now DJB)

71 Work Completed

2. 1.0 + 0.2 MLD STP s at Dibiyapur township,UP

GAIL, Delhi 96 Work Completed

3. 1.0 MLD STP at Reckong Peo, HP

IPHD, Rampur, HP

52 Work Completed

4. 0.53 MLD STP at Satellite township,

SAIL, Ranchi 75 Work Completed

5. 8.0 MLD STP, FAB at Rewari, Haryana

PHED, Haryana 140 Work Completed

6. 22 MLD STP, UASB , at Chehedi, Nasik

Nasik Municipal Corporation

475 Work completed

7. 12 MLD STP, UASB at Bhamori, Indore

PHED, Indore, MP

357 Work Completed

8. 3.0 MLD STP and Sewerage system, pumping, at KDH town

CCL, Ranchi, World Bank

163 Work Completed

14

9. 3.0 MLD STP and Sewerage system, pumping at Parej town

CCL, Ranchi, World Bank

135 Work Completed

10. 1.5 MLD STP - recycle plant at Ambala cantt,

Cantonment board, Ambala Haryana

145 Work Completed

11. 675 m 3 /d ETP, at Kakkancherry,Calicut

KINFRA, Kerala, MACL, Mumbai

84 Work Completed

12. 10 MLD STP-MBBR/ FAB at Rohtak town

PWD, PHED, Rohtak, Haryana

345 Substantially completed

13. 14 MLD STP, UASB with power generation at Jaganpur, N Z, Agra

YPCU, UP J.N. Agra, UP

715 & 325

Work in Progress

14. Sewerage & 10 MLD STP (WSP), phase-I at Jaisalmer

RUDIP (PH-II), Jaisalmer

2509 Work in Progress

15. Sewerage system, pumping stations & 100 MLD STP at Kalwa, Thane, Maharashtra

Thane Municipal Corporation, Thane, MS

18900 (As JV, 10100 our share)

Work in Progress

 

15

Consultancy/ association Projects

S.N.

Description of work

Client

1. 300m3 Swimming Pool at Patna J.P. Enterprises, Patna

2. ETP at Sanand oil field, ONGC Gannon Dunkerly, Delhi

3. ETP-recycling plant at Maruti, Gurgaon

Western India Ind. Ltd., Delhi

4. ETP Boingaigaon refinery Punj Lloyd ltd./ EIL Delhi

5. Defluoridation plant at Jaipur R.S. Shekhawat/ PHED, Jaipur

16

6. 180 MGD WTP at Nangloi, Delhi NBCC ltd./ DWS&SB , Delhi

7. 300 MLD WTP at Bangkok Som datt Builders, Delhi

8. 25 MLD intake well, DAE, RAPP, Rajsthan

Orientaal/ EIL/ NPCL, Delhi

9. FireWater system, Nawagaon Punj Lloyd ltd.

10. 100 MLD STP at Nagpur A.K. Mukherjee/ MJP Nagpur

11. 120 MLD STP at Gwalior, Redecon India ltd./ PHED, MP

12. 1.8 MLD STP at Manali, Kullu IPHD, Kullu/ KCT Delhi

13. Electrical works for ETP at GHP, Baroda

BAPL/ IOCL Baroda, Gujrat

14. 13.5 MLD STP at Munger, Bihar J.P.Enterprises/ GPD/ BISWAS

15. 4.0 MLD STP at Eastern zone, Patna J.P.Enterprises/ GPD/ BISWAS

 

Work Tendered - Turnkey Projects (as on Oct 09)Bac

S.N. Description of work

ClientEstimated

Remarks

17

value(Rs lacs)

1. 107 MLD STP at Thiruvananthpuram, Kerala

KSUDP, Kerala 7500 Technical bid submitted

2. 30 MLD STP at Loni, Ghaziabad,UP

UP Jal Nigam 2500 Technical bid submitted

3. 40 MLD STP at Rohtak, Haryana

PHED, Haryana 2000 Lowest

4. Intake, 80 MLD WTP & w/s system at Talegaon, M.S.

MIDC , MS 2500 Technical bid submitted

5. 100 MLD WTP and allied works, at Chandu Bhudhera, Gurgaon, Haryana

HUDA, Haryana 13000 (JV project)

Lowest

6. Renovation of drainage Pumping Station system - Lot A & Lot B, Srinagar

ERA, J & K 3400 Technical bid submitted

7. Laterals drain system -at RawalPora, Srinagar

ERA, J & K 4300 Technical bid submitted

Work Tendered - Boot basis Projects (as on Oct 09)

S.N. Description of work

ClientEstimated value

Remarks

18

(Rs lacs)

1. 1 MLD STP , MBR basis – 4 units; at Pune, M.S.

PMC, Pune 421/p.a., 10 years

Lowest

2. 1.5 MLD STP, MBBR basis at Chakan, Pune, M.S.

MIDC, Pune 52/p.a., 20 years

Lowest

19

EQUIPMENT SUPPLY

Equipment Supply - SMS Make

- Clarifier & sludge thickener mechanism

- Clariflocculator Mechanism

- Surface Aerators

- Agitator Assembly mechanism

Pump Supply & Installations

- Horizontal Centrifugal

- Submersible/Vertical Turbine/V. Centrifugal

- Submersible Pump/Positive Displacement

- Chemical Dosing

Clarifier & sludge thickener mechanism 20

S.N. Description of

Project

Year of

supply

Name and

Address of

c lient

Size

(m)

Quantity

(Nos.)

1. 0.6MLD STP at

Medical College,

Jammu.

April,1998 JKPCC Ltd.,

Darbar Garh (old

sect.), Jammu.

6.8f 1

2. 3MLD STP at

KD Hesalong ,

Ranchi,

Jan, 2001 Central Coalfields

Ltd.

Darbhanga House,

Ranchi – 834 001.

10f 2

3. 3MLD STP at

Parej Dist.

Hazaribagh

Feb, 2001 Central Coalfields

Ltd.

Darbhanga House,

Ranchi – 834 001.

10f 2

4. Revamping of

STP at ONGC

Complex, Phase

II, Panvel.

Sept, 2002 Ex. Engr (E) 1st.

Floor, Service

Bldg, Phase II,

ONGC Complex,

Panvel.

9.5f 1

5. 1MLD STP at

IIM, Lucknow

Mar, 2003 CDS, U.P.Jal

Nigam,

25/110, Indira

Nagar, Lucknow.

6.8f 1

6. 675 m3/d, CETP July, 2004 KINFRA, Kerala. 8.8f 1

21

at Calicut

7. 8 MLD, STP at

Rewari

Sept, 2004 PHED, Haryana 18.6f 2

8. 8 MLD, STP at

Rewari (Sludge

thickener)

June, 2004 PHED, Haryana 4.8f 1

9. 1.5 MLD STP

recycle plant at

Ambala Cantt.

(Sludge

thickener)

April,2003 Cantonment

Board, Ambala,

Haryana

2.9f 1

22

Clariflocculator Mechanism

S.N. Description of

Project

Year of

supply

Name and Address

of client

Size

(m)

Quantity

(Nos.)

1 80 MLD WTP at

Solapur.

Jan 1998 MJP,Solapur,

Maharashtra

43.0f 2

2 7.2 MLD WTP at

Akkalkot

Mar,1998 MJP, Akkalkot,

Maharashtra

19.0f 1

3 10.25MLD WTP at

Chikhali.

Dec,1998 MJP, Chikhali,

Buldana,

Maharashtra

21.5f 1

4 7.7MLD WTP at

Udgir

Jan,1999 MJP, Udgir, Latur,

Maharashtra

19.0f 1

5 22.8MLD WTP at

Buldana,

Mar,

2001

MJP, Buldana,

Maharashtra

30.0f 1

6 54MLD WTP at

Kalyan

May,

2002

KDMC, Kalyan,

MS.

45.0f 1

7 10MLD WTP,

Eklingpura,

Rajasthan.

Sept,

2003

PH E D,

RamganjMandi,

Distt. Kota,

Rajasthan

14.0f 2

8 23MLD WTP at Sri July, P H E D, Region, 25.5f 2

23

Ganganagar,

Rajasthan.

2003 Bikaner, Rajasthan

9 16MLD WTP at Dehu

Road, Pune.

May,

2003

Cantonment Board,

Dehu Road, Pune,

Maharashtra

27.0f 1

10 8.5 MLD WTP at

Karjat

Jan 2004 MJP Panvel 20.0f 1

11 45MLD WTP at

Changalapalam,

Kerala

Feb, 2004 Kerala Water

Authority, Kochi,

Kerala

32.0f 2

12 425m3/hr WTP at

Hazaribagh,Jharkhand

July,

2004

PHED, Jharkhand,

Ranchi

22.0f 1

13 4.0 MLD WTP, at

Jhalrapatan, Kota

Oct 2005 PHED, Rajasthan 14.6f 1

14 4.0 MLD WTP, at

Jhalawar, Kota

Oct 2005 PHED, Rajasthan 14.6f 1

15 12.5 MLD WTP, at

Valiyakunnu, Kerala

Nov 2005 Kerala Water

Authority,

Thiruvananthapuram

16.5f 2

24

Surface Aerators Back

S.N. Description of

Project

Year of

supply

Name and

Address of client

Size

HP

Quantity

(Nos.)

1 0.6MLD STP at

Medic- al

College, Jammu.

April,1998. JKPCC Ltd.,

Darbar Garh (old

sect.), Jammu

15 1

2 3MLD STP at

KD Hesalong ,

Ranchi,

Jan, 2001 CCL, Darbhanga

House,

Ranchi – 834 001.

7.5 2

3 3MLD STP at

Parej Dist.

Hazaribagh,

Feb, 2001 CCL, Darbhanga

House,

Ranchi – 834 001.

7.5 2

4 1MLD STP at

IIM, Lucknow

Mar, 2003 CDS, U.P.Jal

Nigam, 25/ 110,

Indira Nagar, Lko.

7.5 2

5 675 m3/d CETP

at Calicut

July, 2004 KIDC/ KINFRA,

Kerala

7.5 2

  Top

25

gitator Assembly Mechanism

S.N Description of

Project

Year of

supply

Name and Address

of client

Nos. / Horse Power.

