Chapter 5 Energy Derivatives: Structures and Applications Book Review

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Chapter 5 Energy Derivatives: Structures and Applications Book Review

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Title: Chapter 5 Energy Derivatives: Structures and Applications Book Review


1
Chapter 5Energy Derivatives Structures and
Applications(Book Review)
  • Zhao, Lu (Matthew)
  • Dept. of Math Stats, Univ. of Calgary
  • January 24, 2007
  • Lunch at the Lab Seminar

2
Outline
  • Exchange Traded Instruments
  • Swaps
  • Caps, Floors and Collars
  • Swaptions
  • Compound Options Captions and Floptions
  • Spread and Exchange Options
  • Path Dependent Options

3
1 Introduction
  • Exotic Options
  • More complicated payoff structures than standard
    derivatives
  • Known as second generation, or sometimes
    path-dependent options
  • Trade over-the-counter (almost)

4
2 Exchange Traded Instruments
  • New York Mercantile Exchange (NYMEX)
  • Futures and American style futures options on
    oil, gas and electricity crack spread options
  • Chicago Board Options Exchange (CBOE)
  • Electricity futures and options
  • Sydney Futures Exchange and Nordic Electricity
    Exchange
  • Electricity futures

5
3 Swaps
  • First energy swaps were traded in October 1986
    (Chase Manhattan Bank vs. Cathay Pacific Airways
    and Koch Industries, oil-indexed price swap)
  • Swaps are also known as Contracts-for-Differences
    or Fixed-for-Floating contracts
  • Used to lock in a fixed price for a certain
    predetermined but not necessarily constant
    quantity

6
3.1 Vanilla Swap
  • An agreement in which counterparties exchange a
    floating energy price for a fixed energy price
  • Example
  • Buyer an oil producer
  • Swap provider an oil refiner
  • A swap would allow them to buy forward their
    anticipated oil consumption based on current oil
    forward prices

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  • Vanilla swaps can be priced directly off the
    forward energy curve since the appropriate
    portfolio of forward deals is an exact hedge of
    the swap. Therefore, the payoff at each reset
    date is the same as for a forward contract
  • A vanilla swap is usually viewed as a weighted
    average of the forwards underlying the swap with
    weights being the discount rates to each of the
    swap settlement dates

8
  • The value of a vanilla swap

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3.2 Variable Volume Swap
  • This contract is identical to a vanilla swap
    except that the underlying quantity or volume is
    not known in advance
  • The variability of the volume must be modeled in
    order to price contracts (detailed in Chapter 7)

10
3.3 Differential Swap
  • Similar to vanilla swaps except that the
    counterparties exchange the difference between
    two different floating prices for a fixed price
    differential
  • Example
  • A refiners probability depends on the market
    price differential of the raw commodity and the
    refined products and a differential swap allows a
    refiner to lock in their refining margin at the
    fixed price

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  • A differential swap is a portfolio of forward
    differential contracts with maturity dates
    corresponding to the settlement dates underlying
    the differential swap
  • The value is given by

12
3.4 Margin or Crack Swap
  • A specific form of differential swap in which the
    fixed price payer receives the difference between
    the market price differential of the raw
    commodity and the refined products in appropriate
    fractions and the fixed price

13
3.5 Participation Swap
  • Similar to a vanilla swap in that the fixed price
    payer is fully protected when prices rise above
    the agreed fixed price but they participate in a
    certain percentage of savings if prices fall.
  • Example
  • A participation swap for gasoil at a fixed
    price of 150 per ton with a participation of 50
  • a) If the gasoil price is 160 per ton, the
    fixed price payer received 10 per ton
  • b) If the gasoil price is 140 per ton, the
    fixed price payer only pay the provider 5 per ton

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3.6 Double-Up Swap
  • The fixed price payer can achieve a better swap
    price than the market price but in return the
    swap provider has the option to double the volume
    before the pricing period starts
  • The fixed price payer is exposed to the risk that
    if swap prices fall the fixed price receiver will
    exercise the right to double the swap volume

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3.7 Extendable Swap
  • Similar to the double-up swap except that the
    swap provider has the option to extend the period
    of the swap for a predetermined period