Flash

Mixer

Alum Lime TCL/BP

1 80 MLD WTP Jan 1998 MJP, Solapur, MS 2 / 5.0 3 / 5.0 2 / 3.0 3 / 1.0

2 7.2 MLD WTP Mar 1998 MJP, Akkalkot, MS 1 / 1.0 1 / 0.5 - 1 / 0.5

3 10.25MLD

WTP

Dec 1998 MJP, Chikhali, MS 1 / 1.5 2 / 0.5 - 1 / 0.5

4 7.7MLD WTP Jan 1999 MJP, Udgir, Latur 1 /1.5 2 / 0.5 1 / 0.5 1 / 0.5

5 22.8MLD WTP Mar 2001 MJP, Buldana, MS 1 / 1.5 3 / 0.5 2 / 0.5 -

6 54MLD WTP May

2002

KDMC, Kalyan,

MS

1 / 7.5 - - -

7 10MLD WTP Sept

2003

PH E D, Kota,

Eklingpura

2 / 1.0 2 / 0.5 2 / 0.5 -

8 23MLD WTP July 2003 PHED, Sri

Ganganagar,

Bikaner, Rajasthan

2 / 2.0 3 / 1.0 - -

9 16MLD WTP May,

2003

Cantonment Board,

Dehu Road, Pune

1 / 2.0 3 / 1.0 2 / 1.0 2 / 1.0

26

10 8.5 MLD WTP Jan 2004 MJP Panvel, Karjat,

MS

1 / 1.0 2 / 0.5 - 1 / 0.5

11 45MLD WTP Feb 2004 Kerala Water

Authority,

Changalapalam

Kochi

2 / 2.0 2 / 1.0 2 / 1.0 2 / 0.5

12 425m3/hr WTP July 2004 PHED, Hazaribagh,

Jharkhand, Ranchi

1 / 1.0 2 / 0.5 2 / 0.5 2 / 0.5

13 4.0 MLD WTP Oct 2005 PHED, Jhalrapatan

Kota Rajasthan

1 / 1.0 2 / 0.5 - -

14 4.0 MLD WTP Oct 2005 PHED, Jhalawar,

Rajasthan

1 / 1.0 2 / 0.5 - -

15 12.5 MLD WTP Nov 2005 KWA,Valiyakunnu,

Trivendrum, Kerala

1 / 1.0 2 / 0.5 2 / 1.0 -

16 2.44 MLD WTP Jan 2000 I& PH, Chamunda,

HP

1 / 0.5 2 / 1.0 - -

17 0.86 MLD WTP Nov 2001 MJP, Karanja,

Wardha

- 2 / 0.5 - -

18 4.5 MLD WTP Jan2006 MJP, Khambi,

Gondia

- 2 / 1.0 - -

19 1.75 MLD WTP Jan 2006 MJP, Siregaon,

Gondia

- 2 / 0.5 - -

27

20 6.81 MLD WTP Nov 2003 KUWS & DB,

K.R.Nagar

Karnataka

1 / 1.0 2 / 0.5 - -

21 2.15 MLD WTP Jan 2000 IPHED, Kullu

Manali

1 / 0.5 2 / 0.5 - -

22 4.70 MLD WTP Oct 2001 MJP, Nachan Gaon,

MS

- 2 / 0.5 - -

23 16.5 MLD WTP Feb 2006 KUIDFC, Sirsi,

Dandeli, Karnataka

1 / 3.0 3 / 0.5 - -

24 5.30 MLD WTP Oct 2006 MJP,ArjuniMor,

Gondia

- 2 / 1.0 1 / 1.5 2 / 0.5

28

Pump Supply & Installations

Horizontal Centrifugal Back

S.N. Rating/ description Qty. Make/model Client/ Project

1. 7m3/h *50mH,

7.5HP,BOP

4

(2+2)

Kirloskar, DB 32/20 MJP, 80 MLD WTP

Solapur, MS

400m3/h*18mH, 50

HP, HSC

2

(1+1)

Kirloskar 8UP1M

2. 50m3/h*16mH, 7.5

HP, BOP

2

(1+1)

Kirloskar , DB 50/13 MJP, 10.25 MLD

WTP at Chikhali

town 52 m3/h*10mH,5HP,

HCN

2

(1+1)

Kirloskar, SHM

65/32N

3. 33.4m3/h*19mH,

5HP, BOP

2

(1+1)

Kirloskar , DB 50/13 MJP, 7.7 MLD

WTP , Udgir,

4. 50m3/h*17mH,

7.5HP, BOP

2

(1+1)

Kirloskar , DB 65/26 MJP,7.2 MLD WTP

at Akkalkot

5. 7.5m3/h*15mH, 2HP,

BOP

2

(1+1)

Kirloskar , DB 32/13 IPHD, 2.15 MLD

WTP, Manali,HP

6. 42.96m3/h*20mH, 7.5

HP

2

(1+1)

Kirloskar,DB50/13 MJP, Intake, 4.7

MLD WTP, ESRs

& d/s at Nachangaon 142.86m3/h*53mH,

40 HP

2

(1+1)

Kirloskar, DB 80/20

32.5m3/h*16mH,

5HP BOP

2

(1+1)

Kirloskar , DB 50/13

29

7. 12.5m3/h*18mH,

3HP BOP

2

(1+1)

Kirloskar, DB 32/13 MJP,0.9 MLD

WTP, GSR & d/s

system at Karanja

8. 6.25m3/h*13m H,

1.5HP BOP

2

(1+1)

Kirloskar , DB 32/13 IPHD,2.44 MLD

WTP at Chamunda,

HP

9. 75 m3/hr *11mH,

7.5HP HCN

2

(1+1)

Kirloskar, SHM

65/32N

MJP, 19 MLD WTP

& ESR at Buldana

town 115m3/h*18m H,

12.5HP, BOP

2

(1+1)

Kirloskar , DB 100/26

10. 42m3/h*15mH, 5HP,

BOP

2

(1+1)

Kirloskar, DB 65/26 Cantt.board,16 MLD

WTP at Dehu Road,

Pune

11. 833.4m3/h*55mH,

250 HP HSC

8(5+3) Kirloskar,

10 UP 3M-17

KDMC, 54 MLD

WTP & Pumping

at Kalyan

12. 250m3/h*121mH, 170

HP, HSC

2

(1+1)

Kirloskar, DSM150/46 KUWS & DB,

Intake, 6.81 MLD

WTP, ESRs at KR

Nagar 20m3/h*16mH, 3 HP

BOP

2

(1+1)

Kirloskar , DB 40/13

13. 3m3/h*30mH, 3HP

multistage

3(2+1) Kirloskar, KON-222 PHED,1150m3/hr

WTP at

Sriganganagar,

Rajsthan 120m3/h*15mH,

12.5HP, HSC

2

(1+1)

Kirloskar , UP100/24

14. 150m3/h*15mH,

15HP, BOP

2

(1+1)

Kirloskar , DB 125/26 PHED, 478m3/hr

WTP at

30

Eklingpura , Kota

15. 18m3/h*17mH, 3HP

BOP

2

(1+1)

Kirloskar , DB 40/13 MJP, 8.5 MLD

WTP , ESRs, at

Karjat 1.2m3/h*53mH, 1HP

multistage

2

(1+1)

Kirloskar , KON-112

16. 30m3/h* 15mH, 3 HP 2

(1+1)

Kirloskar, KDS 318 MJP, Intake,

4.5+1.75 MLD

WTPs, ESRs & d/s

at Khambi 12m3/h*14mH, 1 HP 2

(1+1)

Kirloskar, KDS 116

137.75m3/hr*42mH,

40HP

2

(1+1)

Kirloskar, DB 80/20

54.25m3/hr*41mH,15

HP

2

(1+1)

Kirloskar, KDS 1555

17. 220m3/h*16mH, 20

HP

2

(1+1)

Kirloskar, DB 125/26 KWA,45 MLD

WTPChanglapalam,

Kerala

18. 227m3/h*75mH, 100

HP HSC

4

(2+2)

Kirloskar, UP 150/45 PHED,425m3/hr

WTPat Hazaribag

19. 612m3/h*22mH,

75HP, HSC

2

(1+1)

Kirloskar , UP250/30 KUIDFC,16.8 MLD

WTP, at Sirsi,

Dandeli Karnatka

20. 33.5m3/h*16mH,

3HP, BOP,

2

(1+1)

Kirloskar , KS-316 PHED,4MLD WTP

at Jhalrapatan, Kota

21. 33.5m3/h*16mH,

3HP, BOP,

2

(1+1)

Kirloskar , KS-316 PHED,4MLD WTP

at Jhalawar, Kota

22. 23.4m3/h*63mH, 2 Kirloskar, Jalnidhi,WS scheme,

31

20HP, HSC, two

stage

(1+1) DSM65/32B 1.2MLD WTP,GSR

etc. at West

Manalaya, Kerala

23. 27m3/h*30mH,

10HP, HSC

2

(1+1)

Kirloskar, UP-50/30B Jalnidhi,WS scheme,

1.2MLD WTP,GSR

etc. at

Kodakkparamb,

Kerala

24. 118m3/h*12mH, 10

HP

2

(1+1)

Kirloskar, KS-1012 KWA,12.5 MLD

WTP, Valiyakunnu,

Attingal, Kerala

25. 6.5m3/hr * 60mH,

7.5HP BOP

3

(2+1)

Kirloskar, DB 32/20 PMC,100 MLD

WTP at Cantt .W.

Works Pune 12m3/hr * 28mH,

5HP BOP

2

(1+1)

Kirloskar, DB 32/16

26. 21m3/h *7mH,

2HP,HCN

3(2+1) Kirloskar,SHM50/26N GAIL, 1.0 + 0.2

MLD STPs at

Dibiyapur ,

township, UP 5m3/h*7mH, 1HP

mono block

1 Kirloskar, SP-O

4.17m3/hr * 5mH,

3HP mono block

3-2+1 Kirloskar, SP-2H

27. 25m3/hr * 7head,

3HP,

HCN

2

(1+1)

Kirloskar, SHM

50/26N

J & K PCC, 600

m3/d STP , Jammu

28. 41.7m3/hr * 7mH, 2

(1+1)

Kirloskar, SHM

50/26N

IPHD, 1.0 MLD

STP at Reckong

32

3HP

HCN

Peo, HP

2HP, mono block 1 Kirloskar, SP- 1H

29. 41.7m3/h*7mH, 3HP,

HCN

2

(1+1)

Kirloskar,

SHM 50/26N

CCL, Sewerage

system, 1.0 MLD

STP at KDH town,

Ranchi 8m3/h*12mH, 1HP,

mono block

1 Kirloskar, SP-OM

30. 41.7m3/h*7mH, 3HP,

HCN

2

(1+1)

Kirloskar,

SHM 50/26N

CCL, Sewerage

system, 1.0 MLD

STP at Parej town,

Ranchi 8m3/h*12mH, 1HP,

mono block

1 Kirloskar, SP-OM

31. 100m3/hr*16mH,

12.5HP

HCN

2(1+1) Kirloskar SHM

80/26N

Punjab milkfed,

Chandigarh, 900

m3/d ETP (UASB)

at Ludhiana, Punjab 40m3/hr* 12mH,

3HP, HCN

2(1+1) Kirloskar SHD 65/32N

40m3/hr* 8mH,

7.5HP

2(1+1) Kirloskar SHD 50/26N

32. 62.5m3/h*7mH, 5HP,

HCN

2

(1+1)

Kirloskar,

SHM 65/32N

Ambala cantt, 1.5

MLD STP - recycle

plant at Ambala

cantt, 34m3/h*34mH,

10HP, BOP

3(2+1) Kirloskar, DB 50/16

33. 30m3/hr* 16mH, 5HP 2(1+1) Kirloskar SHM KINFRA, 675 m3/d

33

50/26N ETP,Kakkancherry,

Calicut 22.5m3/hr* 7mH,

2HP

2(1+1) Kirloskar SHM

50/26N

Submersible/Vertical Turbine/V. Centrifugal Back

S.N. Rating/ description Qty. Make/model Client/ Project

1. 195.6m3/hr* 35mH,

40HP VT pump

2(1+1) Worthington

3-C12 TC

MJP, Intake, 4.7

MLDWTP,

ESRs & d/s

system at

Nachangaon

2. 35.5m3/hr* 75mH,

18HP, VT

2

(1+1)

Worthington

A 8 TC

MJP, Intake, 0.9

MLD WTP,

GSR & d/s

system at

Karanja

2. 142m3/hr* 24mH, 20

HP, submersible

2

(1+1)

Calama

Q-101/1

MJP, Intake,

4.5+1.75 MLD

WTPs, ESRs &

d/s at Khambi/

siregaon

55.9

m3/h*24mH,10HP,

submersible

2

(1+1)

Calama

Q-65/4

3. 600m3/h*20mH,

75HP, VT,

2

(1+1)

Kirloskar , BHR-

35-300

PMC, 100 MLD

WTP , Cantt.

34

pune

4. 90m3/hr * 20mH,

15HP vertical

centrifugal

2

(1+1)

Kishor NVE

100*250

RSBCC, 0.5

MLD STP at

Kota Engg.

College

Submersible Pump/Positive Displacement Back

S.N. Rating/

description

Qty. Make/model Client/ Project

1. 100m3/hr * 5mH,

5HP vertical End

Suction with

vertical dry pit

mounting Type

2(1+1) Kirloskar,

SHV100/26N

PMC, 100 MLD

WTP at Cantt .W.

Works Pune

2. 21m3/hr * 6mH,

2HP, submersible

2(1+1) Kishor, KDS

002MS DN100

RSBCC, 0.5 MLD

STP at Kota Engg.

College 36.5m3/hr * 7mH,

3HP submersible

3(2+1) Kishor, KDS

003MS DN100

3. 41.7m3/hr * 11mH,

5HP submersible

5(3+2) Kishor, KDS

005MS DN 100

GAIL, 1.0 + 0.2

MLD STPs at

Dibiyapur township,

UP 12.5m3/hr * 11mH,

3HP submersible

3(2+1) Kishor, KDS

003MS DN100

4. 33m3/hr * 7mH, 3(2+1) Kishor, KDS SAIL, 530 m3/d

35

3HP submersible 003MS DN100 STP,Satellite,Ranchi

5. 23 m3/h*9mH,

3HP submersible

2(1+1) Kishor, KDS

003 MS DN100

CCL, Sewerage

system, 1.0 MLD

STP at KDH town,

Ranchi 57 m3/h* 12mH,

10HP submersible

2(1+1) Kishor, KDS 10

MS

DN100

6. 84 m3/h* 20mH,

15HP,

submersible

2(1+1) Kishor, KDS 15

MS DN 100

CCL, Sewerage

system, 1.0 MLD

STP at Parej town,

Ranchi 123 m3/h*23mH,

25HP,

submersible,

2(1+1) Kishor, KDS 25

MS DN 100

7. 3.6m3/hr * 6mH,

1HP positive dis-

placement

2(1+1) Roto, RDAA

531R2CD1A

PHED, 8.0 MLD

STP, FAB at

Rewari, Haryana

8. 6.25m3/hr *7mH,

1.5HP

Submersible

2(1+1) KSB, KRTUE

65-110/12

Punjab milkfed,

150m3/d ETP at

MCC Ferozpur

9. 42m3/hr * 8mH,

5HP submersible

2(1+1) KSB,

KRTUK100-

180/24

NMC, 22 MLD

STP, UASB, at

Chehedi, Nasik

7m3/hr * 14mH,

2HP submersible

2(1+1) KSB, Ama

Porter503 SE

10. 22m3/hr * 6mH,

2HP submersible

2(1+1) Kishor, KDS 2

MS100

PHED, 12 MLD

STP, UASB at

Bhamori, Indore 6m3/hr * 12mH, 2(1+1) Kishor, KDV

36

2HP submersible 312V1550

11. 62.5 m3/h, 13mH,

10HP

submersible,

3(2+1) Kirloskar, NS

80/26 QM,

Ambala cantt, 1.5

MLD STP - recycle

plant

Chemical Dosing Back

S.N. Rating/ description Qty. Make/model Client/ Project

1. 6 LPH dosing pumps 1 set Fontus water Ambala cantt,

1.5 MLD STP -

recycle plant

2. 35m3/hr*18mH,

7.5HP Horizontal,

PP pumps

4(2+2) Anuvin CPP 50/13 PMC, 100 MLD

WTP at

Cantt .W.

Works Pune 0.18m3/hr * 15mH,

1HP

4(2+2) Chemtral, model

2044

PLANT & MACHINERY

For Execution (Oct 2009) For Design & Engineering

37

S.No. Machinery/ Equipment Capacity/ size Quantity

1. Concrete mixers 10/7 20 nos.

each

2. Vibrators 40mm

25mm

20 nos.

20 nos.

3. Cube moulds 6" *6" *6" 50 nos.

4. Grouting pumps Hand operated 5nos.

5. Gen-set Potable 2 KVA, 10 KVA,

40 KVA, 80 KVA

1 no. each

1 no. each

6. Drilling machines 1" & ½" 5 nos. each

7. Cube testing machine 15 MT 4 nos.

8. Pipe bending machine 50 mm 2 nos.

9. Grinding machine GQ 7/ AG 7 4nos.

10. Theodalite - 3 nos.

11. Dumpy levels - 5 nos.

12. Hydraulic testing pumps 5 HP 2 nos.

13. Dewatering pumps 5 HP & 10 HP

15 HP

5 sets each

2 sets

14. Mud pumps 7.5 HP 2 sets

15. Floor vibrator 2 HP 1 no.

16. Welding set (electrical) - 4 sets

17. Welding set ( diesel) - 1 set

38

18. Megger 2.5/1.5 KVA 2 nos.

19. Muck removal crane 5HP/ 0.25m3 2 nos.

20. Tractor with tripping trolley 40HP, 150cft 1 no.

21. Excavator/loader JCB 3D

JCB, 3DX

2 nos.

1 no.

22. Excavator scrapper attachment 80cft carriage cap. 4 nos.

23. Hoist tower with winch 7.5 HP . 2 nos.

24. Lathe machine 6 ft long 1 no.

25. Column drill - 1 no.

26. Magnetic drill - 1 no.

27. Hand Drill - 4 nos.

28. Power saw - 2 nos.

29. Curing machine/pumping set - 1 no.

30. Spray painting Gun - 1 no.

31. Vehicles - Jeep & cars

- Scooter/ Mobike

-

-

12 nos.

20 nos.

32. Sand blasting machine (for

pipe internal)

P7-1001 & IRBT

196

1 no.

33. Crimping tool Up to 400mm 1 no.

34. Form work/ scaffolds - LOT

35. Chain pulley blocks & tools - LOT

36. Concrete trolley with rail 0.3m 3 carry

capacity

2 sets

39

37. Tractors 65 HP, HMT 6522 4 nos.

38. Lifting crane attachment to

tractor

3 MT capacity 1no.

39. Concrete conveyer & tipper

with 4 wheel driven engine

1.5m3 capacity 1no.

40. Concrete batching plant, 30 HP 10-15m3/hr

capacity

1no.

41. Steel plate bending machine 1500*16mm thick 1no.

42. Cup lock system - Lot

43. Trucks Tata 909, 9T,

200cft

Tata 407, 150cft

3no.

1no.

44. Pick up van Tata 207, 3T-

5seater

2no.

45. Generator 40KVA attached to

tractor

1no.

46. U/R piling equipment Suitable up to 300 f 2 sets

47. Reciprocating pump for

Hydromel piling

- 1 no.

48. Batching plants 15 MLD

Mini

1no.

1no.

49. Stone crusher 12 T/hr 1no.

50. Tower crane 5T 1 no.

51. Grab with Clampshell 1.5m 3 1no.

52. DG sets 15 HP, 80 HP 1no. each

40

125 KVA

30 HP

1no.

2nos.

53. Hydro C.8000 - 1no.

54. Total Station (Topcon) - 1no.

55. Hydraulic Testing Machine - 3nos.

56. L & T Excavator 72 CK 1no

57. Schewing Setter (Miller) 300 MT 1no

58. Transit Mixer Machine - 1no

59. Cast in situ piling equipment Suitable up to 450 f 1no

For us, each leaf of the clover has a special meaning. It is a symbol of Hope, Trust, Care

and Good Fortune. For the world, it is the symbol of Religare.