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4 Caps, Floors and Collars
  • Caps provide price protection for the buyer above
    a predetermined level for a predetermined period
    of time
  • Floors guarantee the minimum price that will be
    paid or received at a predetermined level
  • A collar is a combination of a long position in a
    cap and a short position in a floor

17
  • A generic cap can be viewed as a portfolio of
    standard European call options with strike prices
    equal to the cap level and maturity dates equal
    to the settlement dates of the cap
  • Value of a standard cap is given by

18
  • Similarly, a generic floor is a portfolio of
    European put options with strike prices equal to
    the floor level and maturity dates equal to the
    settlement dates of the floor
  • Value of a floor is given by

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  • Collars are typically used by energy buyers who
    wish to hedge against price increases and wish to
    use the premium on short floors to pay for the
    cap protection
  • The strike prices of the cap and floor can be set
    to yield a collar at zero cost

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5 Swaptions
  • A swaption is a European option on an energy swap
  • A call option on the swap, also called a payer
    swaption, with strike price K and time to
    maturity T, provides the holder of the option the
    right to enter into a swap, paying the fixed
    price K and receiving the floating energy spot
    price
  • A put option on a swap, or receiver swaption,
    gives the purchaser of the option the right to
    sell a swap or receive the fixed price K and pay
    the floating price

21
  • The payoff to the payer swaption as
  • The value of the payer swaption is

22
  • If physical settlement considered
  • Payoff
  • Value

23
6 Compound Options-Captions and Floptions
  • An option which allows its holder to purchase or
    sell another option for a fixed price is called a
    compound option
  • A caption is an option on a cap and a floption is
    an option on a floor
  • These instruments are options on portfolios of
    options and no simple analytical formulae exist

24
7 Spread and Exchange Options
  • 7.1 Calendar Spreads
  • If the futures contracts are written on the same
    underlying energy, but with different maturity
    dates, then the option is often referred to as a
    calendar spread option
  • Payoff to a European call spread option with
    strike K and maturity T as

25
  • Value of the calendar spread option

26
7.2 Crack Spreads
  • If the futures contracts underlying the option
    are written on two separate energies, then the
    option is often referred to as a crack spread
    option. The maturity of the futures contracts can
    be on the same date or different dates
  • Options of this type are often used by companies
    who are exposed to the difference in price
    between two different energies

27
  • Payoff
  • Value

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7.3 Exchange Options
  • Provide a payout which is based on the relative
    performance of two energy prices
  • Two types
  • a) out-performance options payoff
  • b)

29
8 Path Dependent Options
  • 8.1 Asian Options-Average Price and Average
    Strike
  • Asian options are options whose final payoff is
    based in some way on the average level of an
    energy price during some or all of the life of
    the option
  • In general, the main use of Asian options is
    hedging an exposure to the average price over a
    period of time

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8.2 Barrier Options
  • Barrier options are standard options that either
    cease to exist or only come into existence if the
    underlying price crosses a predetermined level
    the barrier
  • Analytical formulae exist for the basic barrier
    options in the Black-Scholes-Merton world under
    the assumption that the crossing of the barrier
    is continuously checked. For discretely fixed
    barrier options we need to use numerical
    techniques to evaluate prices

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8.3 Lookback Options-Fixed Strike and Floating
Strike
  • The payout of lookback options is a function of
    the highest or lowest price at which the
    underlying asset trades over some period during
    the life of the option. For this reason, they are
    occasionally referred to as hindsight options
  • Analytical formulae exist for the standard
    lookback options in a Black-Scholes-Merton world
    when the maximum or minimum is checked
    continuously, but numerical techniques must be
    used for discretely fixed examples

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8.4 Ladder and Cliquet Options
  • Ladder options have a predefined set of levels
    such that if the underlying price crosses a
    particular level it locks in a minimum payoff
    equal to the difference between the level crossed
    and the strike price

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  • Cliquet options have a predefined set of dates at
    which the underlying price is observed and they
    payoff the maximum of the differences between
    these fixings and the predefined strike price for
    a call or the maximum of the differences between
    the predefined strike price and the fixings for a
    put

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9 Summary
  • Exotic options are almost common place in the
    energy markets compared with other markets
  • The high volatility exhibited by many energy
    commodities and the fact that they have been
    embedded in many energy contracts for a long time
    has led to a ready acceptance for these kinds of
    derivatives

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THE ENDTHANK YOU!
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