The first leaf of the clover represents Hope. The aspirations to succeed. The dream of

becoming of new possibilities. It is the beginning of every step and the foundation on

which a person reaches for the stars.

The second leaf of the clover represents Trust. The ability to place one’s own faith in

another. To have a relationship as partners in a team. To accomplish a given goal with

the balance that brings satisfaction to all, not in the binding, but in the bond that is

built.

41

The third leaf of the clover represents Care. The secret ingredient that is the cement in

every relationship. The truth of feeling that underlines sincerity and the triumph of

diligence in every aspect. From it springs true warmth of service and the ability to

adapt to evolving environments with consideration to all.

The fourth and final leaf of the clover represents Good Fortune. Signifying that rare

ability to meld opportunity and planning with circumstance to generate those often

looked for remunerative moments of success.

Hope, Trust, Care and Good Fortune. All elements perfectly combine in the

emblematic and rare, four-leaf clover to visually symbolize the values that bind

together and form the core of the Religare vision.

1.2 OBJECTIVES

The basic objective of my study on DERIVATIVE is mainly as under-

To analyze and evaluate the complex derivative instruments.

To study and incorporate the hedging tools.

To gain knowledge about derivative market.

Various aspects of hedging like forward, futures, option, swap etc.

To know traders prevent themselves from fluctuation in exchange rates.

To analyses how derivative instruments work.

To learn how to manage the risk.

42

1.3 RESEARCH METHODOLOGY

The project study has been conducted by using both primary data as well as secondary

data. The major part was by collecting primary data through directly calling up people

from the database provided by the company. A pre determined set of question were asked

to know their preferences.

43

1.4 Title

Trading in Derivative market

Most of the organization and individuals face financial risk. Changes in the stock market

prices, interest rates and exchange rates can have great significance. Adverse changes

may even threaten the survival of otherwise successful businesses. It is therefore not

surprising that financial instruments for the management of such risk have developed.

These instruments are known as financial derivatives. By providing commitments to

prices or rates for the future dates or by giving protection against adverse movements,

financial derivatives can be used to reduce the extent of financial risk. Conversely they

also provide profit opportunities for those prepared to accept risk. Indeed, at least to

extent, they involve the transfer of risk from those who wish to who willing to except it.

44

The emergence of the market for derivative products, most notably forwards, futures and

options, can be traced back to the willingness of risk-adverse economic agents to guard

themselves against uncertainties arising out of fluctuation in asset prices. By their very

nature, the financial markets are marked by a very high degree of volatility.

Through the use of derivative products, it is possible to partially or fully transfer price

risks by locking in asset prices. As instruments of risk management, these generally do

not influence the fluctuation in the underlying assets prices. However, by locking in

assets prices; derivative products minimize the impact of fluctuations in asset prices on

the profitability and cash flow situation of risk-adverse investors.

Derivatives have widely been used as they facilitate hedging, that enable fund managers

of an underlying assets portfolio to transfer some parts of the risk of price changes to

others who are willing to bear such risk. Option are the specific derivative instruments

that give their owner the right to buy (call option holder) or to sell (put option holder) a

specific number of shares (assets) at a specified prices (exercise prices) of a given

underlying asset at or before a specified date (expiration date).

45

1.5 RESEARCH DESIGN

Defining the population: The population taken for the research consists of

investors or prospective clients of Panipat, Delhi & NCR region (both retail &

institutional)

Defining the sample: A random sample has been taken for the purpose of

extensive market survey. A structured set of question has been prepared & asked

to people by directly calling them & their feedback was analyzed for precise

finding.

Size & type of samples: A random sample of size 100 people was taken for

surveying.

Method to be used: A frequency count has been done for different

parameters/questions & the most important factors have suggested to the company

for betterment of sales operations.

46

1.6 QUESTIONNAIRE

Questionnaire is an important step in formulating a research design. Once the researcher

has specified the nature of research design, and determined the scaling procedures, he or

she can develop a questionnaire.

Objectives of a questionnaire

Any questionnaire has three specific objectives.

1. It must translate the information needed into a set of specific questions that the

respondents can and will answer.

2. It must uplift, motivate and encourage the respondent to become involved in the

interview, to cooperate, and to complete the interview. Incomplete interviews

have limited usefulness at best.

3. It should be able to minimize response errors.

47

It was also important as researchers to respect the samples time and energy hence the

questionnaire was designed in such a way, that its administration would not exceed 4-5

minutes. These questionnaires were personal administered.

1.7 DATA COLLECTION

PRIMARY DATA

Primary data collected from religare securities personal in the fields of financial securities

& index analysis. Interviews were conducted with pre-written questions pertinent to

research work.

SECONDARY DATA

This study is based on secondary data, which are collected from the websites of the

Bombay stock Exchange, National Stock Exchange, religare securities & money control.

48

1.8 LIMITATIONS

The biggest disadvantage of the derivative trading is that you have a time frame to

complete the selling of the stock. If the stock price does not rise up to the

expected level, even then you have to sell off the stocks to honor the contract.

Another negative aspect is that the if the stock price fall then the investor loose

huge money in derivative trading as the amount of stock involved in this trading is

huge.

Another limitation of derivative trading is that not all the listed stocks are

available for derivative trading. There are selected stocks in a stock exchange i.e.

NSE in which you can do derivative trading.

The respondents selected to be interviewed were not always available and willing

to cooperate.

The sample size of our survey is only 100, which cannot determine the investment

behaviors of the total population.

Respondents were apprehensive in giving their correct income level and some

gave them incorrectly.

49

Many respondents were unwilling to give their contact details specially their

Telephone numbers.

ABOUT TOPIC

2.1 DERIVATIVES DEFINED

Derivative is a product whose value is derived from the value of one or more Basic

variables, called bases (underlying asset, index, or reference rate), in a Contractual

manner. The underlying asset can be equity, forex, commodity or any other asset. For

example, wheat farmers may wish to sell their harvest at a future date to eliminate the

risk of a change in prices by that date. Such a transaction is an example of a derivative.

The price of this derivative is driven by the spot price of wheat which is the "underlying".

In the Indian context the Securities Contracts (Regulation) Act, 1956 [SC(R)A] defines

"Derivative" to include-

1. A security derived from a debt instrument, share, loan whether secured or unsecured,

risk instrument or contract for differences or any other form of security.

50

2. A contract which derives its value from the prices, or index of prices, of underlying

securities.

Derivatives are securities under the SCRA and hence the trading of derivatives is

governed by the regulatory framework under the SCRA.

Derivative products initially emerged as hedging devices against fluctuations in

commodity prices, and commodity-linked derivatives remained the sole form of such

products for almost three hundred years. Financial derivatives came into spotlight in the

post-1970 period due to growing instability in the financial markets. However, since their

emergence, these products have become very popular and by 1990s, they accounted for

about two-thirds of total transactions in derivative products. In recent years, the market

for financial derivatives has grown tremendously in terms of variety of instruments

available, their complexity and also turnover. In the class of equity derivatives the world

over, futures and options on stock indices have gained more popularity than on individual

stocks, especially among institutional investors, who are major users of index-linked

derivatives. Even small investors find these useful due to high correlation of the popular

indexes with various portfolios and ease of use.

51

2.2 DERIVATIVE PRODUCTS

Derivative contracts have several variants. The most common variants are Forwards,

futures, options and swaps. We take a brief look at various derivatives contracts that have

come to be used.

52

Forwards: A forward contract is a customized contract between two entities, where

settlement takes place on a specific date in the future at today's pre-agreed Price.

Futures: A futures contract is an agreement between two parties to buy or sell an asset at

a certain time in the future at a certain price. Futures contracts are special types of

forward contracts in the sense that the former are standardized exchange-traded contracts.

53

DERIVATIVES INSTRUMENTS

FUTURES FORWARDS OPTIONS SWAPS

Options: Options are instruments whereby the right is given by the option seller to the

option buyer to buy or sell a specific asset at a specific price on or before a specific date.

Option Seller/ Option Writer- In any contract there are two parties. In case of an

option there is a buyer to the contract and also a seller. The seller of the contract is

called the options writer. He receives premium through the clearing house against

which he is obliged to buy or sell the underlying if the buyer of the contract so

desires.

Option Buyer - One who buys the option. He has the right to exercise the option

but not obligation & he has to pay a premium for having such right to be

exercised.

Call Option - A call option gives the buyer a right to buy the underlying that is the

index or stock at the specified price on or before the expiry date.

Put Option - A put option on the other hand gives the right to sell at the specified

price on or before expiry date.

Swaps: Swaps are private agreements between two parties to exchange cash flows in the

future according to a prearranged formula. They can be regarded as portfolios of forward

contracts. The two commonly used swaps are:

1. Interest rate swaps: These entail swapping only the interest related cash flows

between the parties in the same currency.

54

2. Currency swaps: These entail swapping both principal and interest between the

parties, with the cash flows in one direction being in a different currency than

those in the opposite direction.

Swaptions: Swaptions are options to buy or sell a swap that will become operative at the

expiry of the options. Thus a swaption is an option on a forward swap. Rather than have

calls and puts, the swaptions market has receiver swaptions and payer swaptions. A

receiver swaption is an option to receive fixed and pay floating. A payer swaption is an

option to pay fixed and receive floating.

2.3 PARTICIPANTS IN THE DERIVATIVES MARKETS

The following three broad categories of participants - hedgers, speculators, and

arbitrageurs trade in the derivatives market.

1. Hedgers face risk associated with the price of an asset. They use futures or

options markets to reduce or eliminate this risk.

55

2. Speculators wish to bet on future movements in the price of an asset. Futures and

options contracts can give them an extra leverage; that is, they can increase both

the potential gains and potential losses in a speculative venture.

3. Arbitrageurs are in business to take advantage of a discrepancy between prices in

two different markets. If for example, they see the futures price of an asset getting

out of line with the cash price, they will take offsetting positions in the two

markets to lock in a profit.

FACTORS DRIVING THE GROWTH OF DERIVATIVES

Over the last three decades, the derivatives market has seen a phenomenal growth. A

large variety of derivative contracts have been launched at exchanges across the world.

Some of the factors driving the growth of financial derivatives are:

1. Increased volatility in asset prices in financial markets,

56

2. Increased integration of national financial markets with the international markets,

3. Marked improvement in communication facilities and sharp decline in their costs,

4. Development of more sophisticated risk management tools, providing economic agents

a wider choice of risk management strategies, and

5. Innovations in the derivatives markets, which optimally combine the risks and returns

over a large number of financial assets leading to higher returns, reduced risk as well as

transactions costs as compared to individual financial assets.

2.4 FORWARD CONTRACTS

A forward contract is an agreement to buy or sell an asset on a specified date for a

specified price. One of the parties to the contract assumes a long position and agrees to

buy the underlying asset on a certain specified future date for a certain specified price.

The other party assumes a short position and agrees to sell the asset on the same date for

the same price. Other contract details like delivery date, price and quantity are negotiated

57

bilaterally by the parties to the contract. The forward contracts are normally traded

outside the exchanges.

The salient features of forward contracts are:

They are bilateral contracts and hence exposed to counter-party risk.

Each contract is custom designed, and hence is unique in terms of contract size,

expiration date and the asset type and quality.

The contract price is generally not available in public domain.

On the expiration date, the contract has to be settled by delivery of the asset.

If the party wishes to reverse the contract, it has to compulsorily go to the same

counter-party, which often results in high prices being charged.

However forward contracts in certain markets have become very standardized, as in the

case of foreign exchange, thereby reducing transaction costs and increasing transactions

volume. This process of standardization reaches its limit in the organized futures market.

Forward contracts are very useful in hedging and speculation. The classic hedging

application would be that of an exporter who expects to receive payment in dollars three

months later. He is exposed to the risk of exchange rate fluctuations. By using the

currency forward market to sell dollars forward, he can lock on to a rate today and reduce

his uncertainty. Similarly an importer who is required to make a payment in dollars two

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months hence can reduce his exposure to exchange rate fluctuations by buying dollars

forward. If a speculator has information or analysis, which forecasts an upturn in a price,

then he can go long on the forward market instead of the cash market. The speculator

would go long on the forward, wait for the price to rise, and then take a reversing

transaction to book profits. Speculators may well be required to deposit a margin upfront.

However, this is generally a relatively small proportion of the value of the assets

underlying the forward contract. The use of forward markets here supplies leverage to the

speculator.

LIMITATIONS OF FORWARD MARKETS

Forward markets world-wide are afflicted by several problems:

• Lack of centralization of trading,

• Illiquidity, and

• Counterparty risk

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In the first two of these, the basic problem is that of too much flexibility and generality.

The forward market is like a real estate market in that any two consenting adults can form

contracts against each other. This often makes them design terms of the deal which are

very convenient in that specific situation, but makes the contracts non-tradable.

Counterparty risk arises from the possibility of default by any one party to the

transaction. When one of the two sides to the transaction declares bankruptcy, the other

suffers. Even when forward markets trade standardized contracts, and hence avoid the

problem of illiquidity, still the counterparty risk remains a very serious issue.

2.5 FUTURES CONTRACTS

Futures markets were designed to solve the problems that exist in forward markets. A

futures contract is an agreement between two parties to buy or sell an asset at a certain

time in the future at a certain price. But unlike forward contracts, the futures contracts are

standardized and exchange traded. To facilitate liquidity in the futures contracts, the

exchange specifies certain standard features of the contract. It is a standardized contract

with standard underlying instrument, a standard quantity and quality of the underlying

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instrument that can be delivered, (or which can be used for reference purposes in

settlement) and a standard timing of such settlement. A futures contract may be offset

prior to maturity by entering into an equal and opposite transaction. More than 99% of

futures transactions are offset this way.

The standardized items in a futures contract are:

Quantity of the underlying

Quality of the underlying

The date and the month of delivery

The units of price quotation and minimum price change

Location of settlement

Merton Miller, the 1990 Nobel laureate had said that 'financial futures represent the most

significant financial innovation of the last twenty years." The first exchange that traded

financial derivatives was launched in Chicago in the year 1972. A division of the Chicago

Mercantile Exchange, it was called the International Monetary Market (IMM) and traded

currency futures. The brain behind this was a man called Leo Melamed, acknowledged as

the 'father of financial futures" who was then the Chairman of the Chicago Mercantile

Exchange. Before IMM opened in 1972, the Chicago Mercantile Exchange sold contracts

whose value was counted in millions. By 1990, the underlying value of all contracts

traded at the Chicago Mercantile Exchange totaled 50 trillion dollars. These currency

futures paved the way for the successful marketing of a dizzying array of similar products

at the Chicago Mercantile Exchange, the Chicago Board of Trade, and the Chicago Board

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Options Exchange. By the 1990s, these exchanges were trading futures and options on

everything from Asian and American stock indexes to interest-rate swaps, and their

success transformed Chicago almost overnight into the risk-transfer capital of the world.

FUTURES TERMINOLOGY

Spot price: The price at which an asset trades in the spot market.

Futures price: The price at which the futures contract trades in the futures market.

Contract cycle: The period over which a contract trades. The index futures

contracts on the NSE have one- month, two-month and three months expiry

cycles which expire on the last Thursday of the month. Thus a January expiration

contract expires on the last Thursday of January and a February expiration

contract ceases trading on the last Thursday of February. On the Friday following

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the last Thursday, a new contract having a three- month expiry is introduced for

trading.

Expiry date: It is the date specified in the futures contract. This is the last day on

which the contract will be traded, at the end of which it will cease to exist.

Contract size: The amount of asset that has to be delivered under one contract.

Also called as lot size.

Basis: In the context of financial futures, basis can be defined as the futures price

minus the spot price. There will be a different basis for each delivery month for

each contract. In a normal market, basis will be positive. This reflects that futures

prices normally exceed spot prices.

Cost of carry: The relationship between futures prices and spot prices can be

summarized in terms of what is known as the cost of carry. This measures the

storage cost plus the interest that is paid to finance the asset less the income

earned on the asset.

Initial margin: The amount that must be deposited in the margin account at the

time a futures contract is first entered into is known as initial margin.

Marking-to-market: In the futures market, at the end of each trading day, the

margin account is adjusted to reflect the investor's gain or loss depending upon

the futures closing price. This is called marking-to-market.

Maintenance margin: This is somewhat lower than the initial margin. This is set to

ensure that the balance in the margin account never becomes negative. If the

balance in the margin account falls below the maintenance margin, the investor

receives a margin call and is expected to top up the margin account to the initial

margin level before trading commences on the next day.

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DISTINCTION BETWEEN FUTURES AND FORWARDS CONTRACTS

Forward contracts are often confused with futures contracts. The confusion is primarily

because both serve essentially the same economic functions of allocating risk in the

presence of future price uncertainty. However futures are a significant improvement over

the forward contracts as they eliminate counterparty risk and offer more liquidity.

2.6 OPTIONS

In this section, we look at the next derivative product to be traded on the NSE, namely

options. Options are fundamentally different from forward and futures contracts. An

option gives the holder of the option the right to do something. The holder does not have

to exercise this right. In contrast, in a forward or futures contract, the two parties have

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committed themselves to doing something. Whereas it costs nothing (except margin

requirements) to enter into a futures contract, the purchase of an option requires an up-

front payment.

OPTION TERMINOLOGY

Index options: These options have the index as the underlying. Some options are

European while others are American. Like index futures contracts, index options

contracts are also cash settled.

Stock options: Stock options are options on individual stocks. Options currently

trade on over 500 stocks in the United States. A contract gives the holder the right

to buy or sell shares at the specified price.

Buyer of an option: The buyer of an option is the one who by paying the option

premium buys the right but not the obligation to exercise his option on the

seller/writer.

Writer of an option: The writer of a call/put option is the one who receives the

option premium and is thereby obliged to sell/buy the asset if the buyer exercises

on him.

There are two basic types of options, call options and put options.

Call option: A call option gives the holder the right but not the obligation to buy

an asset by a certain date for a certain price.

Put option: A put option gives the holder the right but not the obligation to sell an

asset by a certain date for a certain price.

Option price/premium: Option price is the price which the option buyer pays to

the option seller. It is also referred to as the option premium.

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Expiration date: The date specified in the options contract is known as the

expiration date, the exercise date, the strike date or the maturity.

Strike price: The price specified in the options contract is known as the strike

price or the exercise price.

American options: American options are options that can be exercised at any time

upto the expiration date. Most exchange-traded options are American.

European options: European options are options that can be exercised only on the

expiration date itself. European options are easier to analyze than American

options, and properties of an American option are frequently deduced from those

of its European counterpart.

FUTURES AND OPTIONS

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An interesting question to ask at this stage is - when would one use options instead of

futures? Options are different from futures in several interesting senses. At a practical

level, the option buyer faces an interesting situation. He pays for the option in full at the

time it is purchased. After this, he only has an upside. There is no possibility of the

options position generating any further losses to him (other than the funds already paid

for the option). This is different from futures, which is free to enter into, but can generate

very large losses. This characteristic makes options attractive to many occasional market

participants, who cannot put in the time to closely monitor their futures positions. Buying

put options is buying insurance. To buy a put option on Nifty is to buy insurance which

reimburses the full extent to which Nifty drops below the strike price of the put option.

This is attractive to many people, and to mutual funds creating "guaranteed return

products".

INDEX DERIVATIVES

Index derivatives are derivative contracts which derive their value from an Underlying

index. The two most popular index derivatives are index futures and index options. Index

derivatives have become very popular worldwide. Index derivatives offer various

advantages and hence have become very popular.

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Institutional and large equity-holders need portfolio-hedging facility. Index-

derivatives are more suited to them and more cost-effective than derivatives based

on individual stocks. Pension funds in the US are known to use stock index

futures for risk hedging purposes.

Index derivatives offer ease of use for hedging any portfolio irrespective of its

composition.

Stock index is difficult to manipulate as compared to individual stock prices,

more so in India, and the possibility of cornering is reduced. This is partly

because an individual stock has a limited supply, which can be cornered.

Stock index, being an average, is much less volatile than individual stock prices.

This implies much lower capital adequacy and margin requirements.

Index derivatives are cash settled, and hence do not suffer from settlement delays

and problems related to bad delivery, forged/fake certificates.

2.7 APPLICATIONS OF FUTURES AND OPTIONS

The phenomenal growth of financial derivatives across the world is attributed the

fulfillment of needs of hedgers, speculators and arbitrageurs by these products. In this

chapter we first look at how trading futures differs from trading the underlying spot. We

then look at the payoff of these contracts, and finally at how these contracts can be used

by various entities in the economy. A payoff is the likely profit/loss that would accrue to

a market participant with change in the price of the underlying asset. This is generally

depicted in the form of payoff diagrams which show the price of the underlying asset on

the X-axis and the profits/losses on the Y-axis.

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TRADING UNDERLYING VERSUS TRADING SINGLE STOCK FUTURES

The single stock futures market in India has been a great success story across the world.

NSE ranks first in the world in terms of number of contracts traded in single stock

futures. One of the reasons for the success could be the ease of trading and settling these

contracts. To trade securities, a customer must open a security trading account with a

securities broker and a demat account with a securities depository. Buying security

involves putting up all the money upfront. With the purchase of shares of a company, the

holder becomes a part owner of the company. The shareholder typically receives the

rights and privileges associated with the security, which may include the receipt of

dividends, invitation to the annual shareholders meeting and the power to vote. Selling

securities involves buying the security before selling it. Even in cases where short selling

is permitted, it is assumed that the securities broker owns the security and then "lends" it

to the trader so that he can sell it. Besides, even if permitted, short sales on security can

only be executed on an up-tick.

To trade futures, a customer must open a futures trading account with a derivatives

broker. Buying futures simply involves putting in the margin money. They enable the

futures traders to take a position in the underlying security without having to open an

account with a securities broker. With the purchase of futures on a security, the holder

essentially makes a legally binding promise or obligation to buy the underlying security

at some point in the future (the expiration date of the contract). Security futures do not

represent ownership in a corporation and the holder is therefore not regarded as a

shareholder.

A futures contract represents a promise to transact at some point in the future. In this

light, a promise to sell security is just as easy to make as a promise to buy security.

Selling security futures without previously owning them simply obligates the trader to 69

selling a certain amount of the underlying security at some point in the future. It can be

done just as easily as buying futures, which obligates the trader to buying a certain

amount of the underlying security at some point in the future. In the following sections

we shall look at some uses of security future.

2.8 FUTURES PAYOFFS

Futures contracts have linear payoffs. In simple words, it means that the losses as well as

profits for the buyer and the seller of a futures contract are unlimited. These linear

payoffs are fascinating as they can be combined with options and the underlying to

generate various complex payoffs.

Payoff for buyer of futures: Long futures

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The payoff for a person who buys a futures contract is similar to the payoff for a person

who holds an asset. He has a potentially unlimited upside as well as a potentially

unlimited downside. Take the case of a speculator who buys a two month Nifty index

futures contract when the Nifty stands at 2220. The underlying asset in this case is the

Nifty portfolio. When the index moves up, the long futures position starts making profits,

and when the index moves down it starts making losses.

Payoff for a buyer of Nifty futures

The figure shows the profits/losses for a long futures position. The investor bought

futures when the index was at 2220. If the index goes up, his futures position starts

making profit. If the index falls, his futures position starts showing losses.

Payoff for seller of futures: Short futures

The payoff for a person who sells a futures contract is similar to the payoff for a person

who shorts an asset. He has a potentially unlimited upside as well as a potentially

unlimited downside. Take the case of a speculator who sells a two-month Nifty index

futures contract when the Nifty stands at 2220. The underlying asset in this case is the

Nifty portfolio. When the index moves down, the short futures position starts making

profits, and when the index moves up, it starts making losses.

Payoff for a seller of Nifty futures

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The figure shows the profits/losses for a short futures position. The investor sold futures

when the index was at 2220. If the index goes down, his futures position starts making

profit. If the index rises, his futures position starts showing losses.

2.9 APPLICATION OF FUTURES

Understanding beta the index model suggested by William Sharpe offers insights into

portfolio diversification. It expresses the excess return on a security or a portfolio as a

function of market factors and non market factors. Market factors are those factors that

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affect all stocks and portfolios. These would include factors such as inflation, interest

rates, business cycles etc. Non-market factors would be those factors which are specific

to a company, and do not affect the entire market. For example, a fire breakout in a

factory, a new invention, the death of a key employee, a strike in the factory, etc. The

market factors affect all firms. The unexpected changes in these factors cause unexpected

changes in the rates of returns on the entire stock market. Each stock however responds to

these factors to different extents. Beta of a stock measures the sensitivity of the stocks

responsiveness to these market factors. Similarly, Beta of a portfolio, measures the

portfolios responsiveness to these market movements. Given stock beta’s, calculating

portfolio beta is simple. It is nothing but the weighted average of the stock betas. The

index has a beta of 1. Hence the movements of returns on a portfolio with a beta of one

will be like the index. If the index moves up by ten percent, my portfolio value will

increase by ten percent. Similarly if the index drops by five percent, my portfolio value

will drop by five percent. A portfolio with a beta of two, responds more sharply to index

movements. If the index moves up by ten percent, the value of a portfolio with a beta of

two will move up by twenty percent. If the index drops by ten percent, the value of a

portfolio with a beta of two will fall by twenty percent. Similarly, if a portfolio has a beta

of 0.75, a ten percent movement in the index will cause a 7.5 percent movement in the

value of the portfolio. In short, beta is a measure of the systematic risk or market risk of a

portfolio. Using index futures contracts, it is possible to hedge the systematic risk. With

this basic understanding, we look at some applications of index futures.

We look here at some applications of futures contracts. We refer to single stock futures.

However since the index is nothing but a security whose price or level is a weighted

average of securities constituting an index, all strategies that can be implemented using

stock futures can also be implemented using index futures.

Hedging: Long security, sell futures

Futures can be used as an effective risk-management tool. Take the case of an investor

who holds the shares of a company and gets uncomfortable with market movements in

the short run. He sees the value of his security falling from Rs.450 to Rs.390. In the

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absence of stock futures, he would either suffer the discomfort of a price fall or sell the

security in anticipation of a market upheaval. With security futures he can minimize his

price risk. All he need do is enter into an offsetting stock futures position, in this case,

take on a short futures position. Assume that the spot price of the security he holds is

Rs.390. Two-month futures cost him Rs.402. For this he pays an initial margin. Now if

the price of the security falls any further, he will suffer losses on the security he holds.

However, the losses he suffers on the security will be offset by the profits he makes on

his short futures position. Take for instance that the price of his security falls to Rs.350.

The fall in the price of the security will result in a fall in the price of futures. Futures will

now trade at a price lower than the price at which he entered into a short futures position.

Hence his short futures position will start making profits. The loss of Rs.40 incurred on

the security he holds, will be made up by the profits made on his short futures position.

Index futures in particular can be very effectively used to get rid of the market risk of a

portfolio. Every portfolio contains a hidden index exposure or a market exposure. This

statement is true for all portfolios, whether a portfolio is composed of index securities or

not. In the case of portfolios, most of the portfolio risk is accounted for by index

fluctuations (unlike individual securities, where only 30-60% of the securities risk is

accounted for by index fluctuations). Hence a position LONG PORTFOLIO + SHORT

NIFTY can often become one-tenth as risky as the LONG PORTFOLIO position!

Suppose we have a portfolio of Rs. 1 million which has a beta of 1.25. Then a complete

hedge is obtained by selling Rs.1.25 million of Nifty futures.

Warning: Hedging does not always make money. The best that can be achieved using

hedging is the removal of unwanted exposure, i.e. unnecessary risk. The hedged position

will make fewer profits than the unhedged position, half the time. One should not enter

into a hedging strategy hoping to make excess profits for sure; all that can come out of

hedging is reduced risk.

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Speculation: Bullish security, buy futures

Take the case of a speculator who has a view on the direction of the market. He would

like to trade based on this view. He believes that a particular security that trades at

Rs.1000 is undervalued and expects its price to go up in the next two-three months. How

can he trade based on this belief? In the absence of a deferral product, he would have to

buy the security and hold on to it. Assume he buys 100 shares which cost him one lakh

rupees. His hunch proves correct and two months later the security closes at Rs.1010. He

makes a profit of Rs.1000 on an investment of Rs. 1,00,000 for a period of two months.

This works out to an annual return of 6 percent. Today a speculator can take exactly the

same position on the security by using futures contracts. Let us see how this works. The

security trades at Rs.1000 and the two-month futures trades at 1006. Just for the sake of

comparison, assume that the minimum contract value is 1,00,000. He buys 100 security

futures for which he pays a margin of Rs.20,000. Two months later the security closes at

1010. On the day of expiration, the futures price converges to the spot price and he makes

a profit of Rs.400 on an investment of Rs.20,000. This works out to an annual return of

12 percent. Because of the leverage they provide, security futures form an attractive

option for speculators.

Speculation: Bearish security, sell futures

Stock futures can be used by a speculator who believes that a particular security is over-

valued and is likely to see a fall in price. How can he trade based on his opinion? In the

absence of a deferral product, there wasn't much he could do to profit from his opinion.

Today all he needs to do is sell stock futures. Let us understand how this works. Simple

arbitrage ensures that futures on an individual securities move correspondingly with the

underlying security, as long as there is sufficient liquidity in the market for the security.

If the security price rises, so will the futures price. Now take the case of the trader who

expects to see a fall in the price of ABC Ltd. He sells one two-month contract of futures

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on ABC at Rs.240 (each contact for 100 underlying shares). He pays a small margin on

the same. Two months later, when the futures contract expires, ABC closes at 220. On

the day of expiration, the spot and the futures price converges. He has made a clean profit

of Rs.20 per share. For the one contract that he bought, this works out to be Rs.2000.

Arbitrage: Overpriced futures: buy spot, sell futures

As we discussed earlier, the cost-of-carry ensures that the futures price stay in tune with

the spot price. Whenever the futures price deviates substantially from its fair value,

arbitrage opportunities arise. If you notice that futures on a security that you have been

observing seem overpriced, how can you cash in on this opportunity to earn riskless

profits?

Say for instance, ABC Ltd. trades at Rs.1000. One- month ABC futures trade at Rs.1025

and seem overpriced. As an arbitrageur, you can make riskless profit by entering into the

following set of transactions.

1. On day one, borrow funds, buy the security on the cash/spot market at 1000.

2. Simultaneously, sell the futures on the security at 1025.

3. Take delivery of the security purchased and hold the security for a month.

4. On the futures expiration date, the spot and the futures price converge. Now unwind

the position.

5. Say the security closes at Rs.1015. Sell the security.

6. Futures position expires with profit of Rs.10.

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7. The result is a riskless profit of Rs.15 on the spot position and Rs.10 on the futures

position.

8. Return the borrowed funds.

When does it make sense to enter into this arbitrage? If your cost of borrowing funds to

buy the security is less than the arbitrage profit possible, it makes sense for you to

arbitrage. This is termed as cash-and-carry arbitrage. Remember however, that exploiting

an arbitrage opportunity involves trading on the spot and futures market. In the real

world, one has to build in the transactions costs into the arbitrage strategy

Arbitrage: Underpriced futures: buy futures, sell spot

Whenever the futures price deviates substantially from its fair value, arbitrage

opportunities arise. It could be the case that you notice the futures on a security you hold

seem underpriced. How can you cash in on this opportunity to earn riskless profits? Say

for instance, ABC Ltd. trades at Rs.1000. One month ABC futures trade at Rs. 965 and

seem underpriced. As an arbitrageur, you can make riskless profit by entering into the

following set of transactions.

1. On day one, sell the security in the cash/spot market at 1000.

2. Make delivery of the security.

3. Simultaneously, buy the futures on the security at 965.

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4. On the futures expiration date, the spot and the futures price converge. Now unwind

the position.

5. Say the security closes at Rs.975. Buy back the security.

6. The futures position expires with a profit of Rs.10.

7. The result is a riskless profit of Rs.25 on the spot position and Rs.10 on the futures

position.

If the returns you get by investing in riskless instruments are more than the return from

the arbitrage trades, it makes sense for you to arbitrage. This is termed as reverse-cash-

and-carry arbitrage. It is this arbitrage activity that ensures that the spot and futures prices

stay in line with the cost-of-carry. As we can see, exploiting arbitrage involves trading on

the spot market. As more and more players in the market develop the knowledge and

skills to do cash and-carry and reverse cash-and-carry, we will see increased volumes and

lower spreads in both the cash as well as the derivatives market.

2.10 OPTIONS PAYOFFS

The optionality characteristic of options results in a non-linear payoff for options. In

simple words, it means that the losses for the buyer of an option are limited, however the

profits are potentially unlimited. For a writer, the payoff is exactly the opposite. His

profits are limited to the option premium; however his losses are potentially unlimited.

These non-linear payoffs are fascinating as they lend themselves to be used to generate

various payoffs by using combinations of options and the underlying. We look here at the

six basic payoffs.

Payoff profile of buyer of asset: Long asset

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In this basic position, an investor buys the underlying asset, Nifty for instance, for 2220,

and sells it at a future date at an unknown price, once it is purchased, the investor is said

to be "long" the asset.

Payoff profile for seller of asset: Short asset

In this basic position, an investor shorts the underlying asset, Nifty for instance, for 2220,

and buys it back at a future date at an unknown price, once it is sold, the investor is said

to be "short" the asset.

Payoff profile for buyer of call options: call

A call option gives the buyer the right to buy the underlying asset at the strike price

specified in the option. The profit/loss that the buyer makes on the option depends on the

spot price of the underlying. If upon expiration, the spot price exceeds the strike price, he

makes a profit. Higher the spot price more is the profit he makes. If the spot price of the

underlying is less than the strike price, he lets his option expire un-exercised. His loss in

this case is the premium he paid for buying the option.

Payoff profile for buyer of put options: put

A put option gives the buyer the right to sell the underlying asset at the strike price

specified in the option. The profit/loss that the buyer makes on the option depends on the

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spot price of the underlying. If upon expiration, the spot price is below the strike price, he

makes a profit. Lower the spot price more is the profit he makes. If the spot price of the

underlying is higher than the strike price, he lets his option expire un-exercised. His loss

in this case is the premium he paid for buying the option

2.11 APPLICATION OF OPTIONS

We look here at some applications of options contracts. We refer to single stock options

here. However since the index is nothing but a security whose price or level is a weighted

average of securities constituting the index, all strategies that can be implemented using

stock futures can also be implemented using index options.

Hedging: Have underlying buy puts

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Owners of stocks or equity portfolios often experience discomfort about the overall

stock market movement. As an owner of stocks or an equity portfolio, sometimes you

may have a view that stock prices will fall in the near future. At other times you may see

that the market is in for a few days or weeks of massive volatility, and you do not have an

appetite for this kind of volatility. The union budget is a common and reliable source of

such volatility: market volatility is always enhanced for one week before and two weeks

after a budget. Many investors simply do not want the fluctuations of these three weeks.

One way to protect your portfolio from potential downside due to a market drop is to buy

insurance using put options. Index and stock options are a cheap and easily

implementable way of seeking this insurance. The idea is simple. To protect the value of

your portfolio from falling below a particular level, buy the right number of put options

with the right strike price. If you are only concerned about the value of a particular stock

that you hold, buy put options on that stock. If you are concerned about the overall

portfolio, buy put options on the index.

When the stock price falls your stock will lose value and the put options bought by you

will gain, effectively ensuring that the total value of your stock plus put does not fall

below a particular level. This level depends on the strike price of the stock options chosen

by you. Similarly when the index falls, your portfolio will lose value and the put options

bought by you will gain, effectively ensuring that the value of your portfolio does not fall

below a particular level. This level depends on the strike price of the index options

chosen by you. Portfolio insurance using put options is of particular interest to mutual

funds who already own well-diversified portfolios. By buying puts, the fund can limit its

downside in case of a market fall.

Speculation: Bullish security, buy calls or sell puts

There are times when investors believe that security prices are going to rise. For instance,

after a good budget, or good corporate results, or the onset of a stable government. How

does one implement a trading strategy to benefit from an upward movement in the

underlying security? Using options there are two ways one can do this:

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1. Buy call options; or

2. Sell put options

We have already seen the payoff of a call option. The downside to the buyer of the call

option is limited to the option premium he pays for buying the option. His upside

however is potentially unlimited. Suppose you have a hunch that the price of a particular

security is going to rise in a month’s time. Your hunch proves correct and the price does

indeed rise, it is this upside that you cash in on. However, if your hunch proves to be

wrong and the security price plunges down, what you lose is only the option premium.

Having decided to buy a call, which one should you buy?

Let us take a look at call options with different strike prices. Assume that the current

price level is 1250, risk-free rate is 12% per year and volatility of the underlying security

is 30%. The following options are available:

1. A one month call with a strike of 1200.

2. A one month call with a strike of 1225.

3. A one month call with a strike of 1250.

4. A one month call with a strike of 1275.

5. A one month call with a strike of 1300.

Which of these options you choose largely depends on how strongly you feel about the

likelihood of the upward movement in the price, and how much you are willing to lose

should this upward movement not come about. There are five one-month calls and five

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one-month puts trading in the market. The call with a strike of 1200 is deep in-the-money

and hence trades at a higher premium. The call with a strike of 1275 is out-of-the-money

and trades at a low premium. The call with a strike of 1300 is deep-out-of-money. Its

execution depends on the unlikely event that the underlying will rise by more than 50

points on the expiration date. Hence buying this call is basically like buying a lottery.

There is a small probability that it may be in-the-money by expiration, in which case the

buyer will make profits. In the more likely event of the call expiring out-of-the-money,

the buyer simply loses the small premium amount of Rs.27.50. As a person who wants to

speculate on the hunch that prices may rise, you can also do so by selling or writing puts.

As the writer of puts, you face a limited upside and an unlimited downside. If prices do

rise, the buyer of the put will let the option expire and you will earn the premium. If

however your hunch about an upward movement proves to be wrong and prices actually

fall, then your losses directly increase with the falling price level. If for instance the price

of the underlying falls to 1230 and you've sold a put with an exercise of 1300, the buyer

of the put will exercise the option and you'll end up losing Rs.70.

Taking into account the premium earned by you when you sold the put, the net loss on

the trade is Rs.5.20. Having decided to write a put, which one should you write? Given

that there are a number of one-month puts trading, each with a different strike price, the

obvious question is: which strike should you choose?

Underlying Strike price of option

Call Premium (Rs.) Put Premium (Rs.)

1250 1200 80.10 18.15

1250 1225 63.65 26.50

1250 1250 49.45 37.00

1250 1275 37.50 49.80

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1250 1300 27.50 64.80

In the example, at a price level of 1250, one option is in-the-money and one is out-of-the-

money. As expected, the in-the-money option fetches the highest premium of Rs.64.80

whereas the out-of-the-money option has the lowest premium of Rs. 18.15.

Speculation: Bearish security, sell calls or buy puts

Do you sometimes think that the market is going to drop? That you could make profit by

adopting a position on the market? Due to poor corporate results, or the instability of the

government, many people feel that the stocks prices would go down. How does one

implement a trading strategy to benefit from a downward movement in the market?

Today, using options, you have two choices:

1. Sell call options; or

2. Buy put options

We have already seen the payoff of a call option. The upside to the writer of the call

option is limited to the option premium he receives upright for writing the option. His

downside however is potentially unlimited. Suppose you have a hunch that the price of a

particular security is going to fall in a month’s time. Your hunch proves correct and it

does indeed fall, it is this downside that you cash in on. When the price falls, the buyer of

the call lets the call expire and you get to keep the premium. However, if your hunch

proves to be wrong and the market soars up instead, what you lose is directly proportional

to the rise in the price of the security.

Payoff for buyer of call options at various strikes

The figure shows the profits/losses for a buyer of calls at various strikes. The in-the-

money option with a strike of 1200 has the highest premium of Rs.80.10 whereas the out-

of-the-money option with a strike of 1300 has the lowest premium of Rs.27.50.84

Payoff for writer of put options at various strikes

The figure shows the profits/losses for a writer of puts at various strikes. The in the

money option with a strike of 1300 fetches the highest premium of Rs.64.80 whereas the

out-of-the-money option with a strike of 1200 has the lowest premium of Rs.

18.15.Having decided to write a call, which one should you write? Given that there are a

number of one-month calls trading, each with a different strike price, the obvious

question is: which strike should you choose? Let us take a look at call options with

different strike prices. Assume that the current stock price is 1250, risk-free rate is 12%

per year and stock volatility is 30%. You could write the following options:

1. A one month call with a strike of 1200.

2. A one month call with a strike of 1225.

3. A one month call with a strike of 1250.

4. A one month call with a strike of 1275.

5. A one month call with a strike of 1300.

Which of this options you write largely depends on how strongly you feel about the

likelihood of the downward movement of prices and how much you are willing to lose

should this downward movement not come about. There are five one-month calls and five

one-month puts trading in the market. The call with a strike of 1200 is deep in-the-money

and hence trades at a higher premium. The call with a strike of 1275 is out-of-the-money

and trades at a low premium. The call with a strike of 1300 is deep-out-of-money. Its

execution depends on the unlikely event that the stock will rise by more than 50 points on

the expiration date. Hence writing this call is a fairly safe bet. There is a small probability

that it may be in-the-money by expiration in which case the buyer exercises and the

writer suffers losses to the extent that the price is above 1300. In the more likely event of

the call expiring out of-the-money, the writer earns the premium amount of Rs.27.50. As

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a person who wants to speculate on the hunch that the market may fall, you can also buy

puts.

As the buyer of puts you face an unlimited upside but a limited downside. If the price

does fall, you profit to the extent the price falls below the strike of the put purchased by

you. If however your hunch about a downward movement in the market proves to be

wrong and the price actually rises, all you lose is the option premium. If for instance the

security price rises to 1300 and you've bought a put with an exercise of 1250, you simply

let the put expire. If however the price does fall to say 1225 on expiration date, you make

a neat profit of Rs.25.

Having decided to buy a put, which one should you buy? Given that there are a number

of one-month puts trading, each with a different strike price, the obvious question is:

which strike should you choose? This largely depends on how strongly you feel about the

likelihood of the downward movement in the market. If you buy an at-the-money put, the

option premium paid by you will by higher than if you buy an out-of-the-money put.

However the chances of an at-the-money put expiring in-the-money are higher as well.

One month calls and puts trading at different strikes

The spot price is 1250. There are five one-month calls and five one-month puts trading in

the market. The call with a strike of 1200 is deep in-the-money and hence trades at a

higher premium. The call with a strike of 1275 is out-of-the-money and trades at a low

premium. The call with a strike of 1300 is deep-out of- money. Its execution depends on

the unlikely event that the price will rise by more than 50 points on the expiration date.

Hence writing this call is a fairly safe bet. There is a small probability that it may be in-

the-money by expiration in which case the buyer exercises and the writer suffers losses to

the extent that the price is above 1300. In the more likely event of the call expiring out-

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of-the-money, the writer earns the premium amount of Rs.27.50. Figure 4.12 shows the

payoffs from writing calls at different strikes. Similarly, the put with a strike of 1300 is

deep in-the-money and trades at a higher premium than the at-the-money put at a strike of

1250. The put with a strike of 1200 is deep out-of-the-money and will only be exercised

in the unlikely event that the price falls by 50 points on the expiration date. The choice of

which put to buy depends upon how much the speculator expects the market to fall.

Price Strike price of option

Call Premium (Rs.) Put Premium (Rs.)

1250 1200 80.10 18.15

1250 1225 63.65 26.50

1250 1250 49.45 37.00

1250 1275 37.50 49.80

1250 1300 27.50 64.80

Payoff for seller of call option at various strikes

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The figure shows the profits/losses for a seller of calls at various strike prices. The in-the-

money option has the highest premium of Rs.80.10 whereas the out-of-the-money option

has the lowest premium of Rs. 27.50.

Payoff for buyer of put options at various strikes

The figure shows the profits/losses for a buyer of puts at various strike prices. The in-the-

money option has the highest premium of Rs.64.80 whereas the out-of-the-money option

has the lowest premium of Rs. 18.50.

3 Analysis & interpretation

Q -1 where do you invest your saving?

Share

Mutual funds

Bonds

Derivative

88

INTERPRETATION

In above pie chart we can understand easily that mostly investor invests in share then they are

interested to invest in mutual fund. And in derivative market very few investor are interested to

invest in derivative market.

Q -2 Are you aware of online religare trading?

Yes

No

89

INTERPRETATION

In market survey we find that 55% of people are known about the religare online trading

and 45% of people are not aware of online trading in religare.

Q – 3. Heard about religare?

Yes

No

90

INTERPRETATION

In market survey we find that 72% of people heard about the religare co.

and 28% of people are not aware of religare co.

Q – 4 Do you know about the facilities provided by religare?

Yes

No

91

INTERPRETATION

HERE, 47% of people known about the facility which is provided by religare.but 53%of people

are not aware of the facility of religare.They are interested to know about the facility which is

provided by the religare to investor. But lack of sources they don’t get the proper knowledge about

the religare facility.

Q –5 With which company do you has demat account?

Religare

ICICI Direct

92

India bulls

Sharekhan

Others

INTERPRETATION

HERE, to see the pie chart we understand easily that the ICICI Direct has maximum proportion.

Which shows that investors are more interested to invest in ICICI Direct then others. Then in

second no.religare comes religare have 25% of the total survey. In third no. sharekhan company

which has 23% of total market. Then 15% in India Bulls. Then 10 % to other companies.

Q –6. Are you currently satisfied with your share trading company?

Yes

No

93

INTERPRETATION

In market survey we find that 40% of people are satisfy with their share trading company

and 60% of people are not satisfy with their share trading company.

Q –7 what percentage of your earning do you invest in share trading?

Up to 10%94

Up to 25%

Up to 50%

Above 50%

INTERPRETATION

IN Market survey we known that how much invest by investor in share market. For above pie

chart its shows that how much the investor invests their earning in share market.

Q – 8. What kind of investment risk do you prefer?

More Risk More Return

Moderate Risk Moderate Return

95

Less Risk Less Return

INTERPRETATION

In market survey we find that 22% want more risk more return, 24% want less risk less return

and 54% want moderate risk moderate return.

Q – 9. Do you survey the market risk before investing your money?

Yes

96

No

INTERPRETATION

In market survey we find that 43% of people survey the market risk before investing your money

and 57% of people are not survey the market risk before investing your money.

Q – 10. Are you satisfied with the kind of returns and features associated with your investment?

Yes

97

No

INTERPRETATION

In market survey we find that 53% people are satisfied with returns and features associated with

your investment and 47% of people are not satisfied with returns and features associated with your

investment.

4 FINDINGS

98

On analyzing all the information collected through questionnaire, conversation with

investors, articles from economic surveys and journals and discussions with faculty and

experienced professionals in details, I find some very crucial things about investors

thinking and perceptions (Consumer Behaviors) regarding their investment decisions.

Some of these findings are as follows:

Investors of FD and depositors with Banks and Post Office’s are not very much satisfied

with their returns and the kind of services they get from them. So we (stock broking

company) should must try to capture this market investors. For that we have to create

awareness, advertise more, and approachability to customers.

The biggest advantage of derivative trading is that you can buy stocks in future

trading by paying only 20% or 30% of the price. That means if you are buying a stock of

Rs.10 each and the lot contains 1000 stocks you can pay only Rs.2000 to Rs.3000 to buy

the lot. Whereas, the stock price in that cases would have been Rs.10000. So, you are

gaining more profit at a time without investing more money.

In case of derivative trading you can short sell the stocks. That means you can

first sell the lot of stock and then buy them back within the stipulated time to honor the

contract. In case of an overvalued stock that are sure to fall in near future, you can gain

from short selling. This is an option that you can not get in equity trading unless you are

doing intraday trading.

In future trading the brokerage is usually lower than the equity trading. As you are

buying the stocks in a lot the brokerage is calculated not on the unit of the stocks but on

the unit of the lot.

4Conclusions

99

In this project I have learned about the major types of derivatives and that the derivative

can be used as a risk management tool. One of the main reasons for the popularity of

derivatives is its risk hedging features.

One should however careful while using derivatives because wrong use of the same can

result in unlimited risk. There can be no doubt that derivatives are powerful tools for

risk management if used properly. However, derivatives can produce disastrous results.

There are several characteristics of derivatives, which necessitate very careful

management of exposures .first and foremost, derivative instrument are highly ‘geared’.

because of this, it is possible to lose far more than one’s original capital in a derivative

transaction. In a normal business deal, with a capital of rs.10 million the maximum loss

that can be suffered is rs.10 million or there abouts.however, if rs.10 million is

deployed in a transaction, it is quite possible to lose rs.100 million that is, 10 times the

value of the capital put in. This is the single most important reason why derivative

transactions require a much tighter supervision and control mechanism. Secondly,

derivative markets move at great speed. The markets are open virtually on a 24 hour

basis, due to the integration to various exchanges across the world. Big price

movements can occur overnight. Every firm and individuals who uses derivatives must

therefore exercise considerable caution and care in handing its derivative exposures.

There is no question on the existence and need for derivatives as an instrument of risk

management, but a part this risk is manmade, and can be effectively controlled at the

macro level. The growing fierce competition in the derivative markets of today

certainly improves trading conveniences and lower transaction costs but at the same

time this may mean increasing number of frauds. The exchange is therefore required to

keep a tight control over to check such happenings

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5 APPENDICES

5.1 QUESTIONNAIRE

PERSONAL DETAIL

NAME:

AGE:

CONTACT NO:

ADDRESS NO:

1. WHERE DO YOU INVEST YOUR SAVING?

Shares

Mutual funds

Bonds

Derivative

2. Are you aware of online religare trading?

Yes

No

3. Heard about religare?

Yes

101

No

4. Do you know about the facilities provided by religare?

Yes

No

5. With which company do you have demat account?

Religare

ICICI Direct

India Bulls

Sharekhan

Others (please specify)………………….

6. Are you currently satisfied with your share trading company?

Yes

No

7. What percentage of your earning do you invest in share trading?

Upto 10%

Upto 25%

102

Upto 50%

Above 50%

8. What kind of investment risk do you prefer ?

More Risk More Return

Moderate Risk Moderate Return

Less Risk Less Return

9. Do you survey the market risk before investing your money?

Yes

No

10. Are you satisfied with the kind of returns and features associated with your

investment?

Yes

No

5.2 BIBLIOGRAPHY

103

Rm equity training manual: religare securities ltd

Derivative module: NCFM

http:// www.commoditymarket.com

http:// www.moneycontrol.com

http:// www.nseindia.com

http:// www.religaresecurities.in

http:// www.bseindia.com

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